Abstracts of Researchs that will be presented on 12th International Meeting of World Muscle Society, Italy, October, 17- 20 - 2007
1) Long term steroid use in non-ambulatory patients with Duchenne muscular dystrophy
M. Eagle, M. MCallum, M. Guglieri V. Straub and K. Bushby - United Kingdom
Daily corticosteroids are the gold standard treatment for
ambulant patients with Duchenne muscular dystrophy (DMD). Their efficacy in
non-ambulant patients is unclear. The aim was to determine whether daily
corticosteroids would improve (over the long term) forced vital capacity (FVC)
in non-ambulatory patients with DMD. Eleven patients participated in a 6 months
trial of prednisolone at 0.75 mg/kg/day with a ceiling dose of 40 mg/day. Six
chose to continue steroids at the end of the study. FVC was monitored 6/monthly
for two years and compared with an age and FVC matched group of patients who
declined to participate in the steroid trial, and with the five patients who
discontinued steroids at the end of the trial. Initially the mean FVC in the
untreated matched group was 1.766 L and in the treated group it was 1.862 L (no
significant difference). In both groups the age at loss of ambulation was 10.8 years.
After two years FVC had improved to 2.13 L in the treated group and deteriorated
in the untreated group to 1.32 L. Because the FVC in the patients who did not
continue with the steroid treatment was significantly less than those who chose
to continue it could not be directly compared, however it deteriorated over time
from 1.17 to 0.8 L. Corticosteroids should be considered for non-ambulant
patients with DMD to improve respiratory function.
2) 10 years follow-up of early corticosteroid treatment of
Duchenne muscular dystrophy
L. Merlini, E. Malaspina, M. Gennari, A. Cicognani, E. Franzoni and B. Talim - Italy
Four patients with Duchenne muscular dystrophy (DMD) were started prednisone at the mean age of 3.4 years (2.4–4.0) and were regularly followed at least every 6 months for 10.2 years on average (9.7–11) up at the mean age of 13.15 years (12.2–14.9). At baseline, in addition to clinical signs, all had complete absence of dystrophin in muscle and three had an out-of-frame deletion in the dystrophin gene. They were given daily prednisone 0.75 mg/kg/day during the first month of treatment and then continued with 1.25 mg/kg AD. All received vitamin D and calcium rich diet and three were also given 500 mg/day calcium.
At the last follow-up all patients were ambulant, the two youngest still able to “run” 10 m. They were also able to climb 4 steps, the two youngest without using banister. The oldest one lost the ability to rise from the floor at the age of 12.5 years, while the other three retained this ability.
Currently their weight changes from 50 to 75 percentile; height was <3p in two, 10p and 25p in the two others. During treatment, they gradually became overweight, their final body mass index being 75–90p. Sexual maturation was delayed in all and three were started testosterone in their last visit for delayed puberty. Hypertension, diabetes, gastrointestinal bleeding, psychosis, compression fractures or cataracts has not developed in any case.
Early corticosteroid treatment (before 4 years of age) significantly changes the natural history of DMD, prolonging ambulation for at least 3–4 years on the average.
3) Increasing survival and changing needs in a cohort of patients with Duchenne muscular dystrophy (DMD) treated with daily prednisone therapy since 1991
S. Pandya, E. Ciafaloni, D. Guntrum and R. Moxley - United States
We reported previously that daily prednisone therapy (1)
prolongs independent ambulation to an average of 14.5 years and (2) delays
decline in pulmonary function (forced vital capacity [FVC] < liter at an average
age of 21.6) in a cohort of 30 DMD patients treated with daily prednisone and
followed at our site since 1991. To describe the effect on (1) survival, (2)
educational, occupational, marital status and (3) the emerging needs in the same
cohort of patients. Patients received 0.75 mg/kg/d (40 mg/d maximum) of
prednisone unless side effects required a reduction in dosage. Patients also
received “standard care” including (1) instructions regarding diet, exercise and
activities to maintain optimal function, (2) devices and equipment such as,
night splints, long leg braces and wheelchair to optimize functional abilities,
(3) surgery for treatment of contractures and scoliosis, (4) noninvasive nasal
ventilation and (5) cardiac consultation and management. Patients have returned
for follow up evaluations twice a year. We have measured vital signs, height,
weight, FVC and side effects. During these visits we have inquired about,
supported and assisted them in their educational, occupational and social
aspirations. The average age of the cohort (N = 30) at initiation of
prednisone was 10.5 years (5–15) and at last visit (N = 15) was 28.8 years
(25–33). Five are ventilator dependent average age 31.5 years (27–33). Nine have
died, average age 25.5 years (16–33), six are lost to follow up average age
17.5 years (12–20). The average dosage of prednisone at the last visit was
0.3 mg/kg/d. The main reason for reduction of dosage was weight gain. All
patients have completed high school, 50% finished college, five worked/are
working (teacher, architect, lawyer, editor, sales person), three drive/live
independently, one is married. Patients as well as families describe independent
living, care coverage, occupational and social opportunities as their primary
concerns. Corticosteroids have changed the natural history of DMD and improved
survival creating new challenges that will require comprehensive societal
solutions.
4) Long-term steroid use of intermittent low-dosage prednisolone therapy in Duchenne muscular dystrophy with special reference to tolerance and functional outcomes
C. Poulton, M. Kinali, S. Robb, M. Main, A. Manzur and F. Muntoni - United Kingdom
In 1993 a report was published on treatment of Duchenne
dystrophy (DMD) with intermittent low-dosage prednisolone 0.75 mg/kg/day (10 days/month).
Since its original publication at the Hammersmith we have used this regime (or
10 days on days off). In this study, we reviewed functional outcomes and steroid
tolerance in DMD boys who have taken this regime (or 10 days on, 10 days off)
for 18 months, from 2000 onwards. Fifty-one boys commenced, whilst independently
ambulant, prednisolone. 24/51 boys lost ambulation (group 1) and 27/51 remain
ambulant (group 2). Ages at commencement of prednisolone were similar in both
groups (group 1: mean age 7.5 years, range [4–11 years]; group 2: 7.0 years
[3.8–11.8 year]). Prednisolone regimes were similar in both groups with
approximately 50% starting on 10 days on, 10 days off. Mean length of therapy
was 2.6 years (group 1) and 3.3 years (group 2). Prednisolone was started at a
motor ability score (MAS) of <30 (group 1) but at a MAS > 30 in group 2. Mean
age of loss of independent ambulation was 10.0 years (group 1) and 10.44 years (group
2). Six boys remain independently ambulant aged >12 years. FVC was >70% at 18 months
(N = 32) and at 24 months (N = 23) in both groups. Six boys
discontinued prednisolone (4/6 due to weight gain, 1/6 because of epigastric
pain; 1/6 due to parental choice). Data on behavioural changes were available
for 36 boys. 19/36 (52%) boys had no behaviour changes, 8/17 had mild, 6/17
moderate and 2/17 severe, necessitating modification of therapy. One boys
behaviour was improved. A vertebral fracture occurred in a patient with reduced
mobility due to hydrocephalus. This open study suggests that intermittent regime
has an overall positive functional effect maintains FVC and avoids major side
effects such as with continuous steroid therapy. However the functional benefit
conferred by this regime appears to be less. Our study provides for the first
time information of limitations and advantages of a protracted intermittent
steroid regime. While awaiting results of randomised studies the choice of
existing corticosteroid regimes should be discussed with families.
5) Long-term follow-up of functional performance in children with Duchenne muscular dystrophy treated with deflazacort
K. Gorni, S. Orcesi, A. Berardinelli, A. Pini, M. Giannotta and E. Fazzi - Italy
Duchenne muscular dystrophy (DMD), an X-linked, recessive
disorder, with onset before age 5 years, is the most common and severe form of
childhood muscular dystrophy. At present, DMD therapy is based on symptomatic
treatment and supportive care. Convincing evidence for clinical efficacy is
available only for steroids. The precise way that glucocorticoids increase
strength is unknown. Randomised controlled trials showed that corticosteroids
improved muscle strength and function for 6 months to 2 years. The long-term
benefit remains unclear and has to be weighed against the long-term side effects
of these drugs. Two corticosteroids, prednisone (0.75 mg/kg per day) and
deflazacort (0.9 mg/kg per day) have been used extensively. They appear to be
equally effective in preserving skeletal muscle function. Both drugs are
associated with side effects. Excessive weight gain can be particularly
troublesome but deflazacort appears to be associated with less weight gain than
prednisone. Many doubts remain about several important issues: when to begin the
therapy, the best steroid to use, dose and regimen. An earlier beginning of
therapy appears to be important in obtaining maximal benefit; at the moment
there are just few studies on the use of steroids in early stages of the disease
and the majority was referred to prednisone or prednisolone. We report here a
study on the long-term functional performance and our clinical observations
using deflazacort treatment in 31 boys who were between 3 and 14 years of age
followed with controls every 3–6 months; the follow-up duration was at least 3 years.
Twelve subjects started therapy before 6 years of age. The results confirm the
importance of functional evaluation for children with DMD and show that
deflazacort, like prednisone, improves functional ability in DMD within 6–9 months
from the beginning of the treatment. In particular the improvement is more
evident in subjects that started at earlier ages (<6 years).
6) Outcome of Duchenne muscular dystrophy patients treated with daily deflazacort, daily prednisone, low dose 10 days on/10 days off prednisone and high dose weekend prednisone
J. Collins, M. Knue, C. Wang, K. Kinnett, M. Kalra, L. Cripe and B. Wong - United States
Corticosteroids are used in Duchenne muscular dystrophy (DMD)
to improve strength and prolong ambulation. There is no consensus regarding a
standard steroid regime. To evaluate outcome of DMD patients on different
corticosteroid treatment regimes. This was a retrospective chart review of males
with confirmed DMD by genetic testing or muscle biopsy. Patients were treated
with daily deflazacort (dD; n = 14), daily prednisone (dP; n = 9),
low dose 10 days on/10 days off prednisone (P10on/off; n = 18), or high
dose weekend prednisone (HDW; n = 4). The primary outcome measure was
treatment regime drop out rate. Secondary outcome measures in patients that
remained on a treatment regime greater than 3 years (dD; n = 11, dP; n = 4,
HDW; n = 2, P10on/off; n = 4) were motor function [ambulation,
ability to stand from floor, and functional activity level (FAL)], body mass
index (BMI), cushingnoid appearance, and forced vital capacity (FVC). The mean
age for each group was similar (12 years) and the average age of treatment onset
ranged from 6 to 8 years. The dropout rates were 21% for dD, 55% dP, 50% HDW,
and 78% P10on/off. Reasons for dropout were – weight gain for dD group, weight
gain or behavior changes for dP, decrease strength for HDW, and decrease
strength or no benefit (57%) and weight gain for P10on/off. Percent of patients
ambulating or arising independently at mean age 12 were dD 91%, dP 75% HDW 50%
and P10on/off 25%. Median BMI percentiles were dD (88), dP (81), HDW (89), P10on/off
(89). Cushingnoid appearance – dD (36%), dP (50%), HDW (50%), P10on/off (50%).
Mean FVC (% predicted) – dD (98%), dP (110%), HDW (78.5%), P10on/off (54%).
Daily steroid treatment use improves function over intermittent steroid dosing.
Daily deflazacort was best tolerated and resulted in the most overall improved
motor function. All steroid treatments elevate BMI.
7) Prednisone 10 days on/10 days off in 33 boys with
Duchenne muscular dystrophy
C. Straathof, W. Overweg-Plandsoen, G. van der Burg, J. Verschuuren, A. van der Kooi and I. de Groot - Netherlands
A recent Cochrane review showed evidence that
corticosteroids are effective in Duchenne muscular dystrophy (DMD) patients to
improve muscle strength and to extend the ambulant phase. There is no consensus
which treatment strategy (daily dose or alternating 10 days on/off scheme) is
the best to minimize long term side effects. Awaiting the results of a
forthcoming trial on treatment strategy we retrospectively analyzed data of DMD
patients treated with prednisone in Rehabilitation Centre De Trappenberg.
Thirty-three boys with DMD have been treated with prednisone 0.75 mg/kg/day 10 days
on/10 days off. We evaluated loss of ambulation and the side effects of
prednisone. Prednisone was started during ambulant phase at age 3.5–9.7 year (median
6.5 year). The median period of treatment was 27 months (range 3–123). The
median age at which ambulation was lost was 10.8 year (mean 11 year; 95% CI
10.1–11.9 year). Fourteen patients had excessive weight gain on the length to
weight percentiles during prednisone (5 patients
1
SD gain, 4 patients 1–2 SD, 5 patients
2
SD weight gain). This was reason to stop treatment in three boys. Seven boys
(21%) had a bone fracture, in four of these patients this was the moment they
lost ability to walk. Two boys had scoliosis surgery, one at age 13.5 year and
one at age 8 year, 18 months after he had lost ambulation due to a femur
fracture. Parents reported behavior complaints (hyperactivity, nycturia) in
seven patients; treatment was stopped in one hyperactive boy. The prolongation
of the ambulant phase in our cohort of DMD patients using prednisone 10 days on/10 days
off was comparable to a similar group treated with daily dose prednisone. More
than half of our patients did not have weight gain. The treatment did not
increase fracture prevalence.
8) Steroids in Duchenne muscular dystrophy (DMD): Natural history and clinical evaluation using the North Star Ambulatory Assessment (NSAA)
M. Eagle, E. Scott, M. Main, J. Sheehan, M. Michelle, M. Guglieri, V. Straub and K. Bushby - United Kingdom
Corticosteroids are the current gold standard treatment for ambulant boys with DMD. Because clinical trials to evaluate new compounds are imminent, accurate natural history data are required for steroid treated children. We describe the generation, validation and use of a scale for functional assessment in ambulant boys with DMD (the NSAA). We have used this scale to document the natural history of steroid treated DMD in the 4–12 age group. Intra and inter rater reliability studies were conducted in 4 groups of experienced and inexperienced evaluators both in the community and clinical setting. Reliability was good in all groups and excellent in experienced physiotherapists. Forty seven children started steroids over years (average age 6.6years). 21 children are ambulant between 9 and 13 years. 25% could jump before steroids and 57% afterwards, 38% could lift their head from the floor before steroids and 80% afterwards. In 4–7 year olds, motor ability measured by the NSAA, MRC% and timed tests improved after steroids and after 2–3 years remained better than the pre treatment ability. Eight year-old did not show such improvement and deteriorated more quickly. NSAA correlated with timed tests but not with manual muscle testing and was able to detect change in ability following increased dose of steroids. Forced vital capacity improved to more than the level expected in non-treated children. Ten children lost ambulation (average age 10.5). They tended to be older when steroids were initiated or had stopped steroids due to side effects. Side effects included high blood pressure, behaviour/emotional problems, cataracts, vertebral fractures, decreased height, weight gain but only six discontinued treatment due to side effects or inefficacy. The NSAA can be used to monitor motor function in ambulant DMD and can detect improvement due to modification of steroid dosage. Control of side effects is a major part of managing steroid treated DMD and should be dealt with proactively. The demonstration of the natural history of this age group of children using a standardised technique is an essential prerequisite for the design of future trials.
9) Profiles of weight gain and cardiopulmonary outcomes in boys with Duchenne muscular dystrophy
V. Kwinecki, V. Harris, J. Vajsar and D. Biggar - Canada
Objective: To examine a cohort of boys with DMD for patterns of weight gain and cardiac and pulmonary function at different ages. Design: Patterns of weight gain were reviewed retrospectively in 35 boys naïve to corticosteroids, 8–18 years of age with Duchenne muscular dystrophy (DMD). The mean weight for age of the boys was calculated and the boys were then organized into two groups, boys greater than the mean (heavy) and boys less than the mean (light). The cardiac and pulmonary functions of the heavy and light groups were then compared. Main Results: Between 8 and 13 years, the mean weight for boys was between the 75th and 90th centiles. Between 10 and 13 years, 42–45% of boys weighed more than the 90th and 10–14% less than the 10th centile. After 13 years, the mean weight declined and by 18 years it was at the 10th centile when only 16% of boys weighed more than the 90th centile and 52% weighed less than the 10th centile. Between 14 and 18 years, the pulmonary function (FVC-pp, FVC) in heavy boys was significantly greater than in the light boys. Three of the 11 heavy boys had impaired left ventricular function (LVEF < 45%) compared to 11 of 14 light boys. Conclusion: Our findings suggest that the design of clinical and therapeutic trials will need to accommodate for different weight profiles, different doses of pharmaceuticals when administered on a dose/kg body weight and possible differences in cardiopulmonary outcomes.
10) Heart and respiratory function in steroid treated DMD
A. Berardinelli, K. Gorni, A. Pini, C. Motta and E. Fazzi - Italy
It is well known that the prognosis of Duchenne muscular dystrophy is determined by respiratory and cardiac involvement. No therapies are available for the disease so far and the main goals of medical care are improvement of quality of life and management of respiratory and cardiac complications. In the last few years patients affected by DMD live much longer and their quality of life is globally better than it was. Use of steroids has becoming more and more common in the recent years: steroids are known to improve motor performances and some evidences suggest that they could be also useful in improving both respiratory and cardiac function in the years. The aim of our work is to describe the results of spirometric and cardiac evaluations in children affected by DMD treated with steroids. We will show data of a group of 20 DMD boys, with an age range 8–19 years, all treated with steroids for at least one year. 50% of patients stopped steroids mainly because children refused to continue the use in few cases due to some side effects. We found a quite good mean Vital Capacity (VC) in most of the children (about 1000 ml). Only one, 19 years old, needed mechanical ventilation and he was taking steroids for only one year. VC tended to be quite stable during the steroid therapy, while it decreased after stopping it. We had good heart studies results for all of the children. So, our data seem to confirm a positive effects of steroids not only on motor functions in children and we suggest to continue its use also after loss of ambulation unless serious side effects occur.
11) Effects of corticosteroids on the muscle strength and serum enzyme levels in Duchenne muscular dystrophy patients from different regions of Brazil
C. Melo e Souza, M. Magario and A. Godoy - Brazil
Several reports suggest the benefits of corticosteroids (CS) for Duchenne muscular dystrophy patients (DMDp). In 2004 we founded a clinical center in the interior of Sao Paulo State, Brazil, to follow only DMDp. Since then we have seen individuals from all over the country. Six out of 35 DMDp came to us with the prescription of CS (0.5–1 mg/Kg). The age they began the use varied from 3 to 14 years. The period they took CS varied from to 7 years. Three of them need ventilatory assistance; one is wheelchair dependent and two can walk. The levels of creatine kinase were as high as 150 times normal. They were reduced to up to three times normal. One patient, 21 years of age, using CS for 7 years, got an increase on his muscle power (pectoral girdle and wrist flexors). The only patient not taking CS at the present time is now 20, used CS from 6 to 10 years of age. He has severe weakness in all four limbs. Our clinical data point to the need of a standardization of the use of CS in DMDp. Ages 5–7 seem to be good ones to start the use. We should not interrupt the prescription as soon as the patient stop walking, as many physicians have done. Additional benefits regarding ventilatory function seem to occur for those who take CS for many years. The side effects were minimal.
12) Deflazacort induced severe skeletal muscle wasting and inguinal herniation in normal Beagle dogs
M. Yoshimura, A. Nakamura, M. Kobayashi and S. Takeda Japan
Oral administration of corticosteroids such as prednisolone or deflazacort is a preferable treatment in Duchenne muscular dystrophy (DMD), and motor deteriorations and cardiac dysfunction can be at least temporally improved. However, the mechanisms of action of these drugs on dystrophic muscles have not been fully understood. We have established and maintained a colony of Beagle-based canine X-linked muscular dystrophy in Japan (CXMDJ), a suitable animal model for DMD. Before the investigation in CXMDJ, we administered deflazacort, a newly developed corticosteroid, to normal Beagle dogs and evaluated the adverse effects. We orally administered deflazacort (Carcort(R)) 0.9 mg/kg/day for 3 months to 4 normal Beagle dogs of 1 month of age. We regularly examined clinical status, complete blood cell counts (CBC), serum chemistry, and evaluated the temporal, neck, thigh and lower leg muscles by 3.0T magnetic resonance imaging (MRI) at 4 month of age. After euthanasia, the histopathology of skeletal muscles from whole body was extensively examined. We observed severe developmental delay and atrophy of the temporal, truncal and leg muscles compartments in all dogs examined after 1-month of administration. Three of the 4 dogs showed repetitive inguinal or abdominal wall herniations and needed surgical operation. No other abnormal findings were detected on CBC or serum chemistry examination. MRI revealed an extensive loss of muscle mass without abnormal signal intensity in all muscles examined, and an increase in subcutaneous fat tissue was noticed. The muscle pathology showed that marked muscle atrophic change in the temporal, thoracic, paraspinal, abdominal and thigh flexors and lower leg muscles. Deflazacort induced striking general muscle atrophy and severe inguinal herniation in the normal Beagle dogs. This severe adverse effect might be taken into consideration in the treatment of DMD by deflazacort. Molecular mechanism of muscle atrophy by deflazacort treatment should be more extensively investigated.
13) The use of immortalised human fibroblasts from a DMD patient to test exon skipping in vivo
S. Chaouch,
D. Furling,
A. Goyenvalle,
L. Garcia,
J. Di Santo,
Y. Torrente,
G. Butler-Browne
and V. Mouly - France, United Kingdom and Italy
We are now at a point in time where gene therapy is becoming a reality.
However, in order to validate these strategies it is essential to have in
vitro human cell culture models. The use of patient myoblasts is not always
possible due to their drastically decreased proliferative capacity induced by
the repeated cycles of degeneration and regeneration. Therefore it is
necessary to envisage new in vitro models. In the pioneering studies of
Weintraub et al. it had been shown that the forced expression of the myogenic
transcription factor myoD was able to convert fibroblasts into myoblasts. In
the present study we have developed a universal in vitro model from skin
fibroblasts which have been immoralised using hTERT and then converted into
myoblasts by a lentivirus containing an inducible myoD contruct. We have then
used this model to validate a strategy for exon skipping using fibroblasts
isolated from a DMD patient. These fibroblasts were immortalised and then
transduced using an inducible myoD construct. We first confirmed the
expression of myoD in vitro and the potential of these cells to form
differentiated myotubes. These cells were then transfected with an U7
construct to promote exon skipping in the patient. In order to test if these
cells could reconstitue muscle fibres in vivo expressing human dystrophin they
were injected into cryodamaged TA muscles of immunodeficient RAG−/− gammaC−/−
C5−/− mice. Muscle were analysed after 27 days of regeneration and fibres
expressing human dystrophin were observed. Therefore this cellular model
provides us with an ideal model system to test different therapeutic
strategies for various neuromuscular diseases when patient myoblasts are not
available.
14) In vivo biodistribution of non-viral systems for oligoribonucleotides
delivery
P. Rimessi, P. Sabatelli, F. Gualandi, P. Spitali, M. Bovolenta, E. Martoni, M. Fabris, V. Nigro, E. Nusco, E. Calzolari and A. Ferlini - Italy
Successful approaches of single exon skipping and dystrophin protein
synthesis restoring have been described upon antisense oligoribonucleotides (AONs)
treatment of both patients’ derived cells and mdx mice. The main obstacle to
be still overcome is to find a AONs delivery system able to efficiently reach
both skeletal and cardiac muscle. In fact, in the mdx model the cardiac muscle
can be reached effectively only by using recombinant adeno-associated viruses
(AAV) as vehicles. One hypothesis for explaining the difficulty for naked AONs
in entering into cardiomyocytes could be the absence of cardiomyopathy in the
mdx animal model. In order to test this hypothesis we performed a
biodistribution analysis of novel delivery systems both in normal (F1B) and
cardiomyopathic hamster (delta-sarcoglycan deficient BIO14.6), which
represents a suitable animal model for dilated cardiomyopathy, at variance
from mdx. We had obtained previous evidences that our nanoparticles were able
to efficiently bind AONs. We tested two kinds of fluorescent polymethyl
methacrylate core-shell-type nanospheres, T1Fluo and Z2Fluo, 500 and 200 nm,
respectively, presenting on their surface cationic groups originally designed
for the reversible adsorption of DNA oligonucleotides. The two nanoparticles
differ both in their size and in the presence on the surface of Z2Fluo of
polyethylene glycol (PEG). A total of 20 six weeks-old hamsters, 10 F1B and 10
BIO14.6, were treated via intraperitoneal injection and sacrificed 48–72 h
after treatment. Fluorescence and electron microscope analysis of different
tissues from treated hamsters indicate that both nanoparticles enter into
several cell types, including cardiomyocytes, independently from the presence
of the cardiomyopathy and myopathy. In conclusion the novel non viral delivery
systems we tested do enter both in cardiac and skeletal muscle, and may
represent suitable vehicles for in vivo delivery of antisense
oligoribonucleotides.
15) Accounting for pre-mRNA co-transcriptional folding in selection of antisense oligonucleotide targets for induction of exon skipping in DMD
K. Wee , Z. Pramono, J. Wang, K. MacDorman, W. Yee and P. Lai - Singapore
Antisense oligonucleotide (AON) induction of exon skipping offers a
potential therapeutic strategy for Duchenne muscular dystrophy (DMD). Although
clinical trials of AON-mediated DMD therapy have begun, identification of
effective AON target sites remains empirical for lack of a more precise method
to predict their binding accessibility. Because splicing and transcription
occur in tandem, AONs must bind to their target sites before splicing factors
do. Furthermore, co-transcriptional pre-mRNA folding forms transient secondary
structures, which redistributes accessible binding sites, thereby complicating
the identification of accessible target sites during transcription. Our study
included the dynamics of pre-mRNA secondary structures in an evaluation of
published AONs and their ability to induce exon skipping. Correlation of the
number of nucleotides having entirely inaccessible windows with AON efficacy
and efficiency accounted for up to 94% of published AONs where their
localizations proved to be most critical. Only one nucleotide with
entirely-inaccessible windows is sufficient at its 3′ and 5′ end to block AON
efficacy, but three or more in succession are necessary further from the
flanks. The efficiency of an AON is more vulnerable to the presence of these
nucleotides at the site’s 3′ end than its 5′ end. Our results show that
co-transcriptional pre-mRNA folding is important in predicting AON targets.
Using these results, a software tool, Dynamic AON was developed to select AON
target sites. Three novel AONs designed to skip exon 51 with this tool showed
efficient and selective skipping of the targeted exon
16) Rescue of human dystrophin after transplantation of exon skipping-engineered
DMD stem cells in a dystrophic animal model
R. Benchaouir, A. Goyenvalle, M. Meregalli, M. Belicchi, A. Farini, M. Battistelli, N. Bresolin, L. Garcia and Y. Torrente - Italy and France
Duchenne muscular dystrophy (DMD) is a hereditary disease caused by
genomic mutations that disrupt the dystrophin mRNA reading frame. This
destabilizes the dystrophin and its associated complex proteins, provoking
progressive and irreversible muscle degeneration. In some cases, forced
exclusion (skipping) of a single or multiple exons can restore the reading
frame, giving rise to a shorter, but still functional protein. Most of DMD
mutations are localized into the central rod domain of the dystrophin gene;
for this particular reason, this protein is well adapted for exon-skipping
application since in frame removing of central spectrin-like repeats, was
demonstrated to conserve its functionality. In a cell therapy perspective,
exon skipping approach was used to treat a subpopulation of adult stem cells
extracted from DMD patients. We previously shown that one population of human
stem cells, harbouring the CD133 surface antigen, was able to efficiently
participate in muscle regeneration in vivo. To extend this work, we evaluated
the muscle regeneration potentiality of blood and muscle-derived CD133+ cells
after in vitro exon skipping treatment. Lentiviral vectors were constructed to
convey specific antisense oligonucleotides able to induce an efficient
exon-skipping and to correct the initial frameshift caused by the DMD deletion.
In our case, DMD cells yielding deletion of exons 49 and 50 were treated with
vectors able to perform skipping of the exon 51, rendering in frame the
dystrophin mRNA sequence. The skipped blood and muscle-derived stem cells were
able to fuse in vivo with scid/mdx mice regenerative fibers and, not only
perform expression of a functional human dystrophin, but also restructure the
dystrophin-associated complex such as alpha and beta-sarcoglycans proteins.
These data demonstrate that autologous engrafting of blood or muscle-derived
CD133+ cells, preliminary genetically modified to re-express a functional
dystrophin, seems to represent a promising approach for DMD.
17) Phase 2 study of PTC124 for nonsense mutation suppression therapy of Duchenne
muscular dystrophy (DMD)
C. Bönnemann, R. Finkel, B. Wong, K. Flanigan, J. Sampson, L. Sweeney, A. Reha, G. Elfring, L. Miller and S. Hirawat - United States
PTC124 is a novel, nonantibiotic, drug that promotes ribosomal
readthrough of mRNA containing a nonsense (premature stop codon) mutation.
This Phase 2 study is evaluating PTC124 safety, compliance, PK, effects on
full-length muscle dystrophin protein expression, and clinical activity in
patients with nonsense-mutation-mediated DMD. Patients receive PTC124
administered orally for 28 days at dose levels of 4, 4, 8 mg/kg (low dose);
10, 10, 20 mg/kg (mid dose); and 20, 20, 40 mg/kg (high dose) after breakfast,
lunch, and dinner, respectively. 26 boys (ages: 5–13 years; stop codons: 15
UGA, 6 UAG, 5 UAA; baseline serum CK: 8645–49500 IU; steroid use: 19/26)
completed PTC124 at the low (n = 6) or mid (n = 20) dose levels.
All adverse events and laboratory abnormalities were mild-moderate with no
dose-related changes in frequency or severity. Compliance was >98% for both
dose levels. Day 1 and Day 28 PK indicate stable plasma exposures over time;
however, exposures were lower than in PTC124-treated adult healthy adult
volunteers and cystic fibrosis patients. Myotube cultures from pre-treatment
muscle biopsies showed dose-dependent increases in dystrophin expression with
in vitro PTC124 treatment in 24/24 evaluable patients. Relative to baseline,
visually appreciable post-treatment qualitative increase of in vivo dystrophin
expression is noted in 4/6 and 10/20 boys at low and mid doses, respectively.
Within the 28 days of treatment, serum CK, AST, and ALT levels decreased
significantly but changes in muscle strength and timed functions were small
and not significant. Preliminary evidence indicates that PTC124 safely induces
full-length dystrophin expression in vitro and in vivo and decreases serum
muscle enzyme levels in boys with nonsense-mutation-mediated DMD. Although low
and mid dose levels demonstrated these effects, subjects did not achieve
plasma exposures associated with maximal preclinical activity. Evaluation at
the high dose level in 12 additional boys is ongoing.
18) Identification and characterization of small molecules for the treatment of
Duchenne muscular dystrophy
W. Friesen, Y. Tomizawa, J. Zhuo, R. Baiazitov, S. Lee, T. Nadarajan, Y. Moon, H. Sweeney and E. Welch - United States
PTC Therapeutics, Inc. (PTC) and Parent Project Muscular Dystrophy (PPMD)
are collaborating to discover new drugs to treat Duchenne muscular dystrophy (DMD).
Four targets were selected to enter the drug discovery program based on
functional validation from animal studies. The targets selected for high
throughput screening (HTS) included targets representing growth factors and
proteins involved in muscle membrane stabilization. Using a proprietary drug
discovery platform technology, referred to as GEMS (Gene Expression Modulation
by Small-molecules), we sought to identify small molecules that up- or
down-regulate the production of proteins that have the potential to treat DMD.
Stable muscle or kidney cell lines containing the firefly luciferase (fLuc)
reporter gene flanked by the 5 and 3 untranslated regions (UTR) for each of
the targets were constructed and used in HTS. The activities of the hits
identified from these HTSs were confirmed in the cell-based reporter assays as
well as in assays to monitor protein levels. For several molecular scaffolds
of hits against each target, the activities are dose-dependent and target
specific. A number of molecules exhibit good pharmacological properties (e.g.,
low cytotoxicity and microsome metabolic stability). We are in the process of
establishing structure–activity relationships for the molecules in each of the
chemical classes to optimize their pharmaceutical properties. The ultimate
goal of this drug discovery and development effort is to identify small
molecules that can specifically modulate the production of a number of
proteins that can be ultimately used as monotherapies or as part of a
combination therapy to treat muscular dystrophy.
19) MicroRNA expression in Duchenne and Becker muscular dystrophy
M. Aguennouz , O. Musumeci, N. Lanzano, S. Soufiani, R. Crupi, C. Rodolico, A. Toscano and G. Vita1 - Italy
Duchenne and Becker muscular dystrophies (DMD, BMD) are progressive
disorders due to dystrophin deficiency that results in severe skeletal muscle
degeneration. The pathological mechanisms underlying these diseases are not
fully understood. MicroRNAs (miRNA) are endogenous RNAs of
22
nucleotides that can play important regulatory roles in animals by targeting
mRNAs for cleavage or translational repression. miRNA-1 (miR-1), miRNA-133 (miR-133a
and miR-133b) and miRNA-206 (miR-206) are transcribed together in a
tissue-specific manner during development and have distinct roles in
modulating skeletal muscle proliferation and differentiation in cultured
myoblasts. miR-1 promotes myogenesis by targeting transcriptional repressor of
muscle gene expression; miR-133 enhances myoblast proliferation by repressing
serum response factor (SRF); miR-206 regulates connexin 43 expression during
skeletal muscle development. We evaluated the presence and the level of
expression of miR-1, miR-133a, miR-133b and miR-206 in muscle biopsies
obtained from 10 DMD and 10 BMD patients (age range respectively, 2–8 years
and 6–12 years), and 5 normal subjects using a relative quantification (RQ)
RealTime PCR and Northern blot analysis. Our preliminary results evidenced
presence of miRNAs in all DMD, BMD and normal biopsies. RQ showed an increased
expression of miR-1 in DMD muscles versus controls. Our findings suggest that
miRNAs could be involved in regeneration and maturation of DMD muscles, acting
as key regulators of different processes such as early development, cell
proliferation, apoptosis, metabolism, and cell differentiation.
20) CTGF expression in normal and dystrophic muscles: Correlation to fibrosis
P. Noirez, I. Ambrosi, M. Fiszman, C. Dubois and H. Alameddine - France
Duchenne muscular dystrophy (DMD) is not a fibrotic disease per se yet
muscle biopsies of DMD patients are generally characterized by excessive
production, deposition, and contraction of extracellular matrix similar to the
one observed in fibrotic diseases. To understand the molecular basis leading
to the accumulation of extracellular matrix (ECM) components in muscular
dystrophy, it is essential to determine the factor(s) influencing
dysregulation of the normal balance between production and/or hydrolysis of
ECM components. A growing body of evidence indicates that CTGF (Connective
Tissue Growth Factor), a protein of CCN’s family (Cysteine-rich 61/Ctgf/Nephroblastoma
Overexpressed), is involved in different experimental and pathological
situations of fibrosis in skin, liver, kidney, lung, and heart. Whether CTGF
plays a role in the development of fibrosis in dystrophic muscles has not been
assessed. In this study, we have investigated the existence of a correlation
between CTGF expression and the extent of fibrosis in mdx muscles. Diaphragm
and limb muscles of 21 days-, 6 weeks-, 3, 6, 12 and 18 months old normal and
mdx mice, were examined. Serial cross-sections were stained with Hematoxylin–Eosin
and Sirius Red to quantify fibrosis. CTGF expression was monitored by
immunohistochemistry, Western blotting and quantitative RT-PCR. Quantification
of fibrosis confirmed previous results indicating that limb muscles of mdx
mice are less fibrotic than the diaphragms and that fibrosis increases with
age. In mdx muscles, immunoreactivity to CTGF was increased in comparison to
age matched controls, an observation that favours the existence of a
correlation between CTGF expression levels with the extent of fibrosis in
muscles. This is now being confirmed by quantitative RT-PCR, and in biopsies
of dystrophic patients. If our results were to be confirmed, CTGF would
represent a potential therapeutic target to slow down disease progression or
functional deterioration. Acknowledgments: The authors thank the AFM and
INSERM for financial support.
21) Novel myostatin inhibitors increase muscle mass in wild-type and mdx
mice
J. Lachey, A. Pullen, R. Pearsall and J. Seehra - United States
Myostatin, or GDF-8, is a well-characterized negative regulator of
muscle growth. Myostatin overexpression reduces skeletal muscle mass whereas
myostatin inhibition causes a dramatic muscle mass increase. Myostatin is a
member of the transforming growth factor-B superfamily and binds to the
activin type llB receptor (ActRllB) with high affinity. Consistent with
myostatin acting through ActRllB to elicit its muscle effects, treatment with
a soluble form of ActRllB increases muscle mass in wild-type mice. Additional
unidentified ActRllB ligands that inhibit muscle growth have also been
proposed. Therefore use of a soluble ActRIIb to promote muscle growth is
advantageous as it will inhibit the uncharacterized ligands as well as
myostatin. Here we describe two novel molecules comprised of the ActRllB
extracellular region (ACE031) or a mutant thereof (ACE032) fused to a human
IgG1 Fc domain. ACE032 has a 10-fold greater binding affinity as defined by
cellular assays and was designed to increase efficacy of the molecule. Whole
body NMR analysis revealed ACE031-treated mice had a 3-fold increase in lean
tissue compared to the vehicle-treated controls over a month. Treatment with
ACE032 caused a significantly increased lean tissue mass although to a lesser
extent than ACE031. Consistent with a selective muscle effect, gastrocnemius,
pectoralis and femoris muscle weights were significantly increased in the
ACE031 (33.0–45.8%) and ACE032 (29.5–46.0%) groups. To assess the possible
benefit of a soluble ActRllB molecule in muscle disease, we tested RAP031 (ActRllB
extracellular region fused to a mouse IgG1 Fc) in mdx mice, the mouse
model of Duchenne muscular dystrophy. We found that gastrocnemius, femoris and
pectoralis weights of ACE031-treated mdx mice were significantly
increased (27.0–84.7%) compared to the vehicle-treated group. Further, we
report ACE031-treated mdx mice exhibited functional improvements in the
dystrophic phenotype compared controls, providing support that our molecules
potentially have important clinical applications.
22) No evidence for increased muscle regeneration in myostatin deficient mdx
mice (mstn-/-mdx)
H. Amthor,
M. Friedrichs
and T. Voit - Germany and France
At the 11th WMS congress in Brugge we reported that dystrophic muscle from mdx mice that lack myostatin (mstn−/−mdx) contained no increased number of satellite cells. Preliminary histological analysis furthermore revealed no increase in number of revertant fibres. These results did not support the current view that blockade of myostatin can stimulate regeneration of dystrophic muscle.
We further explored the muscle phenotype of mstn−/−mdx mice and investigated the histological properties of extensor digitorum longus (EDL) muscle from 1 1/2 old mice. We first determined the proportion of fibres containing central nuclei and found no difference between muscle from mstn−/−mdx (32.1 ± 7.33) and mstn+/+mdx (37.5 ± 7.44), (p = 0.25). We than counted the total number of myofibres at the midbelly cross section. Although there was an increase in fibre number in mstn−/−mdx (1582 ± 233) compared to mstn+/+mdx (1213 ± 350), this increase was not statistically significant (p = 0.078).
Fourth, the generation of revertant dystrophin positive fibres was compared in muscle from mstn−/−mdx and mstn+/+mdx on serial sections from EDL muscle. It has been previously suggested that the extent of muscle regeneration is proportional to the number of revertant fibres especially to the number of revertant fibres per cluster. This results from the clonal expansion of satellite cells during the muscle regeneration that experienced a second mutation allowing for the re-expression of dystrophin. As more vigorously muscle regenerates as more revertant fibres will develop within a cluster, because revertant fibres are more resistant to muscle degeneration than neighbouring dystrophin negative fibres and thus will accumulate over time. Here we show that mstn−/−mdx contained a higher number of revertant fibres (38.4 ± 15.7) compared to mstn+/+mdx mice (20.82 ± 6.7), (p = 0.045). Mstn−/−mdx also contained a higher number of clusters of revertant fibres (16.2 ± 4.45) compared to mstn+/+mdx mice (9.26 ± 3.65), (p = 0.020). However, when normalized for the total number of myofibres per cross section, the increase in the number of revertant fibres was not statistically significant (p = 0.101), nor was the number of clusters (p = 0.065). We next compared the number of revertant fibres per cluster. Clusters were considered that contained at least three revertant fibres. We found slightly less revertant fibres per cluster in muscle from mstn−/−mdx mouse (5.5 ± 2.59) compared to mstn+/+mdx mice (6.4 ± 4.08), however, the decrease was not statistically significant (0.658).
In summary, these data suggest that lack of myostatin does not improve
regeneration of dystrophic muscle of mdx mouse. This is an unexpected
finding and it dissents with the current view.
23) DLK1 as a candidate for booster gene therapy in muscular dystrophy
L. Joergensen,
C. Jensen,
E. Davis,
C. Charlier,
M. Georges
and H. Schroeder - Denmark
The callipyge (CLPG) phenotype is a muscular hypertrophy in sheep,
which manifests in heterozygous animals inheriting the CLPG mutation from
their father. The causative mutation enhances expression of genes in the
DLK1-GTL2 locus in cis. Recently, we demonstrated a perfect correlation
between the CLPG phenotype and ectopic DLK1 expression in hypertrophied
muscles. Furthermore, transgenic mice ectopically expressing ovine DLK1
exhibited a generalized muscular hypertrophy. Taken together, these factors
imply a role for DLK1 in muscle growth. Therefore, we speculated that DLK1
could be a candidate for muscular dystrophy booster gene therapy. Here, we
propose to up-regulate proteins actively participating in muscle development
and regeneration. Enhancement of endogenous proteins could strengthen the
muscle against the constant damage occurring in muscular dystrophies and also
avoid the potential immune rejection of conventional gene therapy. To analyze
this possibility, we investigated skeletal muscle regeneration in DLK1
transgenic mice and littermate controls following injury. H&E and Sirius
stainings showed that DLK1 mice initiated muscle regeneration earlier than
wild-type controls. However, when gene expression of myogenic factors was
investigated using qPCR there were no statistically significant differences in
Pax7, Myf5, MyoD, Myogenin, or Mef2a
expression during regeneration of DLK1 and control muscle. The protein
expression patterns were investigated by counting the number of cells
expressing Pax7, Myogenin, and p27 and no statistically significant
differences were observed. Interestingly, ADAM12, Utrophin and
Integrin β1 mRNA expression was up-regulated, while Myostatin
mRNA expression was significantly lower in DLK1 mice. This could in part
explain the hypertrophic phenotype of DLK1 muscle since lower myostatin
expression, a known inhibitor of muscle growth, increases muscle mass.
Presently, DLK1 is still a potential booster gene candidate given its ability
to increase muscle mass and up-regulate structural proteins, despite an
inability to significantly induce or enhance the regenerative potential.
24) NPC1 overexpression attenuates muscular dystrophy in mdx and
α-dystrobrevin-null mice
M. Steen, Y. Tesch,
M. Adams
and S. Froehner
- United
States
The loss or alteration of certain proteins from the dystrophin complex
results in muscular dystrophies. Understanding the mechanism by which
α-dystrobrevin (αDb) loss causes muscular dystrophy in mice may provide new
therapeutic approaches to the human diseases. Our objective was to understand
regulatory pathways required for maintenance of healthy muscle. We
hypothesized that by comparing gene expression of αDb-null muscles to healthy
muscles, we would identify genes whose misregulation results in muscular
dystrophy. (1) We used Affymetrix microarrays to compare gene expression
levels in muscles of αDb-null mice with littermate controls. RT-PCR and
immunoblotting confirmed changes in levels of Niemann-Pick Type C1 (NPC1)
transcript and protein. (2) We generated transgenic mice expressing NPC1
specifically in skeletal muscle and bred these mice onto αDb-null and
dystrophin-null (mdx) backgrounds. We assessed the number of
regenerating fibers in various muscles and compared serum creatine kinase
levels in transgenic and control mice. NPC1 transcript and protein levels are
reduced
50%
in skeletal muscle of αDb-null mice. NPC1 facilitates the trafficking of free
cholesterol from late endosomes and lysosomes to other compartments. Mutations
in NPC1 cause a progressive neurodegenerative disorder. Transgenic
overexpression of NPC1 reduced both the percentage of regenerating muscle
fibers and serum creatine kinase levels in αDb-null and mdx mice.
Therefore, transgenic overexpression of NPC1 in skeletal muscle ameliorates
the dystrophic phenotype of αDb-null and mdx mice. Our results suggest
the involvement of a cholesterol-trafficking protein, NPC1, in two forms of
muscular dystrophy. Interventions that alter cholesterol trafficking may
represent a new therapeutic target for diseases of muscle degeneration.
25) In vitro activities and in vivo pharmacokinetics of dual
cysteine proteases inhibitors and antioxidant
B. Pignol, S. Auvin,
D. Carre
and P. Chabrier
- France
Cell death observed in neuromuscular disorders such as Duchenne
muscular dystrophy (DMD) was often associated with calpain activation and
overproduction of reactive oxygen species. The aim of the study was (1) to
compare on human skeletal muscle cell protection by BN82270, which inhibits
calpain1-2/cathepsinB-L and lipid peroxidation, with its analog and
methylprednisolone (MP), used in treatment of DMD patients. (2) To compare the
distribution of this analog in muscles with the BN82270 which reduces the
dystrophic progression in mdx mice (10th WMS TP3.05). In vitro, we observed
that maitotoxin (MTX) which induced a massive influx of calcium, increased in
a concentration-dependent manner calpain activity, lipid peroxidation and
induced cell death. In this model, calpain/cathepsin L inhibitors and
antioxidants act synergistically to inhibit maitotoxin-induced necrosis (J
Neurochem. 2006). A new synthetic analog chemically designed to possess both
calpain/cathepsin inhibitory and antioxidant activities totally protect human
skeletal muscle myoblast cells differentiated into myotubes. Moreover, this
water soluble compound was significantly more potent than BN82270 and MP (2
and 20 times, respectively) to protect HSM cells against death induced by MTX.
After administration of synthetic products in vivo, the Area under the curve (AUC
0–18 h) was increased 4 times in muscles with this new analog (1630 μg/g min)
compared to the BN82270 (436.05 μg/g min, p = 0.0002, ***). These
results indicate that analog of BN82270 enhances the beneficial effect already
demonstrated with BN82270 to prevent cell death in vitro. The higher quantity
of this analog in muscles quantified by AUC 0–18 h suggests that inhibition of
dystrophic progression in vivo already demonstrated with BN82270 (Neuromuscul
Disord. 2006) could be enhanced.
26) Anti-TNF-alpha therapy (cV1q, Remicade, Enbrel) protects dystrophic skeletal muscle from necrosis
M. Grounds and H. Radley
- Australia
Background: Dystrophic myofibres of Duchenne muscular dystrophy
(DMD) boys are susceptible to sarcolemma damage. Little is known about the
balance between myofibre repair and the alternative fate of necrosis. Using
the mdx mouse model of DMD we have shown reduced necrosis of dystrophic
muscles in vivo using highly specific drugs to silence the pro-inflammatory
cytokine tumour necrosis factor alpha (TNF); specifically using antibodies to
block TNF (human Remicade and mouse-specific cV1q) or soluble TNF receptors (Enbrel).
Both Remicade and Enbrel are in wide clinical use to treat inflammatory
diseases such as rheumatoid arthritis and Crohn’s disease, thus such drugs are
immediately attractive for potential application to DMD. Aim: To test
long-term benefits of cV1q treatment combined with voluntary exercise in
mdx mice. Hypotheses: We propose that inflammatory cytokines,
specifically TNF, increase initial sarcolemmal damage and exacerbate necrosis
of dystrophic myofibres. Methods: mdx mice were injected weekly with
cV1q antibody from 19 days of age, exposed to voluntary exercise on a running
wheel (measured) and sampled at 90 days (3
months) for detailed histological muscle analysis and serum creatine kinase (CK)
measurements. Results: Benefits of cV1q treatment were only
demonstrated in exercised (not un-exercised) mdx mice. The cV1q treated
mice ran more (indicating improved muscle function) and had much lower CK
levels and reduced dystropathology. Conclusions: These long-term
studies with cV1q in mdx mice, (i) emphasise the importance of exercise
for drug testing in this mouse model and (ii) confirm the benefits of anti-
TNF-alpha drugs on dystrophic muscle. These data support an important role for
inflammation in exacerbation of muscular dystrophy and suggest new drug
interventions to reduce the clinical severity of DMD and related neuromuscular
disorders. Understanding the molecular basis of the adverse effects of
TNF-alpha is a central focus of our research.
27) Imatinib mesilate (Gleevec®) ameliorates the dystrophic phenotype
in exercised mdx mice
J. Bizario,
D. Cerri,
F. Matioli,
P. Morales,
L. Couto,
F. Castro
and M. Costa - Bazil
Duchenne muscular dystrophy (DMD) is a neuromuscular disorder caused by
mutations in the dystrophin gene. It is characterized by progressive skeletal
muscle degeneration that leads to weakness and early death by respiratory and
cardiac breakdown. There is no specific treatment to DMD. Preclinical tests to
find new drugs that can stop or retard DMD progression are usually performed
in exercised mdx mouse. One important feature in DMD is the massive
muscle infiltration by immune cells and the replacement by fibrous or fatty
tissue. Immunomodulators have recently emerged for DMD trials. Imatinib
mesilate is a specific inhibitor of tyrosine kinases, such as Bcr-Abl, PDGFR-β
and c-Kit receptors. It also inhibits the profibrogenic activity of TGF-β. The
present study aimed to evaluate imatinib mesilate in mdx mice submitted
to treadmill exercise. Four-week old mice were analyzed in the beginning and
in the end of a physical activity program during six weeks considering
histopathological evaluation of gastrocnemius and diaphragm muscles, serum
creatine kinase dosage and whole body strength increment. Comparative analyses
showed that 0.125 mg/mouse/day resulted in amelioration of the muscular
conditions, increased force increment (p < 0.0001, unpaired t-test,
n = 15 and 21 for the untreated and treated group, respectively) and
decreased CK levels (p = 0.0022, n = 7). Histological analyses
of the gastrocnemius showed abrupt decreasing of the area occupied by injured
myofibers infiltrated by Blue Evans dye (p = 0.0009, n = 3),
while diaphragm showed no significant difference. Taken together, these data
suggest that Gleevec® can ameliorate the dystrophic phenotype in
mdx mice, and could be used as potential drug to future clinical tests.
28) Stretch-induced muscle damage in mdx mice is reduced by the antioxidant N-acetylcysteine
N. Whitehead, C. Pham
and D. Allen - Australia
Duchenne muscular dystrophy (DMD) is a degenerative muscle disease
caused by the absence of the protein, dystrophin. Recently, we have shown that
increased Ca2+ entry through stretch-activated channels (SACs)
contributes to muscle damage in mdx mice both in isolated muscles
subjected to eccentric (stretched) contractions and in vivo. For many years it
has been postulated that reactive oxygen species (ROS) contribute to damage in
dystrophic muscle. Since elevated intracellular Ca2+ is known to
accelerate ROS production, this could be one pathway by which Ca2+
entry through SACs leads to muscle damage. Therefore, in this study we
investigated whether the antioxidant N-acetylcysteine (NAC) could
reduce stretch-induced muscle damage in mdx muscle. Extensor digitorum
longus muscles from mdx and wild type mice were perfused with or
without 20 mM NAC. Solutions also contained 0.02% Evans Blue Dye (EBD) for
assessment of membrane permeability. Muscles underwent 3 eccentric (stretched)
contractions at 35 °C. Tetanic force was measured before and 60 min after
eccentric contractions and then muscles were frozen and sectioned for EBD
uptake. Following the eccentric contractions, force fell to 35 ± 3% for mdx
muscles and NAC significantly improved force to 51 ± 2% (P < 0.01). As
expected, force was much greater for wild-type muscles (69 ± 5%) and NAC had
no additional effect. The area of EBD uptake was 8.6 ± 1.8% in mdx
muscle cross-sections and this was significantly reduced by NAC to 2.6 ± 0.8%
(P < 0.01). Wild-type muscles had a value of 1.8 ± 0.7%. The results of
this study show that the antioxidant, NAC, significantly reduces
stretch-induced muscle damage in isolated muscles from mdx mice. We now
aim to investigate the source(s) of ROS production in mdx muscles and
to determine the key proteins targeted by ROS, which impair muscle function
and contribute to muscle damage.
29) Treatment with the proteasomal inhibitor Velcade rescues the dystrophin
complex in experimental and pathological models of muscular dystrophies
E. Gazzerro,
S. Assereto,
F. Sotgia,
F. Zara,
R. Biancheri,
C. Bruno,
M. Lisanti
and C. Minetti - Italy and United States
Background: Activation of the ubiquitin/proteasome proteolytic
systems plays a key role in the muscular dystrophic process. We demonstrated
that local and systemic treatment of mdx mice with MG-132, a
well-characterized proteasomal inhibitor, rescues the expression of the
dystrophin–glycoprotein complex (DGC), and improves the histopathological
signs of muscular dystrophy. These results were confirmed in skeletal muscle
biopsies from patients affected by Duchenne and Becker muscular dystrophies.
Objectives: Our aim was to test the efficiency of Velcade, a selective
proteasomal inhibitor FDA-approved for treatment of multiple myeloma, and
whose side effects have been explored and managed. Methods: Velcade at
5 and 10 μM was injected into gastrocnemius muscles of mdx mice. After
24 h, skeletal muscle tissues from treated and untreated hindlimbs, these last
injected with PBS only, were collected. In addition, Velcade at 0.1–50 μM was
administered on explants from freshly-isolated skeletal muscle biopsies of
dystrophin deficient patients. Dystrophin, alpha-, beta-dystroglycan and
alpha-sarcoglycan expression were examined by immunofluorescence and western
immunoblot. Results: As expected, all the proteins of the DGC complex
were reduced in skeletal muscle fibers from untreated mdx mice.
Remarkably, Velcade either at 5 or 10 μM, rescued the expression level and
subcellular localization of alpha-, beta-dystroglycan, alpha-sarcoglycan and
dystrophin. Moreover, a decrease of the activated form of NF-kbeta was
observed in the Velcade-treated mice when compared to untreated controls. This
transcription factor is involved in the inflammatory reaction of DMD. In
accordance, Velcade up-regulated the expression levels of dystrophin,
alpha-sarcoglycan and beta-dystroglycan in muscle explants from the dystrophin
deficient patients examined. Conclusions: Administration of the
proteasomal inhibitor Velcade in the skeletal muscles from mdx mice,
rescues the expression and plasma membrane localization of the DGC complex,
and reduces the activation of the pro-inflammatory molecule NF-kbeta. These
results are confirmed in muscle explants obtained from dystrophin deficient
patients.
30) Mycophenolate mofetil’s beneficial effects on skeletal muscle in the mdx mouse
J. Strober
and T. Rando
- United States
Treatment options for Duchenne muscular dystrophy (DMD) that have shown
potential benefit have targeted the inflammatory cascade. Mycophenolate
mofetil (MMF) inhibits purine synthesis, leading to a selective reduction of
lymphocyte numbers and a suppression of the levels of pro-inflammatory
cytokines. We hypothesized that MMF will slow the progression of muscle
degeneration in DMD. mdx mice were treated via intraperitoneal
injection (i.p.) daily with either 80 mg/kg MMF, 1 mg/kg prednisone or
vehicle. Injections were started on day of life 10 and mice were sacrificed
at 3, 4 and 5 weeks of age. The diaphragm, tibialis anterior (TA) and
quadriceps muscles were removed and flash frozen in isopentane and underwent
routine H&E staining. The sections were evaluated by an observer blinded to
treatment type for necrosis, central nuclei and inflammatory infiltrate. The
MMF group was found to have a significantly smaller percentage of central
nuclei than the control and than the prednisone treated groups for the
quadriceps at 4 weeks and the TA at 4 and 5 weeks, as revealed by a one way
ANOVA (p < .05) (Table
1). These data suggest that MMF treatment inhibits muscle degeneration
in mdx mice better than do steroids. A trend towards improvement in
necrosis and degeneration in the quadriceps and TAs was also seen, and may
reach significance once more samples are analyzed. MMF reduces the
percentage of centrally located nuclei in the quadriceps and tibialis
anterior muscles of mdx mice compared to mice treated with prednisone.
These findings suggest MMF, a drug with already excellent safety data in
transplant patients, is a good candidate for treatment of DMD.
Table 1.
Muscle Age at sac Treatment Mean Standard deviation F p-value Quad 4 Control 19.2 12.8 6.34 .01 Prednisone 30.6 10.1 MMF 6.8 8.3
TA 4 Control 24.2 29.7 4.87 .03 Prednisone 41.6 11.8 MMF 1.25 .5
TA 5 Control 54.2 22.4 6.94 .01 Prednisone 45.2 28.8 MMF 6.4 7.9
31) Comparison of the effects of chronic treatments with drugs targeting
different disease-related pathways in dystrophic mdx mice
J. Rolland,
R. Burdi,
A. Cozzoli,
V. Giannuzzi,
A. Liantonio,
V. Cippone,
D. Mangieri,
G. Camerino,
G. Nicchia,
A. Frigeri,
F. Andreetta,
P. Confalonieri,
B. Nico
and A. De Luca-
Italy
To verify the role of specific pathways activated by dystrophin absence
and to identify potential pharmacotherapies against Duchenne muscular
dystrophy we chronically treated (4–8 weeks) exercised mdx mice with
drugs acting on different targets. We first compared the phosphodiesterases
inhibitor pentoxifylline (PTX; 50 mg/kg/day i.p.), a wide anti-inflammatory,
anti-ischemic and anti-fibrotic drug, with a potentially clinical relevant
association: α-methyl-prednisolone (PDN; 1 mg/kg/day i.p.) and taurine
(1 g/kg/day orally), to target inflammatory pathways and calcium homeostasis.
Both therapies prevented the 80% exercise-induced weakness. By means of ex
vivo electrophysiological recordings, PTX and PDN-taurine restored the
mechanical threshold as well as the activity of voltage-insensitive calcium
permeable channels of dystrophic myofibres. Microspectrofluorimetry showed
that PTX decreased resting cytosolic calcium and sarcolemmal calcium
permeability in dystrophic EDL muscle fibres. Both treatments contrasted the
impaired chloride channel conductance (gCl) in mdx diaphragm (DIA)
fibres. PTX ameliorated histology, significantly increasing the area in
active regeneration in DIA and gastrocnemious (GC) muscles, and reduced by
40% the plasma creatine kinase (pCK). However, no effect was observed on pCK
and histology of GC muscle after PDN-taurine treatment. Thus, muscle
function amelioration can be modulated by calcium homeostasis, while PTX may
enhance regeneration through a cyclic nucleotide-dependent satellite cells
activation. In order to recognize dystrophin-sensitive indices, we then
performed a treatment with gentamicin (32 mg/kg/day i.p., 8–10 weeks)
forcing reading-through premature stop codon mutations. In treated muscles,
20% of fibers showed a greater presence of dystrophin and aquaporin-4 at
sarcolemmal level. Gentamicin contrasted mouse weakness, significantly
improved gCl, and reduced both GC muscle degeneration and pCK; thus these
parameters are highly sensitive to dystrophin-dependent reinforcement of
sarcolemma. In contrast, the calcium homeostasis was not ameliorated
suggesting that it requires more direct drug strategies (Telethon-Italy
GGP05130).
32) Medical food in mdx mice: Isoflavones ameliorate muscle function and pathology
S. Messina,
A. Mazzeo,
A. Bitto,
M. Aguennouz,
A. Migliorato,
M. Monici,
M. De Pasquale,
F. Squadrito
and G. Vita - Italy
Soy isoflavones have been reported to have antioxidant bioactivities,
scavenging free radicals and increasing antioxidant protein expression, and
also to inhibit the transcription factor NF-κB. We showed in previous studies
that the inhibition of the transcription factor NF-κB through drugs with also
antioxidant properties, have beneficial effects in mdx mice. The drugs
used are not available for clinical studies. We tested whether genistein and
flavocoxid, supplements with known antioxidant and antinflammatory properties
readily available for clinical use, could have a beneficial effect on muscle
function, morphology and biochemical pattern in mdx mice. Five-week old
mdx mice received for five weeks either genistein (2 mg/kg i.p. daily),
flavocoxid (5 mg/kg i.p. daily or vehicle; flavonoids treatment 1)‘increased
forelimb strength (p < 0.05) and strength normalized to weight (p < 0.05)
and decreased fatigue (p < 0.05; 2) reduced serum creatine-kinase
levels (p < 0.01; 3) increased GPX activity and reduced markers of
oxidative stress (p < 0.05; 4) blunted NF-κB DNA-binding activity (p < 0.05;
5) reduces muscle necrosis (p < 0.01) and enhances regeneration (p < 0.05)
with an augmented number of myogenin-positive satellite cells and myonuclei,
and of developmental myosin heavy chain-positive fibers. Our results suggest
that these flavonoids might have a beneficial effect on muscle function and
morphology in mdx mice. Further studies are needed to investigate the
biochemical substrates of such encouraging preliminary results taking into
account that these supplements could be easily introduced in the daily diet of
patients with DMD
33) Systemically-administered biglycan upregulates utrophin and counters dystrophic pathology in mdx mice: A novel pharmacological approach for DMD therapy
A. Amenta,
B. McKechnie,
M. Abedi
and J. Fallon
-
United
States
An attractive approach for DMD therapy is the pharmacological
upregulation of utrophin, a dystrophin homolog that is prominent in developing
muscle. The extracellular matrix protein biglycan is normally present at high
levels in immature muscle and regulates the expression of signaling and
structural proteins at the sarcolemma including alpha- and gamma-sarcoglycans
and the dystrobrevin-syntrophin-nNOS complex. Here we tested whether biglycan
treatment can ameliorate muscle pathology in mdx mice, the canonical
animal model for DMD. A single systemic injection of recombinant human
biglycan protein (rhBGN) improved the health of mdx muscle as indicated
by reduced myofiber death and mononuclear cell infiltration up to three weeks
later. rhBGN treatment upregulated utrophin expression as judged by
immunohistochemistry and western blotting. Studies in mdx:utrophin double
mutant mice indicated that rhBGN activity in mdx is utrophin-dependent.
Repeated rhBGN at 3 week intervals prolongs utrophin upregulation and counters
muscle pathology for at least three months. Experiments are in progress to
test whether rhBGN treatment improves muscle function. We propose that rhBGN
could be therapeutic for DMD.
34) T- and B-lymphocytes depletion has a great effect on the fibrosis of the
dystrophic skeletal muscles in the scid/mdx mouse
A. Farini, M. Meregalli, M. Belicchi, M. Battistelli, D. Parolini, G. D’Antona, M. Gavina, R. Bottinelli and Y. Torrente - Italy
The abnormal connective tissue proliferation following the muscle
degeneration is a major pathologic feature of Duchenne muscular dystrophy (DMD),
a genetic myopathy due to a lack of the sarcolemmal dystrophin protein. Since
this fibrotic proliferation is likely to be a major obstacle to the efficacy
of future therapies, the interventions to understand and prevent it will be
necessary for an effective treatment. The murine animal model of DMD (mdx)
reproduces the histopatological alterations of the muscles of patients with
DMD. To investigate the role of T- and B-lymphocytes in the development of
fibrosis, we created a new animal model, the scid/mdx mouse, by
breeding the mdx mouse with the scid immunodepressed mouse. We
assessed histological analysis for fibrosis and used ELISA analysis to
determine TGF-beta1 expression. In scid/mdx mice, we observed several
dystrophic features as centrally located nuclei, necrosis, muscle degeneration,
similar to the mdx animals. Moreover, the scid/mdx mice show
similar muscle force compared to the mdx mice. The muscle fibrosis
reduction in T- and B-lymphocytes-depleted scid/mdx mice is correlated
to low expression of TGF-beta1. These data demonstrate a correlation between
the absence of B- and T-lymphocytes and the loss of fibrosis accompanied by
the reduction of TGF-beta1 suggesting the importance of the immunomodulation
of the immune system in the Duchenne muscular dystrophy.
O. Gervasio, N. Whitehead and D. Allen - Australia
Duchenne muscular dystrophy (DMD) is an X-linked genetic disease caused
by the absence of dystrophin, a membrane anchoring protein. We have shown
that calcium entry through stretch activated channels (SACs) contributes to
muscle damage in the mdx mouse, an animal model of DMD. Transient
receptor potential canonical 1 (TRPC1) forms SACs in mammalian cells and
interacts with caveolin-1 in smooth muscle cells. Caveolin-3 (Cav-3), which
is structurally homologous to caveolin-1, is increased in mdx muscle.
The aim of this study is to investigate the expression levels and
interaction of Cav-3 and TRPC1 in mdx mice. TRPC1 and Cav-3
co-localized, co-immunoprecipitated and had increased expression levels in
mdx muscle (immunohistochemistry, Western blot). Fluorescence Energy
Resonance Transfer (FRET) was used to confirm the interaction of the two
proteins, in C2C12 myoblasts co-transfected with TRPC1-CFP and Cav-3-YFP.
Fluorescence Lifetime Imaging Microscopy (FLIM) showed a shortening of the
donor lifetime (TRPC-CFP) when cells were co-transfected with both plasmids
(from 2.7ns to 2.1ns; P < 0.001), confirming the interaction between
the two proteins. As Src kinase can activate channels from the TRPC
family, we investigated the role of the kinase in TRPC1 binding properties
with Cav-3. Incubation of C2C12 with hydrogen peroxide, a reactive oxygen
species (ROS), increased the levels of the active form of Src kinase
two fold (Western blot, P < 0.01) and this led to a dissociation of
the TRPC1/Cav-3 complex (FLIM, P < 0.001). These results suggest that
Src kinase might have an important regulatory role in TRPC1 activity
and its interaction with Cav-3. As ROS are known to be increased in mdx/DMD,
we suggest that targeting the ROS-Src-TRPC1 pathway could lead to the
development of new therapeutic approaches for the treatment of DMD.
36) Myo/endothelial properties of the human blood-derived CD133 subpopulation isolated from normal and dystrophic subjects
M. Meregalli, M. Belicchi, A. Farini, G. D’Antona, M. Gavina, D. Parolini, S. Maciotta, L. Porretti, C. Marchesi, R. Bottinelli, N. Bresolin and Y. Torrente - Italy
Recent work from several laboratories supports the idea that bone
marrow derived cells can reach the site of muscle regeneration and
contribute to muscle repair. We recently identified a subpopulation of human
circulating stem cells expressing the AC133 antigen that can differentiate
into muscle, hematopoietic and endothelial cell types. In this work we
identified two subpopulations of the circulating AC133+ stem
cells from both normal and dystrophic patients, with respect to their
ability to regenerate skeletal muscle and express human skeletal muscle
protein synthesis following transplantation into dystrophic muscle of
immuno-incompetent scid/mdx mice. One subpopulation, CXCR4+/CD34−
isolated from DMD patients loose their myogenic potential compared to the
normal counterpart showing a minimal endothelial differentiation and
generally remain in a quiescent condition in injected dystrophic mice.
However, most muscle regenerative and angiogenic capacity was found to
correspond to the CXCR4+/CD34+ subpopulation which
differentiate in endothelial cells and induce muscle force recovery of
dystrophic mice. These results demonstrate the existence of definable
circulating AC133 subpopulations of myogenic/endothelial progenitors based
on CD34/CXCR4 and reveal cell behavioral and phenotypic difference of stem
cells isolated from normal vs dystrophic blood giving new insights for
future cell therapy application in DMD.
37) Cardiac characterization of mdx mice using high-resolution echocardiography
A. Fayssoil,
G. Renault,
C. Marchiol-Fournigault,
D. Fradelizi,
M. Rosier-Montus,
I. Richard
and F. Fougerousse
- France
Duchenne muscular dystrophy (DMD) is an X-linked recessive disorder
caused by the absence of dystrophin. This latter is a sarcolemmal protein
which links cytoskeleton to the extra cellular matrix by interacting with a
large number of membrane proteins. Prognosis is poor because of
cardiomyopathy involved in this disease leading to severe heart failure.
Mdx mouse cardiomyopathy shares many but not all the features of the DMD
cardiomyopathy. A precise characterization of the phenotype will help to
perform relevant veterinary treatment trials. In this setting,
echocardiography is a non invasive procedure allowing us to assess cardiac
morphology, cardiac function and cardiac involvement. Studies were carried
out on 2–11 month-old mdx and C57Bl10 mice using high-resolution
echocardiography (Vevo 770, Visualsonics) with a 30 MHz cardiac probe (RMV707B)
Animals were anaesthetized with isoflurane and monitored for ECG. An M mode
was performed from the parasternal long axis view to measure the left
ventricle internal diameter (LVID), Posterior and Anterior Wall thickness (PW
and AW respectively) in diastole (d) and systole (s). Ejection Fraction (EF),
Posterior Wall thickening (PWth) and Left Ventricular Mass (LV Mass) were
calculated from the above dimensions. Mdx and their control are not
significantly different concerning their heart rate and body weight. No left
ventricular mass difference has been shown; though a significant 10%
increase in PWd was noticed in mdx mice older than six months. A 13%
decrease in PWth was observed between younger mice compared to mice older
than 6 months, while this parameter is stable among the wild type mice.
Moreover a shift is observed in mdx EF: in younger mice (<6 months)
EF is 10% higher than in the young control group whereas in older mdx
mice this parameter is decreased by 5% when compared to old control group.
This work is indispensable to define parameters that will help to evaluate
the efficiency of pharmaceutical or gene cardiac therapies in mdx
mice. The conventional echocardiography will be completed with wall motion
velocities as assessed by Tissular Doppler.
38) Impact of prenatal diagnosis on the incidence of DMD in the Netherlands
A. Helderman-van den Enden, H. Ginjaar and E. Bakker - The Netherlands
Since 1984 prenatal testing for Duchenne/Becker muscular dystrophy
(D/BMD) is an option for women at risk of having an affected son. Is there
an impact on the incidence of DMD due to prenatal diagnosis? An inventory
of all prenatal tests for D/BMD performed in the Netherlands during the
period 1984–2006 is prepared and ranked to the outcome. During this period
our laboratory was the only laboratory in the Netherlands performing this
test. To get insight in the dutch incidence all patients with a diagnosis
of DMD (known mutation and/or absent dystrophin in muscle biopsy) born in
the years 1993 till 1998, known at our laboratory, were counted. Since the
start in 1984 in total 314 prenatal tests were performed for male
pregnancies at risk of D/BMD. From these, 131 pregnancies showed an
increased risk. During the period 1993–1998, 34 pregnancies had an
increased risk. In the years 1993–1998 a total of 595,906 boys were born
in the Netherlands. One hundred and thirty-four of these boys were
subsequently diagnosed to be affected with DMD. The calculated incidence
of DMD in this period in live male births is 1 in 4480. If the number of
pregnancies with an increased risk (34) from these years would be added to
the number of live male births with DMD, the “incidence” would even be as
high as expected from the literature, 1 in 3500. Van Essen estimated the
incidence of DMD in the Netherlands in the period 1961–1983 to be 1 in
4215. The incidence of DMD in the birth cohorts 1993–1998 in this study (1
in 4480) is lower because of prenatal testing. Another factor which
influenced the lower incidence is that a small number of DMD patients is
unknown at the laboratory, i.e., those diagnosed on muscle biopsy only and
familial cases confirmed by CK testing only. Prenatal testing for D/BMD
resulted in a decrease in the incidence of DMD in the Netherlands
[1] and
[2]
39) Respiratory kinematics in Duchenne muscular dystrophy
A. LoMauro, M. D’Angelo, A. Pedotti, E. Marchi, D. Colombo, A. Turconi, N. Bresolin and A. Aliverti1 - Italy
Introduction: Duchenne muscular dystrophy (DMD) is a genetic
disease characterized by progressive loss of muscular strength that,
together with spinal and thoracic deformities, leads to a progressive
restrictive pulmonary syndrome. Measurements of respiratory function allow
clinicians to predict who will require assisted coughing and mechanical
ventilation. Pulmonary function tests and maximal respiratory pressures
measurements are normally used, but they are very often problematic as
they require patient’s co-operation. Aims and methods: In order to
describe the breathing pattern of these patients, we used optoelectronic
plethysmography (AJRCCM, 2000;161:1546–1552), that provides informations
about changes of total chest wall volume (Vcw) and rib cage and abdominal
compartments, as well as their percentage contribution (% RC and % AB,
respectively) to tidal volume and quantifies their desynchronization. We
studied 45 DMD patients at different stages of the disease (age:
13.8 ± 1.5 yrs, height: 151 ± 0.3 cm, weight: 51.1 ± 2.7 kg) in supine
position during 3 min of quite breathing. We split data into four groups:
still ambulant (A, VC = 1.713 ± 0.307 L), wheelchair bound since less than
1yr (WH1, VC = 1.903 ± 0.168 L), between 1 and 3 yrs (WH2, VC = 1.837 ± 0.198 L),
more than 3 yrs (WH3, VC = 1.485 ± 0.105 L). Results: Minute
ventilation normalized for the weight decreases passing from group A to
WH3 (0.179 ± 0.014, 0.113 ± 0.014, 0.104 ± 0.007, 0.123 ± 0.009 L/min/kg,
respectively). This reduction is mainly due to the fall of tidal volume (SW:
7.6 ± 0.7, WH1: 5.0 ± 0.6, WH2: 4.0 ± 0.4, WH3: 6.3 ± 0.4 mL/kg). There is
also a correspondence decreasing of %AB, an index of diaphragmatic
activation, among the four groups (75.6 ± 1.7, 64.0 ± 8.9, 65.1 ± 3.5,
56.1 ± 4.4, respectively). Conclusions: The onset of wheelchair use
dramatically reduces respiratory ventilation in DMD patients and their
ability to expand the chest wall. Besides the restricted chest wall, DMD
patients on wheelchair exhibit an impairment of diaphragmatic activity
which is compensated by using inspiratory rib cage muscle. Kinematics
provides useful indicators without requiring patient cooperation.
40) Evaluation and relevance of evaluation tools of cardiac function in
Duchenne muscular dystrophy
Y. Park, J. Moon and S. Im- Korea
Background: As the improvement of care skill of pulmonary system
and following increased longevity for patients with Duchenne muscular
dystrophy, greater concerns are on early detection and treatment of
cardiac abnormalities which may cause a sudden death. Objective: To
evaluate the cardiac function and to explore the relevance of the
evaluation tools of cardiac function in Duchenne muscular dystrophy (DMD).
Methods: Thirty patients with DMD without of any symptoms of heart
failure underwent physical examination, cardiac monitoring and
neuroendocrine screening tests such as norepinephrine (NE) and brain
natriuretic peptide (BNP). Results: Twenty patients showed abnormal
electrocardiograpic findings, such as ventricular hypertrophy (36.6%),
sinus tachycardia (36.6%), ischemic change (20.0%), T wave inversion
(10.0%). Sixteen patients showed low ejection fraction below 59%. There
were significant correlations between age and ejection fraction (r = −0.739,
p < 0.01), between functional level and ejection fraction (r = −0.523,
p < 0.01). BNP level showed significant correlation with ejection
fraction (r = −0.469, p < 0.01), with cardiothoracic ratio (r = 0.592,
p < 0.01), and with age (r = 0.395, p < 0.05). NE
showed significant correlation with cardiothoracic ratio (r = 0.385,
p < 0.05). Conclusions: Routine evaluation of cardiac
function and proper treatment following early diagnosis of heart problems
is necessary in patients with DMD, because they possibly have severely
affected cardiac problems without representing any clinical symptoms. BNP
level monitoring may assist of early diagnosis of cardiomyopathy in
patients with DMD.
41) The role of ACE inhibitor therapy in presymptomatic cardiomyopathy in Duchenne muscular dystrophy
M. Kinali, R. Robinson, L. Sagi, P. Nihoyannopoulos, A. Manzur and F. Muntoni - United Kingdom
Progressive cardiomyopathy is a common feature of Duchenne muscular dystrophy (DMD). Although echocardiographic evidence of left ventricular dysfunction may be present before the age of 10 years, cardiac symptoms only develop in the advanced stages of cardiomyopathy. There is some evidence that ACE inhibitor therapy can slow the deterioration of cardiac function, but this remains the subject of much debate. The aim of this study was to evaluate the effect of ACE inhibitor therapy in DMD boys with presymptomatic cardiomyopathy.
Sixty-six boys with DMD and echocardiographic evidence of left ventricular dysfunction (fractional shortening (FS) <29% or regional wall motion abnormalities) were identified at the Dubowitz Neuromuscular Centre, Hammersmith Hospital. All patients had serial monitoring with echocardiography. The treated group comprised 54 patients who had been commenced on ACE inhibitor therapy following an abnormal echocardiogram. Thirteen of these patients were also treated with a beta blocker. The remaining 12 patients were untreated during their period of observation and served as the control group. The rate of change in FS (measured as change in percentage per year) for each patient was determined by linear regression. The mean rate of change of FS in the treated group was compared with that in the control group by the independent samples t-test (SPSS software).
Treatment was well tolerated in all patients. The mean age at the first abnormal echocardiogram was 14.06 years in the treated group and 16.1 years in the control group. The mean rate of change of FS was −0.35 per year in the treated group and −6.77 per year in the control group. The difference in means assessed by the independent samples t-test (equal variances not assumed) was significant (p = 0.022).
This study provides supportive evidence that ACE inhibitor therapy is
well tolerated and can slow the progression of cardiomyopathy in
presymptomatic DMD patients. The independent contribution of beta blockers
or steroid therapy has not been assessed in this study and will require
further investigation.
42) Impaired response to low-dose dobutamine stress in Duchenne muscular
dystrophy
L. Markham, P. Khoury, S. Witt, B. Wong, D. Benson and L. Cripe - United States
Duchenne muscular dystrophy (DMD) cardiac phenotype develops without
symptom. Neither genotype nor cardiac imaging at rest has predicted early
onset of cardiac phenotype. Determine cardiac response to stress in DMD
subjects with normal resting cardiac function. We hypothesized that
shortening fraction (SF) response to low-dose Dobutamine stress
echocardiography (DSE) would illicit early cardiac dysfunction in DMD.
Low-dose DSE protocol was performed at rest and during infusion of
Dobutamine at 10 and 20 mcg/kg/min. After consent, 9 DMD boys with normal
resting function by echocardiography and no cardiac symptoms underwent DSE.
Comparison was made to 6 age-matched boys undergoing DSE for clinical
indications remote from Kawasaki disease (no coronary artery abnormalities
and normal resting function). Variables analyzed by t-tests and
repeated measures. DMD and control did not differ in age (10.4 ± 1.4 vs.
8.1 ± 3.8 years; p = 0.32) or resting shortening fraction (33 ± 6
vs. 36 ± 5%; p = 0.29). Both groups showed an incremental increase
in shortening fraction with each dose which was significantly different by
t-tests (10 mcg/kg/min: 40 ± 8 vs. 49 ± 5%; p = 0.03 and 20 mcg/kg/min:
42 ± 8 vs. 53 ± 4%; p = 0.01). No subject had wall motion
abnormalities. The studies were well tolerated without significant side
effect. Due to the small sample size, repeated measures analysis did not
confirm a significant difference in response to Dobutamine. Despite normal
resting systolic function, the DMD myocardium does not respond normally to
stress as evidence by less of an incremental increase in shortening
fraction during low-dose DSE. This blunted DSE response may be an early
marker for the cardiomyopathy of DMD. To conclude a normal cardiac
phenotype associated with genetic neuromuscular diseases additional modes
of investigation should be considered.
Shortening fraction (% increase from rest) | |||
---|---|---|---|
Baseline (%) | 10 mcg/kg/min | 20 mcg/kg/min | |
DMD (N = 9) | 33 | 40% (+121%) | 42% (+127%) |
Control (N = 6) | 36 | 49% (+136%) | 53% (+147%) |
43) MRI in Duchenne muscular dystrophy: Quantification of fat infiltration and gadolinium uptake using whole-muscle regions of interest
P. Garrood, K. Hollingsworth, P. Thelwall, D. Birchall, M. Eagle, K. Bushby and V. Straub - United Kingdom
To date, there are no MRI studies of the degree and pattern of fat
infiltration in steroid-treated boys, or the role of gadolinium in
delineating changes in muscle water content. Our aim was to evaluate the
use of signal intensity for whole-muscle regions of interest for the
quantitative investigation of fat infiltration on T1-weighed scans and
of muscle water content before and after exercise on contrast-enhanced
scans. Nine steroid-treated ambulant boys with DMD (6.6–9.9 years) and
five adult male volunteers (29.6–35 years) were scanned using a 3T
Philips Achieva scanner. Boys were scanned before and 4 days after
stepping exercise and adults 4 days after stepping exercise. Axial
T1-weighted images and fat-saturated pre- and post-gadolinium contrast (Omniscan®)
images of the calves, thighs and pelvis were obtained. Regions of
interest were drawn defining muscles at mid-calf, thigh and pelvis. On
T1-weighted images, mean signal intensities for all muscles studied were
greater for the children than for the adults. This reached significance
for 5/8 muscles. Post-exercise scans using signal intensity change as an
index of contrast uptake showed significant differences between adults
and children for 5/7 muscles. Although mean post-exercise signal changes
after contrast were greater than those pre-exercise for all muscle
groups in DMD boys, some boys’ showed a decrease in contrast uptake in
some muscles post-exercise. The calf muscles and gluteus maximus showed
a greater tendency to increased uptake of contrast than the thigh
muscles post-exercise. Quantification of signal intensity can be used to
investigate fat infiltration and muscle water content in a comparative
analysis. DMD boys’ inter-individual variation in signal intensities
prevented some results from reaching significance. This technique will
be employed in future scans of the same children to quantify the change
in fat infiltration and muscle water content over time.
44) Duchenne muscular dystrophy – decreased bone turnover and bone mineral density
A. Ahlander, A. Söderpalm, P. Magnusson, J. Karlsson, A. Kroksmark, M. Tulinius and D. Swolin-Eide - Sweden
Background: Duchenne muscular dystrophy (DMD), the most common
muscular dystrophy in childhood, implies an increased risk of
osteoporosis. Objectives. Examination of bone mineral density,
bone turnover, body composition, calciotropic hormones and muscle
strength in 24 boys with DMD (2.3–19.7 years), most of whom were being
treated with prednisolone, and 24 age-matched healthy boys (2.7–19.6
years). Methods: Bone mineral density was measured by DXA (GE
Lunar Prodigy) and DXL (Demetech). Motor function was classified
according to the Vignos scale. Isometric muscle strength was measured
using an electronic handheld myometer. Results: Our study
demonstrated lower bone mineral density in the DMD group for total body,
spine, hip, heel and forearm measurements and the differences between
patients and controls increased with increasing age. Biochemical markers
of both bone formation and resorption revealed reduced bone turnover in
DMD patients. The fracture rate was not higher in DMD patients. The DMD
patients had low vitamin D levels but high leptine levels compared to
the control group. Correlations were found between heel bone mineral
density and motor function and isometric muscular strength.
Conclusions: Patients with DMD demonstrate a lower mineral bone
density and a decreased bone turnover compared to controls.
Interventions that increase bone formation should be considered.
45) Immediate release oral pentoxifylline is poorly tolerated in Duchenne muscular dystrophy boys
D. Escolar, C. Tesi-Rocha, P. Clemens, S. Iannaccone, A. Pestronk, N. Kuntz, A. Zimmerman, E. Henricson, A. Arrieta, L. Nei, B. Markle and A. Connolly - United States
Objectives: The objective of this open label pilot study of
oral, immediate release pentoxyfylline was to assess the tolerability,
safety and efficacy on muscle strength and function in Duchenne muscular
dystrophy (DMD). Methods: This was an open label prospective
study with a 3 month lead-in period followed by 12 months of treatment
with a 20 mg/kg/day dose of pentoxifylline (maximal administered dose
was 598 mg/day). Study subjects were 4–9 year-old steroid-naive DMD
boys. The primary efficacy measure was a total quantitative muscle
testing (QMT) score. The secondary and exploratory endpoint measures
were manual muscle strength, arm and leg QMT, timed function tests,
muscle MRI, serum TNF-alpha and TGF-beta levels and adverse event
profiles. Results: Twenty patients were screened, 17 enrolled and
nine completed the study protocol. The study population was 4.3–8.5
years of age, with a mean of 6.0 years (1.3) and median of 5.8 years.
QMT and MMT measures did not show a significant change during the 3
month lead-in or 12 months treatment periods. However, five of the eight
patient withdrawals were due to intolerable adverse events. Eleven of
the 17 patients experienced nausea and vomiting and two of these
patients experienced moderate (grade 3) to severe (grade 4) leucopenia.
Conclusions: The immediate release oral formulation of
pentoxifylline, while allowing for accurate dosing, is not well
tolerated in children with DMD. The 12% incidence of leucopenia in this
study was higher than expected since as the reported incidence rate in
adults is less than 1%. Leucopenia rapidly improved with withdrawal of
the drug. The 65% incidence of vomiting was also higher than expected
compared to a 4.5% reported incidence in adults. The lack of
deterioration in strength and function over 12 months in steroid naïve
DMD children with mean age close to 6 suggests a possible beneficial
effect on disease progression and warrants further study with a
different formulation of pentoxifylline. “Stabilization” of strength in
DMD boys this age, however, must be viewed with caution in the light of
prior studies which confirm a true “honeymoon period” in strength and
function in DMD.
46) Clinical development of the French UMD–DMD database
V. Humbertclaude, S. Tuffery-Giraud, R. Ben Yaou, D. Hamroun, P. Khau Van Kien, F. Leturcq, J. Chelly, M. Claustres and C. Béroud - France
A French UMD–DMD database was created to collect the molecular and
clinical data from patients with a mutation in the dystrophin gene. We
present the clinical side of the French UMD–DMD database, in particular
the development of new tools for clinical data analysis, prerequisite
for the study of phenotype–genotype correlations. Molecular data are
completed by a clinical synthesis of the patient. Clinical items were
selected after an extensive study of the literature and validated with
physicians from the 9 “French Reference Centers for Neuromuscular
Diseases”. Four curators collect anonymous data from all diagnostic
laboratories and physicians. New algorithms were thus developed to
analyze this phenotypic information using the 4D language (4D®).
Three levels of information represent each clinical data: symptom,
severity, age of onset. Each affected organ system is described with a
limited range of qualitative and quantitative items, including diagnosis,
motor function, clinical examination, intellectual and psychological
problems, orthopaedic complications, heart, respiratory, digestive and
urologic problems, growth, age at last examination, death. This list
includes 175 items. Using new tools from UMD–DMD, the user can create
various analysis matrices that allow to choose clinical items of
interest and statistical functions. The functions “Graph per symptom” or
“Graph per age” show the distribution of the various severities for a
selected symptom or their age of occurrence either for all records or
for a subset of records. The “LVEF and FVC evolution” function allows
the visualization of the evolution of these parameters for a specific
patient or group of patients. The French UMD–DMD database is the first
national database of mutations of the dystrophin gene that includes
extensive clinical data. It will permit to establish phenotype–genotype
correlations, and will participate to the elaboration of future
therapies.
47) How much dystrophin to avoid muscular dystrophy?
M. Neri, S. Torelli, I. Ugo, S. Brown, C. Sewry, P. Sabatelli, L. Merlini, P. Spitali, F. Gualandi, E. Calzolari, A. Ferlini and F. Muntoni - Italy and United Kingdom
Mutations in the dystrophin gene give rise to Duchenne and Becker
muscular dystrophies (DMD and BMD), in which both skeletal and cardiac
muscles are affected but also to X-linked dilated cardiomyopathy (XLDC).
XLDC cases due to mutation in the 5′ of the gene have a cardiac specific
severe transcriptional pathology, while reduced levels of normal
dystrophin are present in the skeletal muscle. One key question for the
therapeutic approaches to DMD/BMD patients relates to how much
dystrophin is necessary to protect the muscle from ongoing degeneration.
In order to provide an indirect answer to this we have characterised the
dystrophin production in the skeletal muscle of four XLDC patients.
Patients were characterised at genomic and transcriptional level.
Sections of skeletal and cardiac muscles were immunostained with
antibodies against dystrophin (DYS1, DY2, DYS3). Western blot analysis
on muscle protein was performed using DYS1 antibody and the ECL plus
system. Measurements of the integrated density value of the bands were
carried out using an Alpha Imaging system. Indirect immunohistochemistry
showed continuous expression of dystrophin in the skeletal muscle in
each patient and absence in the heart. Semi-quantitative RT-PCR analysis
with co-amplification of dystrophin and laminin α2 chain identified
levels of dystrophin transcript in the muscle ranging from 20% to 40%.
Moreover we observed in these patients protein levels comprised between
20% and 50% of control. Dystrophin mRNA and protein levels comprised
between 20% and 50% of control are sufficient to avoid muscular
dystrophy in the humans, when the protein is uniformly present in all
muscle fibres. This level of dystrophin expression is similar to the one
obtained with transgenic experiments in which dystrophin was introduced
on the mdx background and suggest that similar levels achieved in DMD
muscle following dystrophin restoration strategies should have a
protective effect from muscle degeneration.
48) Extraocular muscles buffer calcium better than limb muscle: Implications for preferential sparing in Duchenne muscular dystrophy
U. Zeiger, M. Wiesen, C. Mitchell and T. Khurana - United States
Duchenne’s muscular dystrophy (DMD) is the most common fatal, genetic
disease in males and associated with widespread muscle wasting.
Extraocular muscles (EOMs) are spared in DMD, although the reasons for
this preferential sparing remain elusive. Dysregulation of calcium
homeostasis has been suggested to contribute to muscle damage in DMD.
Based on morphological observations, pharmacological tests and
expression profiling, we propose that EOM sparing is facilitated by
differential calcium buffering properties of EOM compared to limb (tibialis
anterior-TA) muscle. We investigated the role of candidate proteins as
well as compared calcium handling properties of cultured myotubes from
EOM and TA. Methodically, the sarcoplasmic reticulum (SR) content of EOM
and TA muscle was calculated from electron microscopy (EM) micrographs.
Quantitative PCR was used to compare mRNA expression levels. Primary
myoblasts from EOM and TA from 5- to 10-day old Sprague Dawley rats were
cultured and fused in vitro, using the Rando and Blau (1994) protocol.
Intracellular calcium buffering was determined using Fura-2 loaded
myotubes after challenging the cells with ionomycin and 300 nM
extracellular Ca2+. We found that the large pale global EOM
fibers have a 1.7-fold larger SR content than TA. The expression of
mRNAs for several calcium and SR related proteins including SERCA2,
phospholamban and calsequestrin was higher in EOM than TA. Cultured EOM
myotubes showed 2.3-fold larger calcium peaks in response to sudden
increases in calcium. However, the signal decayed 1.7-fold faster in EOM
than in TA, implying a more efficient buffering from excessive calcium
levels in these muscles. To conclude, a larger SR and differential
expression of calcium buffering proteins may contribute to the improved
ability of EOM to handle elevated intracellular calcium levels. This in
turn would be predicted to protect EOM from the calcium-mediated damage
noted in DMD limb muscles.
49) The topographic distribution of the dystrophin brain isoform in the
human cardiac muscle: Implications for the pathogenesis of the x-linked
dilated cardiomyopathy
M. Neri,
F. Gualandi,
P. Rimessi,
M. Bovolenta,
G. Alfano,
S. Banfi,
E. Calzolari,
F. Muntoni
and A. Ferlini - Italy and United Kingdom
X-linked dilated cardiomyopathy (XLDC) is a clinical phenotype of dystrophinopathy characterized by a selective myocardial involvement. The proposed pathogenic model for XLDC due to mutation in the 5′ region of the gene and abolishing the M isoform expression attributes the cardiac pathology to the inability to up-regulate B and P isoforms, differently from what happens in the skeletal muscle. This reflects a different regulation of the isoforms expression in these two muscle tissues. In order to get insights into the mechanisms underlying the lack of compensatory up-regulation of the B isoform in the XLDC heart, we have investigated the transcription pattern of dystrophin M and B isoforms in various areas of normal human heart. RT-PCR of dystrophin M and B isoforms were performed on RNAs from human total heart and from cardiac areas (Ambion®). RT-PCR products of the B isoform were hybridized with an internal oligo probe. We performed non radioactive RNA in situ hybridization on cryosections from left ventricle of human heart with probes specific for M and B 5′UTR and exon1. RT-PCR experiments showed the M isoform to be uniformly present in all the examined cardiac areas. Differently, the B isoform was present in atria but not in ventricles. The RNA in situ hybridization on human ventricular tissue reinforced these data showing a specific signal with the M probe and a lack of signal with the B probe. Our finding implicates that the B dystrophin is transcribed in heart areas containing major conduction system structures, but not in those subjected to high mechanical load (ventricles). This might suggest that B isoform function in the heart might not be related to the force-transduction apparatus. These observations have implications in the pathogenic mechanisms underlying both XLDC and cardiac rhythms disturbances occurring in dystrophinopathies.
50) Reduced differentiation potential in Duchenne muscular dystrophy with increasing dystrophy
M. Kottlors and J. Kirschner - Germany
Background: Histology of Duchenne muscular dystrophy is
characterised by progressive fibrosis, small undifferentiated fibers and
fiber type II predominance in advanced stages. There are different
reports regarding satellite cell number in early and especially advanced
stages depending on the examined material, e.g., human/mouse muscle
biopsy or cell culture system. Objective: To investigate
satellite cell number in muscle biopsies from different age groups.
Examination of the relation between the expression of myogenic
regulatory factors and satellite cell number. Methods:
Investigation of biopsies of DMD patient in early (2 years), middle (4 years)
and advanced disease stages (8 years) and age matched controls by
immunofluorescence (Pax7, MyoD1, Myogenin, Myf5, Desmin, Developmental
MHC). Calculation of the number of Pax7-positive and Myogenin-positive
nuclei per field and determination of the number in relation to the
fibrosis. Calculation of the number of Pax7-positive nuclei to
Myogenin-positive nuclei. Qualitative assessment of MyoD1 und Myf5.
Results: In comparison to age matched controls even biopsies of DMD
patients in advanced stages disclosed a higher number of Pax7-positive
nuclei. There was an increasing number of Pax7-positive nuclei among DMD
biopsies with increasing dystrophy. In contrast, Myogenin-positive
nuclei decreased with increasing dystrophy in DMD biopsies. Qualitative
assessment of MyoD1 and Myf5 suggests a dysfunction of these myogenic
regulatory factors. Conclusions: Our results indicate that
proliferation of satellite cells in DMD patients is not impaired, even
in advanced stages. The decreased expression of proteins of the
differentiation phase suggests an early differentiation block.
51) Characterization of muscle-specific expression of miRNAs in Duchenne muscular dystrophy
S. Maciotta, M. Meregalli, A. Farini, M. Belicchi, D. Parolini, N. Bresolin and Y. Torrente - Italy
The miRNAs are a class of highly-conserved and tissue-specific
non-coding RNAs involved in post transcriptional regulation. Animal
miRNAs typically form imperfectly base-pair duplexes with microRNA
response element (MRE) in target mRNAs and this interaction inhibits
translation of the target mRNA. In this study, we wanted to clarify the
role of muscle-specific miRNAs in the pathogenesis of Duchenne muscular
dystrophy (DMD). DMD is a muscle degenerative disease caused by a
mutation in the gene encoding dystrophin. The molecular mechanisms
responsible for the pathogenesis are not completely clear but recent
reports demonstrated an involvement of some miRNAs in muscle development.
Three miRNAs (miR-1, miR-133 and miR-206) are muscle-specific and seem
to be involved in muscle proliferation and/or differentiation: they are
all switched on during in vitro induced maturation of myoblast to
myotube. More specifically it has been demonstrated that miR-1 induces
muscle proliferation through inhibition of histone deacetylase 4 (HDAC4);
miR-133 induces muscle differentiation through inhibition of serum
response factor (SRF) and miR-206 induces muscle differentiation through
the inhibition of three different target, Utrophyn (Utr), the largest
subunit of Dna Pol alpha (Pola1) and Connexin 43 (Cx43). Northern blot
with DIG-labelled probes and real-time PCR were used to evaluate the
presence and the level of expression of miR-1, miR-133 and miR-206 in
human fetal and adult muscle obtained from normal and DMD subjects. We
characterized the differences between adult and fetal tissues inside the
same clinical group, to see if the pattern of miRNA expression is
time-dependent, and between normal and DMD tissues, in order to
understand the involvement of these miRNAs in the disease. Preliminary
results indicate different expression of miRNA between normal and DMD
subjects. These data suggest a possible miRNA implications in the muscle
damage of Duchenne muscular dystrophy.
52) Gene expression profiling of blood in subjects with Duchenne muscular dystrophy and related disorders
B. Wong, D. Gilbert, W. Walker, I. Liao, H. Xu, J. Gregg, M. Apperson and F. Sharp - United States
Studies have shown that genetic neurological diseases including
tuberous sclerosis, neurofibromatosis and Huntington’s chorea produce
specific gene expression profiles in peripheral blood. The immune system
plays an important role in the pathogenesis of Duchenne muscular
dystrophy (DMD) and other muscle diseases. Therefore, we hypothesized
specific genomic profiles in peripheral blood might be present in
children with muscular dystrophies (MD) and spinal muscular atrophy
(SMA). The aim of the study was to examine the gene expression in whole
blood of children with DMD, other MD and SMA vs. healthy controls.
Informed consent and assent were obtained from study subjects (ages
6–18) – DMD (n = 34), other MD (n = 9), SMA (n = 7)}
and healthy children (HC) (n = 28). RNA from blood was processed
on Affymetrix arrays. A t-test with a multiple comparison
correction identified genes that separated DMD from HC. Comparison of
the group of all children with DMD, MD, and SMA also identified gene
expression profiles that differed from HC. The genes over-expressed in
the blood of DMD children were expressed mainly in neutrophils and
differed from genes shown to be dysregulated in muscle. The signaling
pathways identified by KEGG in blood of DMD children included the
leukocyte trans-endothelial migration, regulation of actin cytoskeleton
pathway, antigen processing and presentation and neurodegenerative
disorders pathways. There are significant differences in gene expression
(in particular genes expressed in neutrophils) in blood of children with
DMD, and additional differences were common to all children with muscle
diseases. These patterns of gene expression may reflect primary or
secondary immunological processes which could be targeted by future
therapies.
53) Do revertants increase with age in Duchenne muscular dystrophy boys?
V. Arechavala-Gomeza, M. Kinali, L. Feng, G. Edge, D. Hunt, J. Lehovsky, D. Chambers, V. Straub, K. Bushby, C. Sewry, J. Morgan and F. Muntoni - United Kingdom
Background: Duchenne muscular dystrophy (DMD) diagnosis is confirmed by the absence of dystrophin in muscle biopsies. However, the presence of dystrophin positive fibres (revertants) is reported in 50% of DMD diagnostic biopsies. Dystrophin traces are also frequently reported but their significance is unclear. Revertant fibres are present in the mdx mice, with similar percentages and increase with age. We are involved in a phase I/II study in DMD using antisense oligonucleotides. As the presence of dystrophin traces or the possible accumulation of revertants might affect the endpoint of our study, we have characterised further these two phenomena in a large DMD cohort. Methods: We reviewed 63 DMD diagnostic biopsy reports issued by the same pathologists (CS) during the last 8 years to confirm the frequency of revertant fibres or dystrophin traces in quadriceps muscle biopsies. In order to characterise their evolution with age, we studied a subset of seven patients in whom a second biopsy was obtained from the extensor digitorum brevis (EDB) after diagnosis (mean 6 years). We performed a detailed quantitative comparison of the dystrophin expression intensity between the original and recent biopsies. Results: Revertant fibres were present in 47% of the reports, traces in 33%; in 15% revertants and traces co-existed. In the seven patients who had repeated muscle biopsies, there was complete concordance between the original and the recent biopsies: presence or absence of revertants was maintained with age with no significant increase with patient’s age. Conclusions: Revertant fibres do not increase with age in DMD boys in the EDB muscle, contrary to what has been reported on the mdx mice. We devised a semiquantitative assay to objectively measure dystrophin traces expression. Work is in progress on relating the presence of revertants or traces with clinical phenotype and dystrophin transcription in these patients. Our findings may have important implications in the planning of future dystrophin restoration studies
54) High expression of galectins-1 and -3 in dystrophin-deficient muscles: Effect of regeneration or degeneration?
L. Yamamoto, R. Chammas, M. Zatz and M. Vainzof - Brazil
The galectins are a large group of conserved proteins that recognize
specific carbohydrates. Cross-linking of galectin ligands can result in
cell–cell interactions, signal transduction or formation of
galectin-glycoconjugate lattices. Galectins are implicated in many
biological processes such as morphogenesis, control of cell death and
cell proliferation. Besides, an additional important role of the
galectins in the organization of membrane complexes is suggested, mainly
involving the interactions between laminins and their cell surface
receptors. In a previous study, high levels of galectins-1 and -3 were
found in LGMD2I muscle samples, which bear an altered glycosylation
pattern in α-dystroglican. This was associated with the role of galectin-1
in the regulation of myotube growth and with the tentative of
regenerations, which occurs in these dystrophic muscles. Here, we
verified the possible involvement of galectins-1 and -3 in muscle
degenerative/regenerative process, studying their expression in DMD
patients. The expression on neonatal myosin was used as a marker of
regeneration. Through Western blot analysis, we verified high levels of
both proteins, in all affected muscles, independently of the degree of
degeneration/regeneration. Increased amount of neonatal myosin was also
detected in the same muscle samples. Normal muscle showed lowers levels
of galectin-3 and no expression of neonatal myosin. Galectin-1 is
abundantly present in adult skeletal muscles, mainly in activated
satellite cells, after muscle injury. Galectin-3 is a mitogen capable of
stimulating cell proliferation, but with opposite effects depending on
the type of the cell. While the pattern of galectin-3 expression in
muscle development is still unknown, it has been recently shown that
galectin-3 interferes with TGF-β mediated myofibroblasts activation and
matrix production in the liver. The high expression of galectin-1 and -3
in the dystrophic muscle can therefore be attributed to both muscle
regeneration and degeneration followed by connective tissue replacement.
FAPESP-CEPID, CNPq, ABDIM.
55) Pilot study to determine the transition needs of adolescents and adults with Duchenne muscular dystrophy
R. Viana, K. LaDonna, W. Koopman, C. Campbell, V. Schulz and S. Venance - Canada
The increasing life expectancy for men living with Duchenne muscular
dystrophy (DMD) necessitates a transition from pediatric to adult
neuromuscular care. The aim of transition is to provide comprehensive,
appropriate care in a coordinated and uninterrupted manner by meeting
the developmentally appropriate needs of the individual. The evolving
physical and social needs of adults living with DMD need to be addressed.
The objectives of this study are to determine the needs and quality of
life of individuals with DMD transitioning from the pediatric clinic to
the adult Neuromuscular clinic. The information gleaned from this study
will be useful in developing a comprehensive transition program. Does
the introduction of a new health care team, altered social roles, and
resource allocation cause stress for men transitioning from pediatric to
adult care? Further, is the transition compounded by physical decline,
evolving social needs, and the individual’s quality of life? Adolescents
or men with DMD attending either a pediatric or adult Neuromuscular
clinic, and a caregiver identified by the individual, were asked to
participate. Participants completed a semi-structured, qualitative
interview regarding the transition process, their current and future
physical needs, social relationships and autonomy. Issues addressed
include examination of services, integration and access to hospital and
community programs, and physical functioning. The men also completed the
Individualized Neuromuscular Quality of Life Questionnaire (InQoL). The
audio-taped interviews were transcribed and analyzed by two raters to
extrapolate emerging themes. The interviews were well tolerated by both
the men with DMD and their caregiver. The interviews have gleaned
important information about the daily needs and challenges experienced
by DMD families. Transition is considered a positive experience that
increases patient autonomy and access to resources addressing changing
social needs.
56) The creation of a center for basic research and clinical assistance for
muscular dystrophy patients: A way to avoid deaths and perform clinical
trials
M. Bergamaschi, M. Favaro and A. Godoy - Brazil
Our purpose is to report the creation of a center of basic research and
clinical assistance for muscular dystrophy (MD) patients in the interior
of Brazil. In 1998, a group of parents of MD children founded an
Association of Parents and Friends (APF), in order to stimulate
reasearches aiming new treatments. APF got funds from a National oil
company (PETROBRAS) and built laboratories. Genetic modified mice and
dogs have been used. In 2004 the University of Ribeirao Preto, in Sao
Paulo State, initiated a colaborative work with APF. At the outpatient
clinics of the University a team of teachers began giving a unique
assistance for MD patients. They get regular attention from one
neurologist, a geneticist, a pneumologist, a psychologist, a dentist, a
nutritionist, social assistants, nurses and physical therapists. The
patients with special needs are seen by other physicians such as a
cardiologist and an orthopedist. Since 2004 more than 80 patients (3–53
years of age) came to this new center, from all over the country. In
2006 the Brazilian Government recognized it as one national reference
service for MD patients. Those individuals looking for such assistance
were not all MD patients, but many with other disorders characterized
also by muscle involvement. We saw those subjects, checked the diagnosis
and sent them to other hospitals, keeping with us only those with MD. We
diagnosed: 2 amyotrophic lateral sclerosis, one Charcot-Marie, 2
radiculopathy, 3 myotonic dystrophy, 2 facioscapulohumeral, 9 Becker, 28
Duchenne and 14 with other muscular dystrophies. Among the Duchenne
patients, 6 take corticosteroids, 18 are wheelchair dependents and 7
need ventilatory assistance. Based on our work we strongly suggest the
creation of many centers around the world to see MD patients. This would
avoid many deaths and increase the chance to perform clinical trials for
new drugs.
57) A study of boys and men with Duchenne muscular dystrophy (DMD) in half the Norwegian population. 1. A 22 years follow up of a DMD population
R. Melsom and I. Lund-Petersen - Norway
This study presents findings in a DMD population over a 22 years period.
31 (of 38) boys under the age of 18 years were registered in 1984. Of
these 14 and 8 respectively were alive in follow up studies in 1997 and
2006. 48 boys and men (of 59) were followed up in 2006 with an age range
from 4 to 43 years. Mean age of the boys in 1984 was 11.1 in 1984. In
2006 it was 9.6 for those under 18 years and 11.1 for the whole group.
In 1984 mean age at stop walking was 9.3. In 2006 it was 9.6 in boys
under 18 and 9.5 for the whole group. 16 of the boys had received
prednisolone treatment. 17 persons died between 1984 and 1997 at a mean
age of 20.2. One of these had receive home ventilation. 6 persons died
between 1997 and 2006 with a mean age of 26 years. Of these four had
received home ventilation at a mean age of 20. In 2006 the 8 survivors
fom 1984 had a mean age of 33.6 years and had received ventilation from
a mean age of 22. Regular heart examination was done in 2006, but not
done in 1984. This study indicates that the number of boys under 18 is
stable and that there is an increase in the over 18 group. Age of
ventilatory support varies and indicates that survival also can depend
on other health factor.
58) A study of boys and men with Duchenne muscular dystrophy in half the
Norwegian population. 2. Health and social services
R. Melsom and I. Lund-Petersen - Norway
Forty seven boys and men with DMD in half of the Norwegian population participated in an organised questionnaire and physical examination to evaluate if the Scandinavian State of art protocol was followed in 2006. Group 1 consisted of 14 boys under 12 yrs of age, group 2 of 17 boys between 12 and 18 yrs of age, and group 3 of 16 men above 18 yrs of age. Few of the boys with DMD could be alone. The age at diagnosis has decreased from average 5.8 yrs in group 3–3.8 yrs in group 1. Most were diagnosed with muscle biopsy. Genetic testing was done regularly in group 1 and seldom in group 3. All the boys in in group 1 had regular control of their weight and half in group 3 had such control. Several in group 1 and 2 were overweight while underweight was more common in group 3 where 5 had a gastronomy tube put in for feeding. Nine out of 14 in group 1 and 7 out of 17 had prednisolone therapy for variable time. Data on medical and physioteraphy follow up will be presented. Half the total group had their mental state assessed and 2/3 has their own educational plan at school. 2/3 had services from social workers. In Norway boys and men with DMD have the right to have an individual plan (IP) made indicating the need for follow up for the next period over several years. Only half had such a plan. Few could enjoy holidays and spare time activities. Most of them had friends taking contact and half had contact with others with DMD. 2/3 of the total group had been once or several times to Frambu information centre for rare diseases. 2/3 of the total group were member of the Norwegain association of muscular diseases. All in group 1 and 2 , and half of group 3 had regular follow up by the habilitation centres. Boys and more poorly men with DMD were partly followed according to the Scandinavain State of the Art Protocol for DMD.
59) A study of boys and men with Duchenne muscular dystrophy in half the Norwegian population. 3. Physical profile and self-evaluation
I. Lund-Petersen and R. Melsom - Norway
Physical function was evaluated in 48 boys and men. Physical function
was graded according to Brookes evaluation and EK scales were used for
wheelchair users. Hammersmith Motor Ability Scale was used for the
walking children. Muscle power was measured in 3 muscle groups and
contractures were evaluated in three joints. Scoliosis was scored from
clinical inspection. The men and boys over 16 years answered a
self-evaluation questionnaire regarding pain, digestion, respiration,
ulcers, tiredness and progression on a scale from 1 to 10. The parents
of the younger boys answered this questionnaire on behalf of the boys.
Our study indicates an increase in contractures, a decrease in muscle
power and physical function as the illness progressed. The contractures
were severe late in the wheelchair period. The same picture was observed
with increasing scoliosis. Some did not develop scoliosis. Pain,
progression and digestive problems were the most prominent areas of
concern.
60) Identification of psychosocial needs of adolescent/young adults with
Duchenne muscular dystrophy
K. Kinnett, N. Weidner, M. Knue, B. Wong, L. Markham and L. Cripe - United States
Advances in medical management have resulted in longer life for boys
with Duchenne muscular dystrophy (DMD). As a result, families face
significant psychosocial issues that impact daily well-being. To
identify common psychosocial issues faced by adolescent/young adult DMD
boys and their families. Facilitator-led focus groups were held and
video monitored. Boys with DMD and their mothers were separated by age
into two groups; adolescent boys (13–16 years) and young adults (17–23
years). Mothers and boys were interviewed in separate sessions. Issues
addressed included family relationships, daily care, medication use,
stress and long-term planning. Session transcripts were reviewed and
responses complied. Adolescents identified presence of a personal care
aide, spending time with friends, travel, participation in sports, and
short term health care concerns (medication, surgeries, etc.) as
important. Young adults also identified the presence of a personal care
aide in addition to issues of assistance with education and employment,
maintenance of independence, social isolation, and the emotional aspects
of a terminal illness as important. Mothers of adolescents identified
the social and educational needs of their sons, personal care aides,
family vacations, financial burdens of the disease, and issues
surrounding the changing medical needs of their sons as important.
Mothers of young adults identified identical issues but in addition
identified issues regarding post-secondary education and employment as
important. In addition to complex medical care the adolescent/young
adult with DMD and their families have significant social and emotional
needs. The medical community must be aware of and develop tools to
address these needs if comprehensive family centered treatment is to be
provided. Recognizing the unique psychosocial needs of this growing
population is the first essential step to devising appropriate
interventions.
61) Palliative care services in families of males with Duchenne muscular
dystrophy
F. Meaney, S. Pandya, J. Andrews and M. Davis - United States
The World Health Organization definition of palliative care includes
services that address physical pain and emotional, social, and spiritual
needs to enhance quality of life. These services may benefit individuals
with progressive diseases such as Duchenne muscular dystrophy (DMD). To
describe palliative care services families of males with DMD currently
receive and determine needs for future services. A questionnaire was
administered to families of males born prior to January 1, 1982, and
residing in one of four sites participating in the Muscular Dystrophy
Surveillance, Tracking, and Research Network (MD STARnet). Thirty-four
families completed the questionnaire, which included 45% of the families
that could be contacted in MD STARnet sites and five additional families.
Twenty (59%) were white, non-Hispanic and others primarily Hispanic
(13, 38%). In most families (22, 65%), the individual with DMD was
living; sixteen (73%) were less than 30 years old. Most families
(33, 97%) had never heard of the term palliative care. Of six palliative
care services, only Attendant Care and Skilled Nursing Services showed
much usage, with 44% and 50% of respondents indicating receipt of these
respective services. Other services were received much less frequently:
Pastoral Care (27%), Respite Care (18%), Pain Management (12%), and
Hospice Care (6%). Less than 25% of respondents (8/34) reported having
any type of directive document in place. Such documents as the Living
Will, Advanced Directives and Durable Medical Care Power of Attorney are
considered important in disease management of individuals with a
terminal illness. Only 2 (6%) of the families had guardianship papers in
place for the care of their son with DMD in the event of incapacitation
or death of the parent. These data suggest the need for improved
counseling and education of families about palliative care services.
62) Language and reading disorders in Duchenne muscular dystrophy: Neuropsychological assessment
M. D’Angelo, F. Civati, M. Lorusso, A. Marini, G. Comi, A. Turconi, F. Fabbro and N. Bresolin - Italy
Background: Duchenne himself had already noted a ‘caractere
obtus’ of many of the children affected by the muscular disease. The
disorder is caused by the absence of dystrophin, but alternative
isoforms are also expressed in the cerebral neocortex and in the
cerebellum. Difficulties in verbal skills and reading abilities have
been described in English and French speaking patients. The aims of our
study was to evaluate the language, reading and cognitive abilities in a
group of italian children affected by Duchenne Muscular Dystrophy (DMD)
and to clarify a possible correlation with dystrophin deficiency.
Methods: 40 children affected by DMD (mean age 8,9 years SD 1,6) and
10 children (mean age 9,1 years SD 1,6) affected by Spinal Muscular
Atrophy or Osteogenesis Imperfecta participated in the study.
Intellectual level was assessed through Wechsler Intelligence Scales;
language and reading abilities through a battery of standardised tests.
To exclude additional cognitive deficits, we evaluated attention/executive
functions domain and memory and learning domain through a Developmental
Neuropsychological Assessment and the visual abstract memory through the
TEMA battery. Results: To an overall observation of the obtained
results, Italian DMD patients showed mildly reduced full intelligence
quotient (<1 SD) and difficulties in receptive language (syntactic and
grammatical comprehension, phonological analysis and discrimination).
Their narrative skills were qualitatively inferior with respect to those
produced by a group of age-matched control children. Discussion:
Since the lack of dystrophin is assumed to produce effects on the
maturation of the brain and particularly the cerebellum, these findings
may support the hypothesis of the existence of a cerebellar-cortical
circuit specialised in language skills.
63) Memory deficit of children with Duchenne muscular dystrophy
L. Parisi, L. Firrigno, G. Bisconti, T. Di Filippo, D. Testa and M. Roccella - Italy
Several studies on intelligence of children suffering from Duchenne
muscular dystrophy (DMD) found impairments in linguistic functions and
memory. Memory deficit mainly involves long-term memory; short-term
memory impairment was also present, even if less frequently. Some
studies tried to establish a correlation between the distal deletion of
the dystrophin gene and low intelligence levels. The present study
investigated the neuropsychological performance in a group of DMD
children (26 subjects); neuropsychological tests included: Wechsler
intelligence scale for children-revised; Raven’s progressive matrices
test; Rey’s complex figure test; memory and digit span tests; Benton’s
visual retention form D. 10 children had a total IQ below average. In
case 8, a mild and non significant impairment in the long-term verbal
memory was detected as was minor attention deficit; this children also
had slight difficulties in the immediate auditive memory and in recent
memory. Literature shows that about 30–40% of DMD subjects are mentally
retarded. The non-progressive, cognitive deficit mainly affects verbal
abilities, therefore memory and language functions are the most severely
impaired; the scales of patients with DMD show low scores in verbal and
visuo-spatial memories, comprehension, arithmetic and vocabulary. The
present study was therefore aimed to assess, through a battery of
multisectorial tests, some neuropsychological functions and the presence
of sectorial defects in DMD. DMD alters not only psychomotor development,
but also neuropsychological disorders, causing dramatic changes in the
subject’s life.
64) Cognitive functions and associative sensory functions in patients with
Duchenne/Becker muscular dystrophy
G. Sella, L. Carmo Júnior and A. Godoy - Brazil
Duchenne/Becker muscular dystrophy patients (MDp) have a low amount of
the protein dystrophin. It is known that this protein is expressed in
skeletal muscle as well as in brain. There are several reports of
cognitive dysfunctions in MDp. We decided to evaluate intellectual as
well as associative sensory brain functions of those patients, comparing
them with normal subjects. Standardized tests were used: 2 series of
different colors were shown to the individuals, using a computer (power
point, microsoft program). They had 2 seconds to watch each color and
2 s to rest between the presentation of the series. Seven Duchenne MDp (DMDp),
3 Becker MDp (BMDp) and 10 healthy subjects (matched for age and level
of instruction) were selected. DMDp could remember the right sequence of
2.9 colors (out of 6) after the first test, BMDp 2.3 and controls 5.9.
As for the second test, DMDp recalled 1.3, BMDp 3.3 and controls 4.9. We
then showed to every subject one picture with many objects and persons.
They had 25 s to watch it. After that we asked them to tell us the
objects or persons they could recall. On average, DMDp were able to
remember of 6.3, BMDp 5.0 and controls 8.2. Our data suggest a severe
impairment of the ability to remember colors in sequence in muscular
dystrophy patients and a moderate one to recall objects from a scene.
Visual cortical associative areas, particularly visual memory areas for
colors could be damaged because of the low amount of brain dystrophin.
65) Muscle tissue engineering: Strategies for repair and regeneration in
human degenerative muscle diseases
M. Melone, A. Calarco, O. Petillo, M. D’Apolito, M. Tanzi, S. Faré and G. Peluso - Italy
Tissue engineering represents a possible approach to replace the lost
or defective muscle. The purpose of this study was to assess a new
scaffold design for muscle tissue engineering, by comparing the growth
of C2C12 mouse cells on different polymers. Polymeric substrata were
prepared with a soft lithography technique (replica molding) from three
different masters (a milled aluminium plate, a laser-processed alumina
sheet, and a microgrooved modeling paste mould obtained from a home-made
fibers array). Each master imprinted with an elastomeric material (Elastosil®
RT601 Wacker), was in turn used as a mould to prepare the microgrooved
polymeric substrata by solvent-casting. Polymer selected was a medical
grade biodegradable poly(l-lactic acid)/trimethylencarbonate
(PLLA/TMC 68:32, Boerhinger Ingelheim). Four different groups based on
fiber spacing (30–35, 50–55, 70–75, and 90–95 μm) were evaluated. We
compared 3-week growth of C2C12 cells cultured on scaffolds alone, or
supplementing the scaffold with two key cytokines involved in muscle
regeneration, bFGF(30 ± 120 pM) and HGF(70 ± 280 pM). Both methods
facilitated cell attachment, growth, and viability. The cells lined the
inner and outer surfaces of the scaffold, filling the pores, as
demonstrated by scanning electron microscopy and histology. BrdUrd
incorporation confirmed high levels of cellular proliferation. Yet, the
combination of both cytokines showed a strong synergistic stimulation of
C2C12 myoblast proliferation and chemotactic activity. After 21 days in
the HGF-treated samples large areas of well-formed and aligned myotube
fascicles were present which appeared to be more frequent than in the
scaffold-alone samples and to show higher expression of
differentiation-associated proteins. Our results show that the
combination of PLLA/TMC polymer as a vehicle for myoblasts and exogenous
HGF as a proliferative stimulator is a good candidate for the generation
of skeletal muscle in vitro.
66) Ex vivo expansion of human circulating CD133+ progenitor cells: Promising tool for cell-based therapeutic approaches in muscular dystrophy - Italy
The use of stem cells in regenerative medicine and cell-based therapies offers immense potential in diseases which have currently no treatment such as Duchenne muscular dystrophy. A possible limitation to the use of CD133+ for a therapeutic application is the relatively low number of cells that can be recovered from peripheral blood mononuclear cells. The goal of ex vivo expansion is to induce proliferation of CD133+ cells while maintaining their primary functional characteristic, namely, their ability to engraft and differentiate. In this work, we expanded in culture stem cells with different combinations of cytokines, to explore possibility of ex vivo expansion of CD133+ cells from peripheral blood. All experiments cultured with different combinations of cytokines supported the growth of CD133+ cells compared with the group without cytokines, but only a cocktail including SCF, bFGF, EGF, VEGF, LIF, TEPA, IL6 showed a significant expansion of stem cells in culture. In this condition we were able to expand the CD133+ cells for more than 50 passages over a 2-month period and we observed no indication of replicative senescence or significant changes in cellular division time during expansion period. Proliferating cells still had the capacity to form hematopoietic and endothelial colonies in semisolid media. Furthermore, we showed that expanded populations of CD133+ cells derived from blood maintain the capacity to differentiate into myogenic cells in vitro and in vivo. Human circulating CD133+ cells were also cultured at 5- or 20-percent oxygen in liquid culture in presence of the better cocktail of cytokines and we analysed and compared their expansion capacity and their vitality. The total number of cells increased 6-fold at 5-percent oxygen and could result in a better maintenance of the balance between primitive progenitor cell renewal and clonogenic progenitor expansion, thus representing a tool of remarkable therapeutic interest.
C. Marchesi,
M. Belicchi,
M. Meregalli,
A. Farini,
R. Lopa,
M. Gavina,
L. Porretti,
D. Parolini,
M. D’Angelo,
N. Bresolin,
G. Cossu
and Y. Torrente - Italy
The natural history of patients with Duchenne muscular dystrophy (DMD)
is characterized by a progressive impairment of muscle function
leading to death for cardio-pulmonary failure. In these patients there
is a clinical variability regarding age of onset, patterns of skeletal
muscle involvement, heart damage, and rate of progression. Most
therapeutic strategies for DMD have been palliative rather than
curative. Experimental treatments in DMD are difficult due to the
absence of reliable biomarkers that could be prognostic of the
progression of the disease or response to the treatment. Recent works
demonstrated that increased circulating endothelial progenitors
predict cardiovascular risk. We hypothesized that the levels of
circulating stem cells expressing the CD133 antigen which possess myo/endothelial
potential would predict the progression of DMD. The count of
circulating CD133+ stem cells was similar in DMD patients and healthy
subjects. However, we found a subpopulation of CD133+ stem cells also
expressing the CXCR4 receptor but not CD34 that was significantly
higher in DMD patients compared with healthy controls and positively
correlated with the clinical score. DMD patients exhibiting mild
phenotype had higher levels of this subpopulation of circulating CD133+
stem cells than patients exhibiting severe phenotype. Linear
regression analysis showed a direct correlation between the levels of
these cells and the clinical condition of the DMD patients. The
circulating AC133+CXCR4+CD34− cells isolated from DMD and healthy
subjects express early myogenic and endothelial markers in vitro
and differentiate into muscle and endothelial cells in vivo
after transplantation into dystrophic mice. Based on these data we
believe that the levels of a subpopulation of circulating CD133+ stem
cells in DMD patients may be a promising new prognostic clinical
marker of the progression of the disease with practical significance
to allow beneficial effects in future clinical trials.
68) Myogenic potential of human lipoaspirate cells
Y. Park, S. Im, E. Lee, B. Do and J. Moon - Korea
Stem cell therapy has been extensively studied as a gene
complementation approach in such genetic diseases as Duchenne
muscular dystrophy (DMD). Adipose tissue has recently been
identified as an alternative, uniquely abundant and accessible
source of pluripotent cells. In the present work we investigated
myogenic potentials of adipose tissue-derived stem cells (ATDSCs) as
mesenchymal stem cells (MSCs). Human lipoaspirate cells were
obtained by liposuction and cultured in three different media:
growth, myogenic and conditioned media. The following observation
was made to evaluate differentiation with using immunoflourescence
study and western blot. Conversion of ATDSCs to a myogenic phenotype
is observed by indirect immunoflourescence study of MyoD and Myf-5
in regardless of media type. However, secondary myogenic regulatory
factors (Myf-6 and myogenin) and desmin are negative in all
different culture conditions. Our findings suggest that human
adipose-tissue-derived cells might have a mesenchymal stem cell
population and myogenic potentials. Since human adipose tissue is
plentiful, easily harvested in large quantity under local anesthesia
with little patient discomfort, it may be an alternative cell
therapy for DMD patients.
69) Human multipotent adipose derived stem cells restore dystrophin expression of Duchenne skeletal muscle cells in vitro
N. Vieira, M. Mitne, E. Zucconi, T. Jazedje, V. Nunes, B. Strauss, M. Vainzof and M. Zatz - Brazil
Duchenne muscular dystrophy (DMD) is a devastating X-linked disorder
characterized by progressive muscle degeneration and weakness for
which there is currently no cure. The possibility of replacing the
defective muscle through cell therapy is being pursued as a future
treatment for DMD or other forms of muscular dystrophies.
Mesenchymal stem cells, which can be found in different tissues,
such as cord blood and fat, have the potential to differentiate to a
myogenic phenotype in vitro upon the addition of specific
inductive media. Since human liposuctioned fat is available in large
quantities, it may be an ideal source of stem cells for therapeutic
applications. However, the ability of these cells to interact with
human dystrophic muscle cells, respond to a myogenic environment and
repair the expression of the deficient protein is still unknown.
Here, we observed that human multipotent adipose-derived stem (hMADS)
cells when co-cultured with primary DMD myoblasts, using myoblast
differentiation media, fuse and generate dystrophin positive
skeletal myotubes. We also showed that hMADS cells plated on top of
DMD myotubes differentiate into muscle cells and reestablished
dystrophin expression. However, further in vivo studies,
which are currently underway, will be essential for identifying the
factors determining their definitive myogenic differentiation and
“homing” as well as clinical effects before any therapeutic trial in
DMD patients. The possibility to use adipose tissue as a source for
stem cell therapies for different muscular diseases is extremely
exciting.
70) Are we any further in the treatment of muscular dystrophies?
F. Muntoni - United Kingdom
It is an exciting time for clinical scientists involved in
translational research for Duchenne muscular dystrophy (DMD). The
better understanding of the molecular events leading to muscle
degeneration in DMD, coupled with advances in the characterization
of stem cell diversity, improvement in the delivery to muscle of
viral vectors or antisense oligomers, and of pharmacological agents
able to induce targeted transcription of genes, or force the
translation machinery to ignore premature termination codons, is
leading to a number of early clinical trials. One of the
difficulties is that each of these approaches has limitations and
while considerable preclinical research is being devoted to resolve
problems and improve efficiency, they are often proposed, and
perceived as being “the cure” for DMD. In addition, the cost of
development for these experimental approaches is often astronomical
and private and public investments are significantly stretched to
pursue these studies, with the added pressure of financial risk and
return. The challenge that we face in dealing with DMD and other
muscular dystrophies is therefore that of pursuing these early
clinical trials, while performing parallel preclinical studies so
that these approaches can be improved further, and at the same time
provide a balanced appraisal of the advances in the field to our
colleagues and patients. In this presentation I will provide my
evaluation of where we are with the ongoing and planned experimental
studies in Duchenne muscular dystrophy, bearing in mind the issues
mentioned above.
71) Functional evaluation of dystrophic dogs treated by exon-skipping
I. Barthélémy, J. Thibaud, A. Vulin, D. Bertoldi, A. Goyenvalle, S. Lorrain, P. Dreyfus, P. Carlier, L. Garcia and S. Blot - France
DMD is an X-linked recessive disorder due to mutations in the
dystrophin gene, most of them being large deletions leading to out
of frame transcripts. About 80% of the out-of-frame mutations could
theoretically be rescued after restoring the translational frame by
using exon skipping strategies. The GRMD dog, a large model of DMD,
presents a punctual mutation in the acceptor splice site of the
dystrophin gene’s intron 6, leading to the out of frame elimination
of exon 7. We had already improved the dramatic efficacy of the AAV2/1
U7smOPT ESE6 & ESE8 to induce the skipping of exons 6, 7 and 8
allowing production of an in-frame mRNA, to transduce myofibers and
to restore at their level expression of a quasi-dystrophin.
Functionality of quasi-dystrophin had been demonstrated at the
histological scale by restoring the dystrophin associated protein
complex, and stopping spontaneous muscle damages. To assess muscle
function improvement, we have injected intramuscularly GRMD dogs at
the age of 3 weeks in the whole hind limbs anterior compartment with
a total dose of 3,5.1012 vg. After two months, normal levels of
quasi-dystrophin were recovered throughout the treated muscles. NMR
imaging of both hindlimbs was performed at 3T before and after
intravenous bolus of Gadolinium-DTPA. Maximal relative enhancement,
a parameter we have found to be significantly lower in healthy than
in GRMD dogs, was shown to be lower in treated limbs. Functional
recovery was assessed by measuring the tetanic force of treated vs
untreated muscles after maximal stimulation of the common peroneal
nerve. Since tetanic force values were identical for both legs in
healthy and control GRMD dogs, they were improved by a factor of 1,6
and 1,4 in treated compared to contralateral untreated legs. Our
results point up muscle function recovery after multi exon skipping
gene therapy in a large size animal model that recapitulates the
main phenotypic features of DMD. These data give all its sense to
our strategy and are milestones in perspectives of generalization of
the administration.
72) Systemic delivery of morpholino oligonucleotides to skip mutations in the dystrophin gene of the mouse and dog
T. Partridge, T. Yokota, Q. Lu, E. Hoffman, J. Alter, S. Takeda, M. Kobayashi and A. Nakamura - United States, United Kingdom and Japan
Duchenne muscular dystrophy is caused by null mutations in the X-linked
dystrophin gene. This gene encodes a 427 KDa peptide whose two major
functional domains lie towards the two ends of the molecule. At the
N-terminus lie two ?-actin binding regions while the C-terminal
portion mediates assembly of a large complex of transmembrane and
submembrane proteins. These are linked by a rod domain of
spectrin-like repeats which appears to be less functionally
important. Since most DMD mutations occur within this rod region
there is a prospect of skipping exons in this region of the
transcript such as to restore an open reading frame that can be
translated into a truncated protein bearing the major functional
domains. This principle has been validated in the mdx mouse model of
DMD which bears a nonsense mutation in exon 23. Antisense
oligonucleotide (ASO) analogues with sequences complementary to
sites implicated in splicing of this exon cause skipping of exon 23
and synthesis of substantial amounts of near-normal dystrophin in
skeletal muscle of the mdx mouse. Of the various oligonucleotide
chemistries, those based on a morpholino backbone appear to be the
most effective in vivo and, importantly, has been shown to be
deliverable to widespread muscles by intravenous injection. Recently,
we have begun applying this approach to the dystrophic GRMD dog in
which a splice acceptor site mutation excludes exon 7 and disrupts
the open reading frame of the transcript. Restoration of open
reading frame entails skipping at least 2 adjacent exons. Repeated
intravenous infusions into one dog of morpholino cocktails designed
to achieve such skipping were well tolerated and induced production
of dystrophin in widespread muscles. This treatment appeared to
prevent decline of mobility. This, and data on two further dogs
currently being treated will be reported.