Resumos que serão apresentados no 57o Encontro Anual da Academia Americana de Neurologia que se realizará em Miami de 9 a 16 de abril de 2005.
Distrofia Muscular de Duchenne
Characterization of PTC124 Activity, Specificity,
and Mechanism of Action for Nonsense Mutation Suppression
E. M. Welch, J. Zhuo, Y. Tomizawa, W. Friesen, A. Branstrom, S.
Hwang, J. Babiak, L. L. Miller, S. W. Peltz, South Plainfield, NJ
OBJECTIVE: To characterize the suppression of nonsense mutations by
PTC124. BACKGROUND: 15% of patients with Duchenne muscular dystrophy have
disease due to a nonsense mutation. Aminoglycosides can suppress the effects of
a nonsense mutation but are limited by toxicity and need for IV administration.
PTC124 is a new drug that may offer a safer, nonantibiotic approach for
promoting ribosomal readthrough of nonsense mutations. DESIGN/METHODS:
PTC124-induced readthrough was assessed in HEK293 cells transfected with a
luciferase gene harboring a premature stop codon at threonine 190, replacing ACA
with a UAA, UAG, or UGA (reporter system). mRNA translation was assessed in a
cell-free translation assay using the reporter luciferase RNA with a HeLa
cytoplasmic extract. mRNA turnover was assessed in a real-time, quantitative,
RT-PCR assay of reporter system cells. Coomassie-Blue-stained 2-D gels of
reporter system cell extracts evaluated nonspecific ribosomal readthrough
activity. Antibacterial assays determined if PTC124 had antibiotic activity.
HeLa cell ribosomes were treated with PTC124-like compounds and dimethyl sulfate
or kethoxal before primer extension analysis in RNA footprinting experiments.
RESULTS: Time-course/washout experiments showed onset of PTC124 nonsense
suppression within
2
hr, maximal activity by
20
hr, and, after drug removal, loss of activity by 6 hr. PTC124 activity was
stop-codon-type- and concentration-dependent. At 20 hr, maximal readthrough
activity over control was
12-fold
(UGA),
4-fold
(UAG), and
2-fold
(UAA). With each codon type, readthrough was discernable at
0.1
μM and maximal at
1.0
μM. Gentamicin was less potent, requiring concentrations >100 μM for activity.
PTC124 efficacy was unaltered by a 5-50% range of FBS concentrations, suggesting
that drug-protein binding is not activity-limiting. In a cell-free translation
system, 1 μM of PTC124 for 4 hr achieved maximal chemoluminescence over control
of
18-fold
(UGA),
5-fold
(UAG), and4-fold
(UAA). In cells treated with 30 μM for 48 hr, RT-PCR revealed luciferase mRNA
was not increased over control, confirming the translation-specific action of
PTC124. Activity was confined to nonsense mutations and not normal stop codons;
2-D gel analysis after 5 μM of PTC124 for 48 hr revealed a 62-kDa, pI-5.58 band
consistent with full-length luciferase but no protein elongation due to
ribosomal readthrough of normal stop codons. Nonsense suppression activity was
separable from antimicrobial activity; PTC124 at 880 μM showed no antimicrobial
activity against 6 strains of logarithmically growing gram+ and - bacteria. PTC
compounds induced changes in the chemical footprinting pattern on conserved
sites of the large rRNA that modulate nonsense suppression activity in
prokaryotic systems; these are distinct from the small rRNA sites bound by
aminoglycosides. CONCLUSIONS: These data document the potency,
specificity, and mechanism of action of PTC124 for nonsense mutation suppression
and suggest target plasma concentrations to be achieved in clinical studies.
PTC124 Nonsense Mutation Suppression Therapy of
Duchenne Muscular Dystrophy (DMD)
E. Barton, M. Zadel, E. Welch, C. Trotta, S. Paushkin, M. Patel, J.
Zhuo, Y. Tomizawa, M. Weetall, V. Northcutt, J. Babiak, L. Miller, South
Plainfield, NJ, L. Sweeney, Philadelphia, PA
OBJECTIVE: To evaluate PTC124 efficacy in the mdx model of DMD (mice
have a nonsense mutation in the dystrophin gene) and document PTC124 specificity.
BACKGROUND: Nonsense mutations in the dystrophin gene cause 15% of cases
of DMD. PTC124 is a small molecule that induces ribosomes to read through
nonsense-mutation-containing mRNA and may offer a new oral therapy for such
patients. DESIGN/METHODS: PTC124 was mixed with food for 8 weeks in
efficacy studies. Groups (5-10 mice/group) were untreated mdx mice,
treated mdx mice (PTC124 0.9 mg/mL and 1.8 mg/mL), and untreated
wild-type C57 mice. Endpoints were PTC124 plasma concentrations, dystrophin
immunofluorescence in tibialis anterior muscle, specific force in extensor
digitorum longus (EDL), decrease in EDL force after 5 eccentric contractions,
and serum creatine kinase. Unpaired t-tests compared treated with untreated
mdx mice. Western blotting of high-abundance proteins in tissues (heart,
kidney, liver, lung, small intestine, salivary glands, thymus, white cells) from
rats and dogs given oral PTC124 at ≥1500 mg/kg for 14 days evaluated whether
PTC124 induced protein elongation due to nonspecific readthrough of normal stop
codons. RESULTS: PTC124 plasma concentrations at 8 weeks (mean [±SE] mcg/mL)
were similar at both PTC124 dose levels: 0.9 mg/mL (1.85 [0.54]) and 1.8 mg/mL
(1.03 [0.25]){p=.16}. Dystrophin was absent in untreated mdx mice, was
restored similarly by PTC124 at both dose levels, and was present in wild-type
mice. PTC124 partially improved EDL specific force (mean [±SE] N/cm2):
untreated mdx (17.75 [0.65]), PTC124 0.9 mg/mL mdx (19.99
[0.63]){p=0.03}, PTC124 1.8 mg/mL mdx (19.18 [0.68]){p=0.16}although not
to wild-type levels (22.44 [1.03]). PTC124 partially prevented EDL eccentric
contraction injury (mean [±SE] % decrease in force): untreated mdx (42
[2]), PTC124 0.9 mg/mL mdx (19 [3]){p<0.001}, PTC124 1.8 mg/mL mdx
(25 [3]){p<0.001}, and wild-type (11 [2]). PTC124 reduced serum creatine kinase
(mean [±SE] IU/mL): untreated mdx (1654 [360]), PTC124 0.9 mg/mL mdx
(858 [169]) {p=0.07}, PTC124 1.8 mg/mL mdx (848 [83]){p=0.04}, and
wild-type (169 [86]). Western blots of proteins from rats (vimentin, a-actin, U1
snRNP A, and cofilin) and dogs (GAPDH, b-actin, and cofilin) evaluating each
stop codon type (UGA, UAA, and UAG) showed no protein elongation in any tissue
that would suggest that PTC124 induced changes in ribosomal readthrough of
normal stop codons. CONCLUSIONS: Collectively, these preclinical efficacy
and specificity data support the clinical development of PTC124 for
nonsense-mutation-mediated DMD. Supported by: Study supported in part by PTC
Therapeutics, Inc.
Phase 1 Multiple-Dose Safety and PK Study of
PTC124 for Nonsense Mutation Suppression Therapy of Duchenne Musuclar Dystrophy
(DMD)
S. Hirawat, V. J. Northcutt, E. M. Welch, G. L. Elfring, S. Hwang,
N. G. Almstead, W. Ju, L. L. Miller, South Plainfield, NJ
OBJECTIVE: To assess the safety, PK, palatability, and nonspecific stop
codon readthrough effects of multiple sequential doses of orally administered
PTC124. BACKGROUND: PTC124 is a novel, orally bioavailable, nonantibiotic,
small molecule that promotes ribosomal readthrough of mRNA containing a nonsense
mutation (premature stop codon) and has the potential to restore dystrophin in
patients with nonsense-mutation-mediated DMD. PTC124 induces production of
full-length dystrophin and decreases muscle injury in mdx mice harboring
a nonsense mutation in the dystrophin gene. Toxicology studies demonstrate that
the drug is well tolerated in rats and dogs at doses ≥1500 mg/kg, shows no
evidence of genotoxicity, does not induce QT-interval prolongation, and does not
undergo extensive metabolism. In a Phase 1 single-dose study in healthy young
adult volunteers, PTC124 safely achieved plasma concentrations that have been
shown to be pharmacologically active in mdx myocyte cultures and in
mdx mice. DESIGN/METHODS: This Phase 1 escalating multiple-dose study
in healthy young adult volunteers is a prelude to studies in patients with DMD.
The study will be conducted in 2 stages: in Stage 1, escalating doses of PTC124
will be administered over 7 days; in Stage 2, a PTC124 dose selected from Stage
1 will be administered over 14 days.
In Stage 1, 24 subjects (3 males, 3 females per cohort) are to receive PTC124
administered at 4 progressively higher dose levels in a dose-escalation design.
The starting dosing regimen of 10 mg/kg BID with meals is based on the Phase 1
single-dose study and 28-day toxicology data. Subsequent dose levels will be
based on safety and PK data obtained at each prior dose level. During each 7-day
dosing, subjects will be followed with clinical observations, evaluations of
safety and palatability, plasma sampling for PK analysis, and white blood cell
collections for Western blotting to evaluate the hypothetical potential for
protein elongation due to nonspecific normal stop codon readthrough. In Stage 2,
6 additional subjects (3 males, 3 females) are to receive PTC124 BID for 14 days
at the highest safe dose derived from Stage 1. These subjects will be followed
with clinical observations, safety laboratory testing, and plasma sampling to
determine the safety and PK of PTC124 when given continuously for 2 weeks.
RESULTS: Preliminary data from the first dose level of 10 mg/kg given BID
for 7 days suggest that the drug is well tolerated and maintains target plasma
concentrations of ≥10 μg/mL for >6 hr per day. Further study accrual and dose
escalation is ongoing. CONCLUSIONS: Prior to the AAN meeting, the study
will have completed all subject accrual and follow-up. Complete data on subject
characteristics, dose ranging, safety, PK, palatability, and Western blotting
analyses will be available for presentation. Results from this study will
provide important safety information and will refine the PK model that will be
used to project an appropriate dosing regimen for subsequent Phase 2 studies in
patients with DMD.
Deflazacort Treatment in DMD Symptomatic Carriers
Alberto L. Dubrovsky, Laura N. Pirra, Andrea Lautre, Ana Lia
Taratuto, Lilia Mesa, Jose Corderi, Buenos Aires, Argentina
OBJECTIVE: Some females carrying a mutation in the dystrophin gene can
develop significant progressive motor disability with muscle weakness (Duchenne
Muscular Dystrophy symptomatic carriers, DMDSC).
There is enough evidence in the literature to conclude that steroids, Prednisone
or Deflazacort (Df), are effective in slowing the progressive muscle weakness
that characterizes DMD.
However the effects of this medication in DMDSC has not been reported.
BACKGROUND: Report the short term results of Df treatment in three cases of
DMDSC. DESIGN/METHODS: Three DMDSC 56, 34 and 16 years old in which
diagnosis was confirmed by muscle biopsy and/or DNA analysis were treated with
Df in doses between 0.5 and 0.7 mg/Kg. All three cases presented with
progressive severe muscle weakness and disability.
Clinical evaluation included manual muscle testing (MMT), timed and functional
tests and an auto evaluation scale (0 worst, 1 same, 2 better, 3 much better).
Assessments were performed between 2 and 6 months after treatment was initiated.
Steroids unwanted effects were monitored in each patient. RESULTS: All
three patients showed marked improvement albeit of a different degree in each
case.
Timed Gowers sign and time to walk 10 meters showed the most significant
improvement. One of the patients recovered the ability to rise from the floor.
No change was detected in the MMT. Functional score (modified Scott score) also
showed improvement. Auto evaluation scale was qualified as 2 (two cases) and 3 (one
case)
No significant unwanted effects derived from medication developed in any of the
cases. CONCLUSIONS: These cases suggest that steroid treatment might be
beneficial in DMDSC.
In selected cases of DMDSC, Deflazacort treatment should be considered.
A larger trial is needed in order to confirm these findings and to define the
appropriate dose as well as to establish the criteria for starting treatment.
Improved DEXA Methodology for Bone Mass Assessment
in Boys with Duchenne Muscular Dystrophy
Wendy M. King, John T. Kissel, John D. Landoll, Howard S. Barden,
Madison, WI, Velimir Matkovic, Columbus, OH
OBJECTIVE: To determine the most accurate method of assessing overall
bone status in boys with Duchenne muscular dystrophy (DMD) for optimal
assessment of fracture risk. BACKGROUND: Although dual-energy x-ray
absorptiometry (DEXA) has become the gold standard for the assessment of bone
mass in children, the two-dimensional (areal) measurement of bone mineral
density (BD, g/cm2) currently used in DEXA is heavily influenced by
bone size. We utilized new software that improves the assessment of bone status
in children by including consideration of height for age, bone mineral content
(BMC) for area, and bone area for height. We examined the value of including
these body size ratios in BD determinations in boys with DMD. We also examined
the role of the skull in total body BD in growing children. DESIGN/METHODS:
We assessed bone status using DEXA (Lunar Prodigy) with experimental
software in 22 DMD patients age 6-17 years (mean 11.5 years). Boys were
evaluated for total body BD as a function of age (routine DEXA). This value was
then compared to total body BMC as a function of bone area, height as a function
of age, and total body bone area as function of height using Z-scores developed
from 267 normal boys. Z-score equations were also developed for total body
regional sites (head, arms, legs, trunk). All Z-scores, with the exception of
height as a function of age, were calculated using male children from the Lunar
pediatric reference population (mean 11.6 years). Height for age Z-scores were
calculated using normal data from the USA Center for Disease Control. Both boys
on steroids and steroid naive boys were included in the analysis. RESULTS:
Although boys with DMD had a mean deficit in total body BD by standard DEXA
compared to controls (Z=-1.2), this could be attributed to their moderately
short stature (height for age Z=-1.2) and profoundly small, narrow bones (bone
area for height Z=-2.8). Taking these size ratios into account, the boys had
normal total body bone mineralization (BMC for bone area Z=0.04) [p<0.05].
Regionally, only the trunk showed a deficit in BMC for area (Z=-2.0).
Subtracting the head from total body calculations produced further significant
reductions in Z scores (less dense bones) for BD for age and BMC for area (p<0.001).
Z scores for BD for age, height for age, and BMC as a function of area decreased
in older subjects. CONCLUSIONS: Overall bone status in boys with DMD can
most accurately be assessed by using DEXA technology that accounts for skeletal
size rather than chronological age alone and excludes the assessment of the
skull. This is particularly important for boys on corticosteroids. Such
methodologies should improve our abilities to diagnose and treat reduced bone
mass in boys with DMD.
Full Length-Utrophin-Expressing Gutted Adenovirus
as an Ideal Therapeutic Agent for Duchenne Muscular Dystrophy
Jatinderpal R. Deol, Renald Gilbert, Joon-Shik Moon, Seoul, Korea,
Mylene Bourget, Josephine Nalbantoglu, George Karpati, Montreal, QC, Canada
OBJECTIVE: To construct a fully deleted (“gutted”) adenovirus (AdV)
capable of high expression levels of full-length utrophin (utr) in dystrophin (dys)-
deficient muscle fibers. BACKGROUND: Duchenne muscular dystrophy (DMD) is
characterized by a mutation in the gene encoding a sarcolemmal protein, dys and
the deficiency of dys leads to progressive loss of muscle fibers. Gene
replacement therapy using fully deleted AdV vectors shows great potential for
the treatment of DMD. These vectors are less immunogenic than their predecessors
and have the capacity of carrying large DNA inserts such as the full-length dys
cDNA (13 kb). The use of fully deleted AdV vectors encoding full-length dys
leads to significant improvement of the dystrophic phenotype of the mdx
mouse, an animal model of DMD. However, dys behaves as a neoantigen in genetic
dys deficiency states such as the mdx mouse and it causes immune
responses in the treated muscles. An alternative approach would be to use utr, a
functional homologue of dys, which is normally present only at the sarcolemma of
the neuromuscular and myotendinous junctions. Therefore, utr is not expected to
behave as a neoantigen in dys-deficient states. In fact, transgenic mdx
mice expressing extrasynaptic utr in muscle fibers have shown a near total cure
of their dystrophy. Thus, in an attempt to minimize the vector immunogenicity
and to harness the therapeutic potential of utr, we proceeded to create a fully
deleted AdV encoding full-length utrophin. DESIGN/METHODS: The expression
cassette contains the full-length murine utr cDNA regulated by a hybrid promoter
consisting of the chicken β-actin promoter and CMV enhancer. Plasmid, containing
this cassette, was used to transfect and subsequently amplify the AdV of
interest in a complementing cell line. Due to concerns regarding AdV vector size
and their proper packaging, three different AdV vectors were constructed. The
purified recombinant adenoviruses were tested in vitro by western blot
and subsequently injected into neonate and adult mdx mice for in vivo
evaluation. The mice will be euthanized at 10, 30, 90, 180, and 360 days
post-injection and their injected muscles will be examined for utrophin
expression, the restoration of the dystrophin-associated protein complex, and
the reversal of the physiological dystrophic phenotype. RESULTS: Western
blot analysis has shown adequate utrophin expression levels from in vitro
studies involving early passages of two of the recombinant adenoviruses. In
addition, the presence of viral DNA, isolated by HIRT extraction, has been
detected by southern blots. Large scale production of all three utr-expressing
AdV vectors is underway to continue the in vivo characterization of the
therapeutic affects of utrophin expression vectors in mdx muscles.
CONCLUSIONS: Helper-dependent, fully deleted (gutted) AdV expressing full
length utrophin promises to be the ideal agent for gene replacement therapy in
dys-deficiency states. Supported by: Canadian Institutes of Health Research.
Temporal and Spatial Expression Patterns of TGF-B1, 2, 3 and TGFBRI, II,
III in Skeletal Muscles of Mdx Mice
Lan Zhou, John D. Porter, Betheda, MD, Georgiana Cheng, Bendi Gong,
Denis Hatala, Anita Merriam, Xiaohua Zhou, Jill Rafael-Fortney, Columbus, OH,
Henry Kaminski, Cleveland, OH
OBJECTIVE: To determine the temporal and spatial mRNA expression patterns
of TGF-B1, 2, and 3 and their receptors in the quadriceps and diaphragm muscles
of mdx mice. BACKGROUND: TGF-B1 is a multifunctional cytokine,
regulating inflammation and fibrosis, which may play a role in the secondary
pathogenesis of Duchenne muscular dystrophy (DMD). Expression of TGF-B1 is
upregulated in skeletal muscles from DMD patients and DMD animal models. However,
the temporal and spatial expression patterns of TGF-B1 and other TGF-B subfamily
members, TGF-B2 and TGF-B3, as well as their receptors, and the correlation of
their expression patterns with muscle inflammation and fibrosis, have not been
well studied in mdx mice, a DMD mouse model. DESIGN/METHODS: We
studied temporal mRNA expression of TGF-B1, 2, 3 and TGFBRI, II, III by
quantitative RT-PCR, and the spatial expression patterns of TGF-B1 and TGFBRII
by in situ hybridization in quadriceps and diaphragm of mdx and normal
mice at age 3 weeks, 8 weeks, and 8 months. We assessed the muscle inflammation
by immunostaining using an F4/80 antibody to identify macrophages and assessed
fibrosis by immunostaining using a collagen III antibody. RESULTS: At age
3 weeks, inflammation was evident in mdx diaphragm and quadriceps, but
more prominent by 8 weeks. By 8 months, only scattered macrophage infiltration
was seen, but significant fibrosis had developed in mdx diaphragm but not
in quadriceps. At age 3 weeks, the mRNA levels of TGF-B1, 2, 3 and TGFBRI, II,
III were no different in mdx quadriceps and diaphragm as compared to
controls, but by 8 weeks, coincident with inflammation becoming more prominent
in both muscles, TGF-B1 mRNA expression was markedly increased in the mdx
quadriceps (8.4-fold) and to a lesser degree in diaphragm (2.5-fold). Elevations
in mRNA levels of TGF-B2 were modest (<2-fold) in both muscles. TGF-B3 was
increased 2.3-fold only in mdx diaphragm. Gene transcripts of TGF-B
receptors were slightly increased in both mdx muscles. At age 8 months,
TGF-B1 mRNA was increased 4-fold in mdx quadriceps but not significantly
increased in diaphragm. TGF-B2, TGF-B3, and TGF-B receptors were not
significantly different at this stage. In situ hybridization confirmed higher
levels of TGF-B1 mRNA in mdx muscles, being most prominent at age 8 weeks,
and localized to the regenerating fibers and endomysial inflammatory cells.
TGF-BRII mRNA showed a similar pattern of expression. CONCLUSIONS: The
results strongly support a role for TGF-B1 in the pathogenesis of inflammation
in mdx muscles. TGF-B1 is known to be a key pro-fibrotic cytokine;
however, higher levels of TGF-B1 mRNA were identified in quadriceps. Therefore,
mdx leg muscles may have properties that protect fibrosis, or
alternatively, diaphragm may be particularly susceptible to development of
fibrosis. Such variations could contribute an explanation to the differential
involvement of muscle groups by muscular dystrophies. Supported by: Supported by
R24 EY014837, R01 EY015306, and Alyce J. and Ann J. Metka Foundation.
Somatic Mosaicism in a DMD Carrier Detected by Use
of Direct Sequence (SCAIP) Analysis
Karin M. Dent, Diane M. Dunn, Andrew C. von Niederhausern, Alex
Aoyagi, Brett Duvall, Lynn Kerr, Therese Tuohy, T. H. Bui, Stockholm, Sweden,
Robert B. Weiss, Kevin M. Flanigan, Salt Lake City, UT
OBJECTIVE: To describe the use of Single Condition Amplification/Internal
Primer (SCAIP) methodology—a robust, rapid, and economical method of direct
sequence analysis—in detecting a somatic mosaic carrier state for DMD.
BACKGROUND: Duchenne muscular dystrophy (DMD) is an inherited disease of
muscle caused by mutations in the DMD gene (MIM 300377). Approximately
60% of DMD patients have deletions of one or more exons, about 30% have point
mutations, and less than 10% have duplications. SCAIP readily detects point
mutations in carriers, but somatic mosaic detection by this method has not been
reported. DESIGN/METHODS: Blood samples were obtained from a DMD patient
and his mother. DMD in the patient was confirmed by clinical course and a muscle
biopsy demonstrating a lack of dystrophin by immunohistochemical staining. There
was no family history of DMD. The mother had no muscle symptoms, and had
undergone a muscle biopsy that was normal including dystrophin
immunohistochemistry studies. Genomic DNA was extracted from blood by standard
techniques, and SCAIP analysis was performed as described (Flanigan et al.,
AJHG 2002). RESULTS: No DMD deletion was identified by
multiplex PCR. SCAIP analysis identified a premature stop mutation in exon 12 in
the boy's DNA sample (c.1465C>T, resulting in a Gln489X premature stop codon).
However, direct sequencing of exon 12 in the mother identified a strong C peak
and a minor T peak in both forward and reverse sequence reads. To determine the
frequency of the C and T alleles, the exon 12 PCR product from the mother's
amplification was cloned into vector PCR 2.1 using a TA cloning system (Invitrogen)
and transformed into XL-1 cells. One hundred clones were sequenced; eighty-five
(85%) were found to be the C allele, while 15% were the T allele, consistent
with somatic mosaicism for this mutation. CONCLUSIONS: Discussion: The
availability of SCAIP sequence analysis of DMD permits the economical and
rapid identification of mutations that were previously difficult to detect, such
as premature stop codon and small frameshifting mutations. The high sensitivity
of heterozygote detection can be combined with TA cloning techniques as a
semi-quantitative measure of somatic mosaicism. Our method facilitates
determination of carrier status and somatic mosaicism, enabling more accurate
genetic counseling regarding recurrence risk in somatic mosaic DMD carriers.
Supported by: NIH/NINDS
“Becker-Type” Dysferlinopathy
Michael Sinnreich, Christian Therrien, George Karpati, Montreal, QC,
Canada
OBJECTIVE: To describe clinical, biochemical and molecular findings in a
family affected by a newly identified in-frame exon skipping mutation in the
dysferlin gene giving rise to a shortened dysferlin molecule with milder disease
phenotype. BACKGROUND: Dysferlin is the protein product of the gene that
is defective in patients with limb girdle muscular dystrophy type 2B (LGMD2B)
and Miyoshi Myopathy. Reports of genotype/phenotype correlations in patients
with dysferlinopathies are lacking. Shortened dysferlin molecules which arise
due to in-frame exon skipping mutations and which have residual biological
activity to convey a milder disease phenotype, analogous to “Becker-type”
dystrophinopathies, have not so far been described in patients with
dysferlinopathies. DESIGN/METHODS: A woman presented in her fourth decade
with a mild limb girdle muscular weakness and remained ambulatory at her current
age of 75. Two of her daughters, currently in their fourth decade were severely
affected by a disabling limb girdle muscular weakness with onset in their teens
and were wheelchair dependent since their early thirties. Muscle biopsies of
these three patients were processed for histological, biochemical and molecular
analysis. Western blots were probed for dysferlin. Mutational analysis of the
dysferlin gene was performed on reverse transcribed RNA isolated from skeletal
muscle. RESULTS: On clinical examination the ambulatory mother had only
moderate proximal weakness in upper and lower extremities. Both wheelchair
dependent daughters had severe generalized weakness. Their father was clinically
unaffected. Skeletal muscle histology showed a dystrophic pattern in all three
patients. Mutational analysis revealed homozygozity for a null allele in both
daughters due to a complex mutation [(4872delG) and (4876G→C)]; both parents
were heterozygous for this allele. The mother harbored an additional in-frame
splice mutation with skipping of exon 32, likely due to an identified A→G
substitution of the putative branch point nucleotide at position 3443-32 in
intron 31. This mutation partially deletes dysferlin's C2D domain. While Western
blot showed absence of any dysferlin immunoreactivity in skeletal muscle of both
daughters, the mother's skeletal muscle harbored reduced levels of a shortened
dysferlin protein, possibly retaining sufficient biological activity to account
for her significantly milder phenotype. CONCLUSIONS: We report on a
mildly affected LGMD2B patient with one dysferlin null allele and one in-frame
exon skipping allele. The in-frame skipping of dysferlin's exon 32 is likely due
to a mutation of the branch point nucleotide in intron 31 that is implicated in
RNA lariat formation. Despite partial deletion of dysferlin's C2D domain, the
shortened dysferlin protein appears to retain sufficient biological activity to
account for a significantly milder disease phenotype in the compound
heterozygous mother, as compared to her two severely affected homozygous,
dysferlin null, daughters. In vitro experiments with recombinant mini-genes are
currently ongoing to demonstrate the implication of the putative intronic branch
point nucleotide mutation in skipping of exon 32.
Regulation of the Utrophin Gene through the Use of
Artificial Zinc Finger Proteins
Yifan Lu, George Karpati, Josephine Nalbantoglu, Montreal, QC,
Canada
OBJECTIVE: To pursue transcriptional regulation of the utrophin (utr)
gene through the targeting of artificial transcription factors to activate the
utrophin A promoter in a constitutive manner (i.e. without need for the
sustained presence of neural factors). BACKGROUND: Utr is a structural
and functional homologue of dystrophin. In normal mature muscle fibers, utr is
only present at the surface membrane of the neuromuscular and myotendinous
junctions. Utr is anchored to the sarcolemma by the same molecular elements as
dystrophin. From the high degree of homology between dys and utr, it is
anticipated that if a sufficient amount of utr would be accumulated and
maintained in the extrasynaptic sarcolemma, dystrophin deficiency would not have
deleterious effects on muscle fibers. To upregulate the utr promoter we have
chosen to use articficial zinc finger proteins (ZFPs) as transcription factors.
DESIGN/METHODS: The Utr A promoter is a TATA-less promoter with a GC-rich
5' upstream area, being located within a CpG island. DNAse I mapping of the
proximal 5' sequences of the utrophin A promoter revealed several DNAse I
accessible sites, suggesting that these regions might provide good targets for
ZFPs. Four GC-rich sequences were chosen and the appropriate ZFPs were designed
based on the recognition modules described by Liu et al.(J Biol Chem, 2002,
277:3850). The modules were linked by the five residue linkers (TGEKP) that are
conserved in many naturally occurring multi-finger domain proteins. These DNA
binding domains were linked to an activation domain provided by the VP16 protein
of herpes simplex virus, tagged with the Flag epitope for convenience of
monitoring ZFP expression and a nuclear localization signal (NLS) to ensure
nuclear trafficking. In subsequent experiments these ZFPs were compared to the
previously described ZFP that activated utrophin (labeled Jazz). The ability of
each ZFP to activate a reporter gene (luciferase) driven by the utrophin A
promoter was assessed by transient transfection assays in 4 different cell lines
(cos-1, NIH 3T3 fibroblasts, human embryonic kidney 293 cells, and mouse C2C12
myoblasts). The specificity of DNA binding was determined by electrophoretic
mobility shift assay. The ability of the ZFP to activate the endogenous utr
promoter in C2C12 cells was determined by stable transfection followed by
quantitation of utr mRNA by Real-Time RT-PCR and Western blotting for utr
protein. RESULTS: In reporter assays, one of the designed ZFPs (ZFP51)
performed better than all the other ones, including the published one (Jazz).
ZFP51 bound its recognition sequence with good specificity as determined by
electrophoretic mobility shift assay. Furthermore, C2C12 cells stably
transfected with ZFP51 expressed higher levels of utrophin mRNA as well as
protein by Western blot analysis (on average ~3.5-fold increase as normalized to
actin). CONCLUSIONS: Artificial ZFPs may provide a convenient way of
upregulating endogenous utr promoter and could be used therapeutically in
dystrophin deficiency. Supported by: Canadian Institutes of Health Research and
Muscular Dystrophy Association (USA)
Distrofia Miotônica
Excessive Daytime Sleepiness (EDS) and the
Hypocretin Neurotransmission System in Myotonic Dystrophy
Emma Ciafaloni, Emmanuel Mignot, Stanford, CA, Valeria Sansone,
Milano, Italy, James E. Hilbert, Michael L. Perlis, Xiaoyan Lin, Lynn C. Liu,
Michael P. McDermott, Charles A. Thornton, Rochester, NY
OBJECTIVE: 1) Determine if a disrupted hypocretin (Hcrt)
neurotransmission system is responsible for EDS in myotonic dystrophy type 1(DM1).
2) Compare the occurrence and severity of EDS in DM1 and DM2.
3) Analyze the Epworth Sleepiness Scale (ESS) in a large cohort of DM1 and DM2
patients in relation to age, number of CTG repeats, and other varables.
BACKGROUND: EDS is a common and disabling aspect of the complex DM1
phenotype.
Abnormal REM pressure may occur in DM1, pointing to a central dysregulation of
sleep similar to narcolepsy. It is unknown if EDS is also present in DM2. The
underlying mechanism of EDS and other CNS manifestations in DM is unknown.
Hcrt levels in human narcolepsy are very low or undetectable and mutations in
the Hcrt receptor gene are responsible for canine narcolepsy.
Symptoms of DM1 may results from abnormal regulation of alternative splicing in
muscle and brain. DESIGN/METHODS: The ESS from 373 DM1 and DM2 patients
from the National Registry of Myotonic Dystrophy and Facioscapulohumeral
Muscular Dystrophy was analyzed.
Polysomnograms (PSG) and Multiple Sleep Latency Tests (MSLT) were performed in 8
DM1 patients.
Hcrt-1 levels were measured using a direct radioimmunoassay in genetically
confirmed DM1 patients.
Because DM1 is associated with abnormal regulation of alternative splicing, we
used RT-PCR to examine splicing of mRNA for Hcrt receptors 1 and 2. RNA samples
were isolated from postmortem cerebral cortex. RESULTS: Hcrt1 CSF levels
were in normal range in 7 DM1 patients (mean 243.67 pg/mL).
PSG in 8 patients showed significant abnormality of sleep continuity and
architecture with sleep efficiency of 75.6% and high percentage of REM sleep (mean
26.3% +/-9.3) with 4 patients having >30% REM. Sleep latency on MSLT was< 10' in
5 patients.
Splicing of Hcrt Receptor 1 and 2 in cerebral cortex in DM1 was similar to
controls without neurological disease.
Mean ESS was 10.7 in DM1 (n=313), 7.3 in DM2 (n=60) and 7.2 in control patients
with FSH muscular dystrophy (n=85). ESS was significantly greater in DM1 than
FSHMD (p= 0.0001) but not in DM2 compared with FSHMD (p=0.9). ESS >10 was found
in 55% of DM1 (mean 14.4), 30% of DM2 (mean 13) and 25% of FSH patients (mean
12).
Although a statistically significant increase of 0.3 was seen at 1 year follow
up in the ESS score of 228 DM1 patients, scores did not change in 167 of them.
Further longitudinal analysis is undergoing to establish if EDS is progressive
or static.
No significant correlation was found between ESS and age, BMI, duration of
disease or number of CTG repeats (n=149). CONCLUSIONS: EDS is prevalent
in DM1 but not in DM2.
There is no correlation between EDS and number of CTG repeats.
Despite sleep disturbance similarity with narcolepsy, EDS in DM1 does not result
from Hcrt deficiency or defective splicing of Hcrt receptors. Supported by: This
study was supported by an MDA grant.
The NIH sponsored National Registry of Myotonic Dystrophy and
Facioscapulohumeral Muscular Dystrophy Patients and Family Members was used for
this study.
Modafinil Does Not Reduce Daytime Somnolence in
Patients with Myotonic Dystrophy
David Orlikowski, Pascal Laforet, Paris, France, Maria-Antonia
Quera-Salva, Frederic Lofaso, Annie Verschueren, Jean Pouget, Marseille, France,
Metropolitan, Bruno Eymard, Djillali Annane, Garches, France, Metropolitan,
Sylvie Chevret, Paris, France, Metropolitan
OBJECTIVE: To determine efficacy and tolerance of Modafinil on reduction
of daytime somnolence in patients with myotonic dystrophy (MD). DESIGN/METHODS:
Prospective randomized, placebo-controlled study. Patients with genetically
proven myotonic dystrophy were assigned to Modafinil (300 mg per day) or placebo
for 4 weeks. Patients were included if they had an Epworth Scale Sleepiness (ESS)
higher than 10 and a mean latency on the Multiple Sleep Latency Test (MSLT)
lower than 8 minutes. Each patient was evaluated at study day 0, 7 and 28. The
primary outcome measure was Maintenance of Wakefulness Test (MWT), secondary
outcome were ESS, MSLT, nocturnal polysomnography and SF36 scale. Tolerance was
assessed on clinical, electrocardiographic and biologic exams. Efficacy and
tolerance were assessed at day 7 and 28 both by patients and neurologist by
Visual Analogical Scale (VAS). Effect on mood was assessed by the Hamilton
Depression scale. RESULTS: Twenty height patients were randomized and
analyzed (Modafinil in 13 and placebo in 15). The 2 groups were well balanced
for baseline characteristics except for ESS which was significantly higher in
the placebo group. (p=0.01)
At 28-day, mean MWT was 15.8±3.8 in the placebo group and 16.4±3.3 in the
Modafinil group (p=0.93). There was no significant difference between the 2
groups for any of the secondary outcomes. CONCLUSIONS: There was no argue
for any benefit from Modafinil in MD patients with hypersomnia. Supported by:
Association Francaise contre les myopathies (AFM)
Cerebrospinal Fluid Tau Protein Abnormalities and Executive Dysfunction
in Myotonic Dystrophy Type 1 (DM1)
Valeria Sansone, Sandra Gandossini, Maria Cotelli, Marco Calabria,
Antonella Alberici, Simona Signorini, Biagio Cotticelli, Roberta Ghidoni,
Giuliano Binetti, Brescia, Italy, Giovanni Meola, San Donato Milanese, Milan,
Italy
OBJECTIVE: To determine whether cerebrospinal fluid tau protein levels
may account for executive dysfunction in myotonic dystrophy type 1 (DM1) and
whether tau levels may function as appropriate biomarkers of cognitive
impairment in this disorder. BACKGROUND: Neurofibrillary tangles (NFT)
and specific tau aggregates are pathological hallmarks of many neurodegenerative
diseases including frontotemporal dementia (FTD). NFT and specific tau variants
have been found in the brain hippocampal, enthorinal and temporal cortex of DM1
patients, possibly correlating with (CTG)n repeats. How these neuropathology
data correlate with neuropsychological and neuroimaging findings is still
unclear in DM1. DESIGN/METHODS: 28 patients with DM1 (mean age 45.6 ±
13.3, 600-800 CTGn repeats) were subjected to neuromuscular, cognitive and
neuropsychological assessments (Wechsler Adult Intelligence Scale-Revised, WAIS-R;
Mini-Mental State Examination; Raven Progressive Matrices; Token Test; Verbal
Fluency with phonetic and semantic cues; Story Recall; Digit Span; Corsi block
tapping span; Rey's complex figure - Copy and Recall; Tower of London; Divided
Attention; Trial Making test; Alertness). Results were compared to 20 age-, sex-
and education-matched controls. Cerebrospinal fluid (CSF) determinations of
total tau protein were determined in 19 DM1 patients and in 14 patients with
frontotemporal dementia (FTD, mean age 60±6.6) by using ELISA (Innogenetics,
Belgium). Brain 1.5 Tesla MRI (or 5 mm CT scans) to quantify general (GCA),
focal cerebral atrophy (FCA) and white matter hyperintense lesions (WMHL) using
an arbitrary scale of increasing severity from 0 to 3 as previously described
(1) were also performed.
(1)Reduced cerebral blood flow and impaired visual-spatial function
in proximal myotonic myopathy. Meola G et al. Neurology 1999 ;53 :1042-1050.
RESULTS: Significant frontal function test differences (Divided Attention –
number of omissions, p<0.05) were found between DM1 and controls (4.9 ± 3.7
vs 1.3 ± 0.7). Mean IQ of all DM1 patients was 90 ±12.6. In DM1 patients,
CSF levels of total tau proteins were normal in 2/3 of patients (222.5 pg/ml ±
101.3) compared to normative values. In 6 of 19 patients with DM1, the levels of
CSF tau were increased (625 pg/ml ± 297.6) and comparable to FTD patients. IQ
levels in these 6 DM1 patients were lower than the remaining DM1 patients (85 ±
2.9 vs 92 ± 14.3). CONCLUSIONS: The WAIS-R profile and the specific
impairment in tests of frontal lobe function emphasize that cognitive impairment
is characteristic of adult DM1.The determinations of CSF tau proteins in DM1
patients, suggest that CSF tau may be a marker of executive dysfunction in DM1
like in FTD. Supported by: Support of the University of Milan, Italy (MIUR 60%
and ex 40%) given to G. Meola
Progressive Frontal Lobe Impairment in Myotonic
Dystrophy Type 1 (DM1) and Type 2 (DM2): A Longitudinal Study
Giovanni Meola, Valeria Sansone, Sandra Gandossini, Eleonora
Cattaneo, Antonella Alberici, Biagio Cotticelli, San Donato Milanese, Milan,
Italy, Orazio Zanetti, Marco Calabria, Maria Cotelli, Giuliano Binetti, Brescia,
Italy
OBJECTIVE: To determine whether previously reported visual-spatial
impairment and executive dysfunction, brain atrophy and white matter
hyperintense lesions progress over time in myotonic dystrophy type 1 (DM1) and
type 2 (DM2) and whether patients develop a dementia syndrome BACKGROUND:
Neuropsychological tests, neuroimaging, presenile Alzheimer's neurofibrillary
tangles without senile plaques in the brain of DM1 patients and more recent
findings that toxic mRNA repeat expansions may alter tau expression, emphasize
that myotonic dystrophies should also be considered brain disorders. The extent
by which these abnormalities lead to a cognitive decline similar to a dementia
syndrome over time is yet to be determined DESIGN/METHODS: 47 patients
with DM1 and 30 patients with DM2, were subjected to: (i) brain 1.5 Tesla MRI (or
5 mm CT scans), to quantify general (GCA), focal cerebral atrophy (FCA) and
white matter hyperintense lesions (WMHL) using an arbitrary scale of increasing
severity from 0 to 3 as previously described (1) and (ii)
neuropsychological tests (MMSE, Raven progressive matrices, token, weigl,
controlled association letters and categories, story recall, digit span, corsi
and corsi supraspan, rey copy and recall). 30 of these DM1 (mean age 44.8 ± 10)
and 15 of these DM2 (mean age 45.9 ± 16.1), repeated neuromuscular assessment;
neuroimaging and neuropsychological tests over time (mean follow-up 5.5 years ±
3.4, range 2-12).
(1)Reduced cerebral blood flow and impaired visual-spatial function
in proximal myotonic myopathy. Meola G et al. Neurology 1999 ;53 :1042-1050.
RESULTS: Results are expressed by comparing initial and final assessments.
Muscle strength progressed significantly only in DM1 (p = 0.002) compared to DM2
(MegaMRC score: 133.4 ±9.0 vs 122.6 ±14.0 in DM1 and 116.7 ± 53.1 vs
116.5 ± 51.1 in DM2). In both DM1 and DM2, GCA (0.7±1.0 vs 1.1±1.0 in DM1,
p<0.05 and 0.4±0.7 vs 1.3±0.5 in DM2, p<0.05), and WMHL (1.6±0.9 vs
1.8±0.8 in DM1, p<0.05 and 0.5±0.6 vs 1.4±0.5 in DM2, p<0.05) also
progressed significantly. Among the frontal tests, Trial Making test B (p<0.0001),
Alertness with (p<0.05) and without (p<0.001) warning signal and Divided
Attention (p<0.05) worsened significantly in both DM1 and DM2. No additional
areas of cognition were involved. No relation to muscle strength, paternal or
maternal transmission, age at onset, CTG and CCTG expansions was found.
CONCLUSIONS: Our longitudinal data suggest that, in DM1 more than in DM2
there is a progressive and significant impairment in muscle strength and in
frontal performances (attentional), without further involvement of additional
areas of cognition over time. These data indicate that adult DM1 and DM2 are
characterized by a relatively specific progressive frontal cognitive impairment,
but not fulfilling accepted criteria for dementia. This may have important
prognostic and therapeutic implications. Supported by: Support of the University
of Milan (MIUR 60% and ex 40%) given to G. Meola
Mexiletine: Effective Antimyotonia Treatment in
Myotonic Dystrophy Type 1 (DM1)
William B. Martens, Richard T. Moxley III, Eric L. Logigian, Michael
McDermott, Charles A. Thornton, Allen W. Wiegner, Boston, MA, Richard T. Moxley
IV, Cheryl A. Barbieri, Christine L. Blood, Nuran Dilek, Rochester, NY
OBJECTIVE: To determine if mexiletine is safe and effective in reducing
myotonia in DM1. BACKGROUND: Myotonia is an early, prominent, symptom in
DM1 and contributes to decreased dexterity, gait instability, difficulty with
speech/swallowing, and muscle pain. A few nonrandomized trials have suggested
that the antiarrhythmic, mexiletine, is useful treatment for both nondystrophic
myotonic disorders and DM1. DESIGN/METHODS: We performed two 7 week,
double-blind, randomized, crossover trials, each having 20 ambulatory DM1
patients. All patients had delayed relaxation of grip and thenar percussion
myotonia. The initial trial [mean age=45.8 yrs; range of CTG repeat size
169-885] compared placebo to 150 mg of mexiletine three times daily. The second,
subsequent, higher-dose, trial [mean age=42.6 yrs; range of CTG repeat size
169-1731] compared placebo to 200 mg three times daily. The primary end point
for quantitating myotonia was a computerized measurement of the time for the
grip force to relax after a 3 second maximum isometric grip contraction from
90%-5% & 50%-5% of maximum. Other measures of myotonia included: electrically
evoked myotonia of the first dorsal interosseous muscle; time to make 10
repeated isotonic grip contractions at 75% of maximum; and, the time required to
swallow 100 ml of water. RESULTS: There was a significant (p<0.05)
reduction in isometric grip relaxation time with both 150 and 200 mg doses of
mexiletine. The greatest delay in relaxation and the greatest response to
treatment occurred in the late phase of relaxation [50%-5% of maximum grip
force]. Time to perform 10 repeated isotonic contractions, eg myotonia,
decreased with 200 mg but not with 150 mg doses of mexiletine. No significant
reduction in the time to swallow 100 ml of water occurred with 150 or 200 mg
doses, nor was there a change in whole body strength using manual muscle testing
or quantitative isometric myometry. Side effects were minimal for 150 and 200 mg
doses of mexiletine [1 dropped out of the 150 mg and 1 from the 200 mg study
from intolerable side effects]. No electrocardiographic changes occurred in
serial recordings made during each of these studies. No worsening of
first-degree heart block or bundle branch block occurred in patients having
these alterations. CONCLUSIONS: Mexiletine at doses of 150 and 200 mg
three times daily is well tolerated, safe, and effective as an antimyotonia
treatment in patients with DM1. Longer term trials are necessary: a) to
determine if mexiletine reduces the frequency and severity of muscle pain; and,
b) if mexiletine exerts a beneficial effect in maintaining muscle strength and
function.
Aberrant Splicing of Ryanodine Receptor and SERCA in Myotonic Dystrophy
Type1
Masayuki Nakamori, Takashi Kimura, Canberra, ACT, Australia,
Masanori P. Takahashi, Futoshi Aoike, Saburo Sakoda, Suita, Osaka, Japan
OBJECTIVE: To investigate splicing abnormalities of ryanodine receptor (RyR)
and sarco/endplasmic reticulum Ca2+-ATPase (SERCA) in muscle from
myotonic dystrophy type1 (DM1). BACKGROUND: In DM1, it is proposed that
impaired function and localization of alternative splicing regulators contribute
to its pathogenesis, and misregulated alternative splicing has been demonstrated
for several mRNAs including cardiac troponin T, insulin receptor, and muscle
chloride channel. In all cases, the normal developmental splicing switch is
disrupted, resulting in expression of fetal or non-muscle isoforms that are
inappropriate for adult muscle. Furthermore, the disturbance of intracellular
calcium (Ca2+) homeostasis has also been suggested in DM1 muscle. The
mRNA splicing of two major sarcoplasmic reticulum (SR) proteins, RyR1 and SERCA1,
which play central role for intracellular Ca2+ homeostasis in
skeletal muscle, have been demonstrated to be under developmental regulation.
DESIGN/METHODS: We used 26 human skeletal muscle specimens (10 from DM1, 5
from ALS, 5 from polymyositis, and 6 from normal control). Using RT-PCR, we
quantified the total amount of mRNA for RyR1 and RyR3, a predominant form in
adult skeletal muscle and transiently expressed form in immature muscle,
respectively. Total amount of SERCA1, SERCA2a, and SERCA2b, expressed in
fast-twitch muscle, slow-twitch and cardiac muscle, and ubiquitous tissue
respectively, were also quantified. The splicing manner of RyR1, SERCA1, SERCA2a
and SERCA2b, regulated developmentally and/or tissue specifically, were compared
between DM and non-DM muscle. RESULTS: In DM1, we found a significant
existense of alternative spliced isoforms of RyR1 and SERCA1 which are normally
expressed in immature skeletal muscle, but not in non-DM muscle. Although
SERCA2a splice pattern was not changed, a novel SERCA2b splicing variant, which
retained intron 19, was significantly decreased in DM1. The amount of mRNA for
RyR1, RyR3, SERCA1, SERCA2a and total SERCA2 did not differ significantly.
CONCLUSIONS: Alternative splicing of the RyR1 and SERCA1 pre-mRNA is
aberrantly regulated in DM1 skeletal muscle. Especially, the increase of
immature isoforms in DM1 indicates dysregulation of developmental splicing
switch. Since RyR release Ca2+ from SR and SERCA reuptake Ca2+
into SR, the aberrant isoforms may be responsible for disruption of the
intracellular Ca2+ homeostasis and resultantly for muscle
degeneration in DM1. Supported by: Grants-in Aid from the Japan Society for the
Promotion of Science (MPT) and Research Grant (14B-4) from the Ministry of
Health, Labour and Welfare, Japan (SS)
Distrofia Facioescapuloumeral
Myoblasts from Affected and Unaffected Muscles of
Facioscapulohumeral Muscular Dystrophy (FSHD) Patients Display Differences in
Morphology, Proliferation and In Vitro Differentiation Ability
Sabrina Sacconi, Jean Thomas Vilquin, Jean Pierre Marolleau, Jerome
Larghero, Paris, France, Claude Desnuelle, Nice, France
OBJECTIVE: To assess the biological properties of myogenic cells prepared
from unaffected muscles of FSHD patients and compared them with that of FSHD
affected muscles and matched control myoblasts in the perspective of an
autologous myoblasts transfer clinical trial. BACKGROUND:
Facioscapulohumeral muscular dystrophy (FSHD) is an autosomal dominant disease
linked to a deletion within tandem array of repeats termed D4Z4 located on
chromosome 4q. It is characterized by a typical regional distribution, featuring
composed pattern of affected and unaffected muscles. No treatment is currently
available for this disease which physiopathological mechanism is still unknown.
Autologous myoblast transfer from unaffected to affected territories could be
considered in view of increasing the regenerating ability of affected muscles.
DESIGN/METHODS: We produced 1) myoblasts from unaffected vastus
lateralis muscle of 5 FSHD patients and myoblasts from the same muscles of
10 healthy controls; 2) myoblasts from affected shoulder girdle muscles of 4
FSHD patients and myoblasts from the same muscles of 4 healthy controls.
We evaluated in each FSHD cell culture at different time points: morphology,
proliferation ability (proliferation rate, doubling time), purity of the cell
culture (percentage of CD56 and desmin-positive cells), cell viability, telomere
length and in vitro differentiation (myoblasts fusion index, expression of
myosin heavy chain isoformes). RESULTS: Myoblasts prepared from
unaffected muscles of FSHD patients presented no differences in morphology,
proliferation ability and in vitro differentiation when compared to
matched controls while myoblasts from affected muscles displayed several
alterations. In particular, we could observe in these cells the appearance of
“vacuolar-necrotic phenotype”, reduced proliferation ability with a significant
increase on cell doubling time and an impaired differentiation with an important
reduction in myoblast fusion index.
Interestingly, both affected and unaffected FSHD myoblasts showed normal
telomere length at different passages. CONCLUSIONS: In contrast with
myoblasts from affected FSHD muscle, myoblasts from unaffected territories
presented no alteration in morphology, proliferation and differentiation
properties when compared to controls. These findings could open the possibility
of a future clinical trial on autologous myoblast transfer for FSHD patients.
Moreover, the use of pure myoblasts culture model of affected and unaffected
FSHD muscles will offer several advantages in claryfing the physiopathological
mechanisms of this disease. Supported by: French Association Against Myopathies
(AFM)
Distrofia Oculofaríngea
Electrophysiologic Findings in Patients with
Oculopharyngeal Muscular Dystrophy
Lyell K. Jones, Jr., C. Michel Harper, Rochester, MN
OBJECTIVE: To characterize the electrophysiologic (EMG) findings in
patients with oculopharyngeal muscular dystrophy (OPMD). BACKGROUND: OPMD
is an inherited myopathy clinically characterized by onset in adulthood of
ptosis and dysphagia, often accompanied by extraocular and limb muscle weakness.
The phenotype may resemble presentations of different forms of neuromuscular
disease, particularly disorders of neuromuscular transmission and other
myopathies. Although the clinical, and more recently the genetic, features of
OPMD have been well described, there remain questions regarding a possible
coexistent neuropathy with this disease. There has not been a dedicated review
of the electrophysiologic features of OPMD. DESIGN/METHODS: Following
Institutional Review Board approval, the Mayo Clinic patient database was
reviewed for patients with a diagnosis of OPMD. All patients who had 1) either
a) genetically confirmed OPMD or b) the accepted, hallmark clinical features of
OPMD and typical findings on muscle biopsy, 2) been evaluated by a Mayo Clinic
neurologist, and 3) had an EMG performed at the Mayo Clinic, were included for
analysis. RESULTS: Nine patients met the above criteria. The mean age of
onset of symptoms was 51.0 years (range, 36-60 years). The mean age at the time
of the EMG was 62.7 years (51-78 years). Clinical findings included ptosis in 9
(100%), dysphagia in 9 (100%), limb weakness in 9 (100%), ophthalmoparesis in 6
(66.7%), and distal paresthesias in 1 (11.1%). All patients had abnormal needle
EMG findings. Six out 6 patients had small, rapidly recruited motor unit
potentials in bulbar musculature. Nine out of 9 patients (100%) had small,
complex, rapidly-recruited motor unit potentials in proximal limb muscles, and 8
of 9 (88.9%) had similar findings in distal muscles. Two of 5 patients had
fibrillation potentials in bulbar muscles, and 9 of 9 patients had fibrillation
potentials in at least one limb muscle, most commonly in the tibialis anterior
(6 of 9, 67.7%). Seven of the 9 patients had normal repetitive stimulation
studies. Six of the 9 patients, including the patient with the complaint of
distal paresthesias, had distal lower extremity sensory studies; these were all
normal (average sural SNAP amplitude of 13.2 μV, range 7 to 20 μV).
CONCLUSIONS: All patients with OPMD in this series had an abnormal EMG. The
number of patients with limb weakness was higher than in other series of OPMD
patients; this may reflect a referral bias. The needle EMG findings were typical
of other myopathies in that all had evidence of small, complex,
rapidly-recruited motor unit potentials in most muscles examined. Fibrillation
potentials were present in at least one muscle in every patient. These findings
reinforce the utility of EMG in distinguishing OPMD from defects of
neuromuscular transmission, and the pattern of findings may help direct more
specific testing for myopathic patients in whom the diagnosis is unclear. None
of these patients had findings suggestive of a length-dependent peripheral
neuropathy, arguing against a coexisting neuropathic process in patients with
OPMD.
Distrofia Muscular de Ullrich
Ullrich's Congenital Muscular Dystrophy: An
Analysis of 29 Families
Goknur Haliloglu, Ercan Demir, Trabzon, Turkey, Beril Talim, Nesrin
Senbil, Melda Caglar, Betti Giusti, Guglielmina Pepe, Florence, Italy, Pascale
Guicheney, Paris, France, Haluk Topaloglu, Ankara, Turkey
OBJECTIVE: The aim of our study is to evaluate the clinical spectrum,
morphological, genetic and collagen VI involvement in our patients with an UCMD
phenotype. BACKGROUND: Ullrich's congenital muscular dystrophy (UCMD) is
a severe form of autosomal recessive congenital muscular dystrophy characterized
by proximal contractures and distal laxity. Neonatal hypotonia, congenital
arthrogryposis, torticollis and hip dislocation, a round myopathic face with
high-arched palate and low set prominent ears, protruded calcaneus, increased
subcutaneous fat tissue on the soles of the feet, skin features such as
protruded bulbs of hair follicles and extensive cheloid formation and normal
intelligence are other additional key features. Recessive and dominant mutations
in the COL6A1, COL6A2 (21q22.3) and COL6A3 (2q37) genes encoding α1, α2 and α3
chains of collagen VI genes have been identified in patients with UCMD.
DESIGN/METHODS: We analyzed 32 patients (15 girls, 17 boys) from 29 families
with an UCMD phenotype. Collagen VI involvement is evaluated by
immunohistochemical analysis in the muscle tissue and/or skin fibroblast
cultures and/or genetic analysis. RESULTS: Mean age at the time of
diagnosis was 7.7 y (1-13 y). Consanguinity was known in 22 of the families.
Symptoms began at birth or infancy (n= 21), including neonatal hypotonia,
congenital hip dislocation (n= 21), torticollis (n= 7) and arthrogryposis (n=
5). There is generalized muscle weakness with varying degrees of contractures in
all patients. Additional spinal deformities are kyphoscoliosis (n=7) and rigid
spine (n=13). Course is slowly progressive. Collagen VI abnormalities as total
or partial reduction of collagen VI was found in 23 of the 29 families (79%).
The haplotype analysis suggested linkage to COL6A1/COL6A2 locus in 7 of the
families and COL6A3 locus in 3 of the families. One of the patients linked to
COL6A3 locus had a homozygous nonsense mutation. In one of our patients linked
to COL6A1/COL6A2 locus, although there was a positive immunostaining for
collagen VI in the muscle tissue, fibroblast culture revealed absence of
collagen VI expression. Age and presentation at onset, severity of weakness and
contractures, frequency of ambulant and nonambulant patients were similar in
patients with and without collagen VI involvement. Prenatal diagnosis was
provided to two families with chorion-villus sampling and haplotype analysis.
CONCLUSIONS: The diagnosis of UCMD depends on clinical grounds. 79% of the
UCMD patients in this series had collagen VI involvement indicating genetic
heterogeneity of the disease. The clinical features of the patients with
collagen VI involvement are very similar to those ones without collagen VI
involvement. Absence of collagen VI expression in fibroblast culture in a
patient with normal expression in muscle may indicate that collagen VI
localization can be normal although there may be loss of function. There may be
other responsible proteins in this disorder. Supported by: Association Française
contre les Myopathies (AFM), France and Telethon (Italy)
Distrofia tipo Cintura
Mutational and Clinical Features of French
Patients with Limb Girdle Muscular Dystrophy Type 2I (LGMD2I)
Helene Bourteel, Tanya Stojkovic, Jean-Marie Cuisset, Claude-Alain
Maurage, Pascale Richard, Pascal Laforet, Paris, France, Patrick Vermersch,
Lille, France
OBJECTIVE: To evaluate clinical, biological, and genetic characteristics
of LGMD2I patients. BACKGROUND: Mutations of the fukutin-related protein
(FKRP) gene cause LGMD2I.This pathology is associated with wide range of
clinical severity correlated with a molecular heterogeneity. DESIGN/METHODS:
We recruited 8 patients in 6 families from north of France, affected by
LGMD2I. We reported for all patients : the sex ratio, the age at onset, the
neurological examination, the evaluation of the cardiac and respiratory function,
serum creatine kinase (CK) levels, the muscle biopsy with α-dystroglycan
immunolabeling. Genetic analysis by direct sequencing of the FKRP gene was
performed. RESULTS: We examinated four females and four males. The mean
age was 31.7 +/- 17.9 years; the mean age at onset was 11.7 +/-8.1 years. Six
patients had calves hypertrophy, five suffered from scoliosis or lumbar lordosis.
Four presented symmetrical prominent scapular winging. There was no cranial
nerve impairment. Except for a four years old patient, all showed progressive
limb girdle weakness leading for four of them at the age of 25.7 +/-6.39 years
to wheelchair dependence. Four females versus one male were affected by
restrictive respiratory failure with difficulty of swallowing in one case. Three
of them required nocturnal ventilation, one tracheotomy. Two males presented
dilated myocardiopathy with left ventricular dysfunction . CK were always
elevated (range: 1000-8865 IU/L). The histochemical analysis of muscle biopsy
was characteristic of muscular dystrophy. Immunolabeling for α-dystroglycan was
always reduced but never absent. We reported a homozygous L276I mutation in
three cases. This homozygous mutation was found to be associated to three novel
mutations in five other cases. One brother and his sister, both carriers of a
L489R heterozygous mutation in addition to the L276I homozygous mutation, had
different phenotype characterized by cardiac dysfunction for the brother and
respiratory insufficiency and whellchair dependence for the sister. This
identical phenotypic distribution, respectively for a brother and sister of
another family was observed, and corresponded to a novel L322V heterozygous
mutation associated with the L276I heterozygous mutation. Finally, a R275G
heterozygous mutation with the L276I heterozygous mutation was discovered for
the child, who presents only muscle pain. CONCLUSIONS: We observed
various phenotypic expressions of LGMD2I from moderate to severe forms and
intrafamilial phenotypic variability. These could be influenced by the gender.
Indeed, we saw more frequently cardiac impairment in males and respiratory
failure in females, especially into members of family carrying the same mutation.
As expected, genetic analysis of the FKRP gene revealed the preponderant
frequency of the L276I mutation, found in all patients. Three novels mutations
not yet described were identified (L322V, R489L, R275G) in addition to the L276I
homozygous or heterozygous mutation without any particular clinical pattern.
A New Diagnostic Approach to Molecular Diagnosis
of LGMD 2A/Calpainopathy
Corrado Angelini, Marina Fanin, Annachiara Nascimbeni, Luigi Fulizio,
Marco Spinazzi, Padova, Italy
OBJECTIVE: To improve detection rate of calpainopathy using a combination
of protein (quantitative and functional assays) and molecular tests.
BACKGROUND: LGMD2A is an autosomal recessive muscular dystrophy, which shows
a wide phenotypic variability: the Erb scapulohumeral phenotype presents with
onset in upper girdle, the classical LGMD phenotype has early (before age 12) or
late (after age 30) pelvifemoral onset. While numerous gene mutations were
described, the diagnosis has shifted from molecular genetic analysis towards
protein biochemical assay by immunoblot. This latter approach is still a
challenge, since using only protein studies may yield both false positive (secondary
defects) and false negative results (normal protein with defective enzyme
activity). On the other hand, if only mutation screening in CAPN3 gene is
conducted in LGMD patients a low success rate is expected due to genetic
heterogeneity. DESIGN/METHODS: By preliminary immunoblot in over 550
unclassified patients with various phenotypes (early and late-onset LGMD, Erb's
dystrophy, hyperCKemia) we found 74 cases with calpain protein defect. In these
patients mutation screening was done by SSCP, DHPLC, ARMS-PCR and sequencing.
Patients showing normal amount of calpain-3 protein by immunoblot underwent a
novel functional assay to test calpain-3 autocatalytic activity. The loss of
this normal function suggested primary LGMD2A; in such cases the screening of
gene mutations was conducted only by ARMS-PCR for known mutations and by SSCP to
limit the cost and time effort. RESULTS: By preliminary immunoblot
screening of calpain-3 protein defect, we identified 74 cases showing complete
or partial protein defect. In patients with complete protein defect (early onset
LGMD phenotype was common) we identified gene mutations in 86% of cases. In
patients with partial protein defect we identified gene mutations in 50% of
cases. In 140 patients showing normal protein amount, the assay for calpain-3
autocatalytic function allowed the identification of additional 11 cases, in
whom mutations have been identified in 100% of cases. We demonstrate that when a
defect of either calpain-3 protein amount or its autocatalytic activity is
present, the overall probability of identifying gene mutations is 75%. We also
show that patients with both normal calpain-3 protein amount and normal
autocatalytic activity have a residual 5% probaility of yielding mutations in
CAPN3 gene . CONCLUSIONS: This novel diagnostic approach consists of a
combination of protein quantitative and functional assays and molecular
screening methods. We show that this strategy allows molecular diagnosis in a
large number of LGMD2A patients, sometimes in an early stage of the disease (asymtomatic
hyperCKemia). The amount of calpain-3 protein appears to have a relative
prognostic value: patients with early onset have absent protein, while almost
all patients with normal protein levels have late or adult-onset muscular
dystrophy. Supported by: Telethon Italy grant numbers GUP030516, GTF02009,
EuroBioBank network QLRT2001-027769.
Phenotypic Marker Variability in Calpainopathy
Patients of North America
Christopher J. Shilling, Daniel Darvish, Encino, CA, Steven A. Moore,
Iowa City, IA, John T. Kissel, Wendy King, Xiomara Q. Rosales, Cheryl Wall,
Jerry R. Mendell, Columbus, OH
OBJECTIVE: Establish phenotypic markers for calpainopathies (limb-girdle
muscular dystrophy type 2A) in an outbred population of subjects. BACKGROUND:
The diagnosis of specific LGMD subtypes requires a systematic approach
starting with phenotypic features including the neuromuscular exam and muscle
biopsy, followed by DNA confirmation of calpain-3 (CAPN3) gene mutations.
In the inbred La Reunion population where LGMD2A was first described,
stereotypic features included contractures at heel cords, hips, elbows, and
fingers, proximal and distal weakness with scapular winging and sparing of the
hip abductors, and a protuberant abdomen. Considering the broad differential
diagnosis of LGMD and the necessity of western blotting for the detection of
calpain-3 deficiency, we evaluated the clinical features of an outbred North
American cohort of LGMD patients to identify strong indicators of LGMD2A.
DESIGN/METHODS: Two hundred fifty unrelated LGMD patients were screened
using clinical features, serum creatine kinase (CK), electrocardiogram, muscle
biopsy analysis (immune staining, western blots) and CAPN3 mutational
analysis. RESULTS: From this outbred population of unclassified LGMD
patients sixteen (16) percent were found to have a calpain-3 deficiency by
western blots. Of those deficient in calpain-3, DNA analysis showed potential
mutations in up to 15 patients correlating to LGMD2A (78.9%). The phenotypic
features in this group were found to be heterogeneous as follows: age of onset
ranged from 7 to 42 years old (mean 17.2 +/- 9.6 years), CK from 152 to over
7000 (mean 1500 +/- 1700), average muscle strength on 10 point scale ranged from
8.1 to 4.0 (mean 6.6 +/- 1.3), three had scapular winging, one patient with
ocular muscle weakness, and two with facial weakness. Distal lower limb weakness
was common (approximately 50% with a score of 7 or below). Protuberant abdomen
was infrequent. Contractures, a major feature of the La Reunion population, were
seen in approximately 50% of the identified population. CONCLUSIONS: Our
large outbred population of LGMD patients offers unique opportunities to test
the hypothesis that particular LGMD subtypes present with stereotypic phenotypic
features strongly indicative of the diagnosis. We examined the LGMD2A patients,
one of the most common LGMD disorders in North America, for such features. The
analysis failed to pinpoint specific surrogate markers for the disease, although
elbow and ankle contractures had a frequency of approximately 50%. Thus, the
diagnosis of LGMD2A remains arduous, by first excluding other disorders by
employing immune stains of muscle sections. Negative biopsies, especially in
patients with limb contractures, then require western blots to demonstrate
calpain-3 deficiency. The final step remains confirmation of CAPN3
mutations. Supported by: The Muscular Dystrophy Association
Geral
Muscle Biopsy: Diagnostic Utility in Children Less
Than Two Years
Deepa Arun, Alan Pestronk, Anne M. Connolly, St. Louis, MO
OBJECTIVE: To determine the diagnostic utility of muscle biopsy in
children under two years of age. BACKGROUND: Timing of muscle biopsies in
infants and young children is debated. Some centers biopsy children at the time
of their presentation with weakness, while others follow them clinically for
variable periods of time. The yield of an early biopsy in making a specific
diagnosis remains uncertain. DESIGN/METHODS: We retrospectively reviewed
318 muscle biopsies (performed between 1980-2004) from children under two years
(Mean 10m +/- 7m). These were divided into age-related groups 0-3 months (n=79),
3-12 months (n=113) and 12-24 months (n=126). We then determined biopsies to be
diagnostic, non-diagnostic, or normal. RESULTS: In the 0-3 month group,
54% were diagnostic. These included congenital myopathies (19%), denervation
(15%), and miscellaneous (20%) including congenital muscular dystrophy,
mitochondrial myopathy, storage disorders, perifascicular myopathy and
congenital fiber type disproportion. Non-diagnostic biopsies (29%) all showed
abnormal fiber size variation (FSV). 17% were normal. In the 3-12 month group,
49% were diagnostic (14% denervation, 11% congenital myopathy, 4% congenital
muscular dystrophy, 4% Duchenne dystrophy and 16% miscellaneous diagnoses).
Non-diagnostic biopsies (41%) all showed FSV. 10% were normal. In the 12-24
month group, 44% were diagnostic (16% denervation, 13% muscular dystrophy, 5%
congenital myopathy and 10% miscellaneous diagnoses). Non-diagnostic biopsies
(46%) again showed FSV. 10% were normal. Children biopsied at less than 3 months
of age were more likely to have a specific diagnosis when compared to children
age 12-24 months (p=0.04). There were no differences in the ratios of specific
diagnoses comparing 0-3 months to 3-12 months (p=0.18) or 3-12 months to 12-24
months (p=0.43). CONCLUSIONS: Overall, 47% of biopsies yielded specific
diagnoses with prognostic, treatment, or genetic implications. Infants less than
3 months were more likely to have a specific diagnosis made compared to 12-24
month old children. FSV was the most common finding in all three age groups.
Biopsies with FSV included those with small type 1, type 2 fibers or both. As
the pathogenesis of FSV becomes clearer, the usefulness of this abnormality may
increase. Our study supports the utility of biopsy at the time of presentation
with weakness.
Deficiência em Disferlina
Altered Expression of Caveolin-3 in Muscles of
Patients with Dysferlin Deficiency
Dubravka M. Dodig, Christian Therrien, Maria Y. Molnar, George
Karpati, Michael Sinnreich, Montreal, QC, Canada
OBJECTIVE: To investigate the expression profile of caveolin-3 in muscles
of dysferlin deficient patients. BACKGROUND: Caveolin-3 is a muscle
specific surface membrane protein implicated in the formation of caveolae by
acting as a scaffold to organize and concentrate lipid and protein building
blocks at the sarcolemma. Mutations in caveolin-3 have been reported in limb
girdle muscular dystrophy type 1C and in Rippling Muscle Disease. Dysferlin is a
sarcolemmal protein involved in muscle surface membrane repair. It is deficient
or defective in patients with limb girdle muscular dystrophy type 2B and Miyoshi
Myopathy. Caveolin-3 was reported to interact with dysferlin in muscle
homogenates in vitro, and isolated reports suggested a caveolin-3
reduction in patients with dysferlinopathies. However, 4 lines of dysferlin
deficient mice failed to show reduction of caveolin-3 in skeletal muscle. Larger
studies of caveolin-3 expression in human dysferlinopathies are lacking.
DESIGN/METHODS: We screened 167 muscle biopsies from patients with a
clinical phenotype of LGMD or distal myopathy for dysferlin deficiency by
Western blotting. Skeletal muscle biopsies from identified dysferlin deficient
patients were investigated for expression of caveolin-3 by immunohistochemistry.
Mutational analysis was performed for dysferlin and caveolin-3. RESULTS:
We identified 17 dysferlin deficient patients from 13 different families.
Immunohistochemical analysis for caveolin-3 showed evenly reduced sarcolemmal
staining in muscle fibers of 11 dysferlin deficient muscle biopsies when
compared to normal control muscles and muscles of patients with dystrophies
unrelated to dysferlin deficiency. Fibers with reduced caveolin-3
immunoreactivity were scattered throughout the muscle. Mutational analysis
confirmed primary dysferlin deficiency in all cases. Caveolin mutational
analysis is in progress.. CONCLUSIONS: In 11 out of 17 dysferlin
deficient patients, immunohistochemical analysis of muscle revealed scattered
fibers with reduced caveolin-3 immunoreactivity. These results in a relatively
large series of dysferlin deficient patients support the isolated observations
of caveolin-3 reduction in human dysferlinopathies and suggest that dysferlin
and caveolin-3 may form molecular partnership in human skeletal muscle. This
finding contrasts with observations in dysferlin deficient mice.
Phenotypic and Genetic Analysis in a Series of 55
Patients with Dysferlinopathy
Karine Nguyen, Guillaume Bassez, Bruno Eymard, Paris, France,
Nicolas Levy, Jean Pouget, Marseille, France
OBJECTIVE: to study the phenotypic spectrum of dysferlinopathies and to
identify mutations in the dysferlin gene (DYSF). BACKGROUND:
Dysferlinopathies are autosomal recessive muscular dystrophies caused by
mutations in DYSF and can present with two main phenotypes: a distal
myopathy termed Miyoshi myopathy (MM), and a limb-girdle muscular dystrophy (LGMD2B).
DESIGN/METHODS: Clinical, biological and pathological features in 55
patients with dysferlinopathy were analyzed, whereby the diagnosis was based on
the absence or drastic decrease in dysferlin expression on muscle biopsy.
Genetic analysis using SSCP (or dHPLC) screening of PCR products of each of 55
exons of the DYSF gene followed by sequencing was performed. RESULTS:
Besides classical phenotypes of MM and LGMD2B, in 20 (37%), and 12 (22%)
cases respectively, the authors identified unusual clinical findings including:
14 patients (26%) presenting with lower limb "proximodistal" (PD) weakness at
onset, exercise intolerance (n=2), and asymptomatic hyperCKaemia at age 58 years
(n=1). 15 patients (27%) had been misdiagnosed as polymyositis, and patients
with histological features of inflammation tended to present with a PD phenotype
and a more severe course of the disease. Gene analysis revealed mutations in the
DYSF gene in 30 out of the 55 patients. CONCLUSIONS: The
phenotypic spectrum of dysferlinopathy is wider than expected, ranging from
asymptomatic hyperCKaemia in late adulthood to a rapidly disabling myopathy. A
large proportion of patients have a "proximodistal" phenotype, which might
correlate with muscle inflammation and increased severity.
Validation of a Time and Cost-Effective RNA Based
Approach in Detecting Human Dysferlin Gene Mutations
Christian Therrien, Dubravka Dodig, George Karpati, Michael
Sinnreich, Montreal, QC, Canada
OBJECTIVE: To validate an RNA-based gene analysis approach in detecting
human dysferlin gene mutations. BACKGROUND: Dysferlin is the protein
product of the gene that is defective in patients with limb girdle muscular
dystrophy type 2 B and Miyoshi Myopathy. The gene is composed of 55 exons and
the corresponding mature transcript encodes a multidomain molecule consisting of
2080 amino acids. Analysis of dysferlin gene mutations based on genomic DNA
sequencing is cumbersome and expensive, and therefore not readily available.
Additionally, exon-skipping mutations evade detection using a DNA based
approach. We used an RNA based approach permitting improved and fast detection
of dysferlin gene mutations in patients who had undergone a skeletal muscle
biopsy. DESIGN/METHODS: Mutational analysis was performed on mRNA
extracted from skeletal muscle biopsies from twelve unrelated patients with
dysferlin deficiency. Dysferlin deficiency was established by Western blot
analysis of skeletal muscle homogenates. Direct sequencing of the coding region
of the dysferlin gene was performed using nine overlapping amplicons obtained by
RT-PCR. Mutations were verified by sequencing of PCR products of corresponding
genomic DNA fragments. Muscle sections were stored in a commercially available
buffer for up to two weeks at room temperature and assessed for RNA integrity at
different time intervals. RESULTS: Mutational screening by direct
sequencing of mRNA derived amplicons revealed novel mutations throughout the
dysferlin gene. In our 12 patients, the majority of mutations were in the
C-terminal part of the protein. In three families, large deletions of cDNA
fragments were observed, likely due exon skipping. RNA from muscle sections
which were stored in a commercially available buffer for up to two weeks at room
temperature allowed the generation of expected cDNA fragments, indicating that
muscle tissue stored this way may be suitable for shipping. CONCLUSIONS:
Determination of a particular mutation in any inherited disease is of value for
a precise diagnosis and for pre-implantation or prenatal screening. This holds
true also for dysferlinopathies. Moreover, new dysferlin gene mutations and
their correlation with the clinical phenotype will enhance our understanding of
the biology of dysferlin. RNA based mutational analysis is superior to a DNA
based approach in detecting dysferlin gene mutations for two reasons: 1. It will
identify any mutation in the coding region of the entire gene as well as
potential exon skipping mutations which may go undetected on a DNA based
approach. 2. It is time and cost efficient, as only nine amplicons need to be
sequenced for a dysferlin gene analysis, in contrast to 55 exons, if a DNA-based
approach with the same stringency was chosen. As most LGMD patients undergo a
muscle biopsy, tissue is readily available and can be easily shipped for
RNA-based gene analysis in a commercially available buffer without the need for
cooling. This approach should facilitate gene analysis for large proteins
encoded by multiple exons implicated in limb girdle muscular dystrophies.
Tamoxifeno in Esclerose Lateral Amiotrófica
Phase 2B Randomized Dose-Ranging Clinical Trial of
Tamoxifen, a Non-Steroidal Tri-Phenyl-Ethylene Selective Estrogen Receptor
Modulator [SERM], in Amyotrophic Lateral Sclerosis[ALS]: Increased Survival in
20-30-40mg Daily Compared with 10mg Weekly-10mg Daily Treatment Cohorts
Benjamin Rix Brooks, Mohammed Sanjak, Kathryn A. Roelke, Jennifer M.
Parnell, Shirley M. Peper, Ann M. Houdek, David L. Lunney, Aaron P. Frye, H. Ian
Robins, Andrew J. Waclawik, Madison, WI
OBJECTIVE: Determine if tamoxifen has a clinical survival benefit in ALS
similar to its benefit in murine retrovirus-induced motor neuron disease.
BACKGROUND: ALS patients were assigned to blocks [N=5] matched by age, sex,
ALS onset site and baseline ALS Functional Rating Scale-total score[ALSFRSt].
Within each block, patients were randomized to 1 of 5 tamoxifen doses. Planned
as a 12 month clinical trial, it was extended to 24 months when there was no
statistically significant change in endpoints across the tamoxifen dose cohorts
at 12 months. DESIGN/METHODS: ALS patients [N=60] were randomized within
blocks. Evaluations were at 3 month intervals with assessment of adverse effects,
serious adverse events, clinical measurements and survival over 24 months
followup. Survival and event history data for achieving milestones in isometric
muscle strength, vital capacity and ALSFRSt endpoints were analyzed by
intention-to-treat allocation employing the Kaplan-Meier method with log-rank
test. RESULTS: ALS patients entered [34 M; 26 F] had a mean age [51 yr ],
ALSFRSt [ 24 ] with no significant difference in these parameters among the five
dose groups at baseline. There was a statistically significant difference
between survival of ALS patients in the10mg weekly vs the 40mg daily cohorts [p
<0.05 one-sided safety predetermined p value]. Per protocol analysis of the
difference in survival for the two lower dose cohorts together vs the three
upper cohorts together was signficant [p<0.01 one-sided safety predetermined p
value; p<0.03 two-sided safety predetermined p value]. Cox proportional hazard
analyses supported a drug dose effect. Prolongation of 80% survival benefit was
above 200 days in the 20mg, 30mg, 40mg daily tamoxifen treatment cohorts.
Survival in the 10mg weekly-10mg daily cohorts was identical to that recorded
for the ALS patients randomized to placebo in the Dutch ALS Creatine Study [Ann
Neurol 2003;53(4):437-445]. No significant dose-related adverse events occurred
throughout the clinical trial. CONCLUSIONS: Safety analysis in a
single-site phase 2B dose-ranging clinical trial of tamoxifen in ALS patients
indicates a survival benefit of tamoxifen treatment with 20-30-40mg daily
compared with 10mg weekly-10mg daily. This survival benefit occurred in
riluzole-treated ALS patients and was as large or larger than the improved
survival in riluzole-treated compared with placebo-treated ALS patients. This
observation needs to be replicated in an appropriately statistically powered
clinical trial to establish whether tamoxifen should be considered as an
adjuvant therapy with riluzole in the treatment of ALS. Supported by: Muscular
Dystrophy Assocation - ALS Division and National Institute of General Medical
Sciences General Clinical Research Center. Tamoxifen was provided by
Astra-Zeneca