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Query: UMLS:C0026850 (
muscular dystrophy
)
5,870
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We recently reported that the dystrophin-associated glycoprotein (DAG) complex is biochemically divided into two subcomplexes: one is the dystroglycan complex comprised of 156DAG and
43DAG
and the other is the sarcoglycan complex comprised of 50DAG,
A3b
, and 35DAG.
A3b
is a novel dystrophin-associated glycoprotein with an approximate molecular mass of 43 kd but is distinct from
43DAG
. In the present study, we examined the striated muscles of the dystrophic hamster with anti-
A3b
antibody in addition to anti-50DAG, anti-
43DAG
, anti-35DAG, anti-dystrophin, and anti-laminin antibodies by both immunohistochemistry and immunoblot analysis and found that 50DAG,
A3b
, and 35DAG are selectively lost. This selective defect of the sarcoglycan complex in dystrophic hamster muscles may give rise to dystrophic changes in striated muscles. Thus, the differentiation of the dystrophin-associated glycoprotein complex into the dystroglycan and sarcoglycan complexes is important not only from a biochemical standpoint but also in understanding the cause of
muscular dystrophy
in the hamster. Our findings further show that the dystrophic hamster may serve as an animal model for a human disease, severe childhood autosomal recessive
muscular dystrophy
, which has recently been shown to result from a selective defect in the sarcoglycan complex.
...
PMID:Sarcoglycan complex is selectively lost in dystrophic hamster muscle. 785 62
The 50-kd dystrophin-associated glycoprotein (50DAG or adhalin) in the skeletal muscle has been shown to be deficient in patients with severe childhood autosomal recessive
muscular dystrophy
prevalent in North Africa. To elucidate the frequency of patients having the 50DAG deficiency in a
muscular dystrophy
population in Japan, we immunocytochemically examined 50DAG,
43DAG
, dystrophin, and utrophin. A total of 243 patients with
muscular dystrophy
, among 1,035 diagnostic muscle biopsies during the past 2.5 years, were analyzed. We identified five unrelated patients (three females and two males who have no family history) with 50DAG deficiency in the sarcolemma. Thus, 2.1% (5/243) of our
muscular dystrophy
patient population had 50DAG deficiency.
...
PMID:The frequency of patients with 50-kd dystrophin-associated glycoprotein (50DAG or adhalin) deficiency in a muscular dystrophy patient population in Japan: immunocytochemical analysis of 50DAG, 43DAG, dystrophin, and utrophin. 864 3
To determine if dystrophin and dystrophin-associated glycoproteins (DAGs) are involved in muscle fiber necrosis in the dystrophic hamster, we examined NSJ-my/my (homozygous dystrophic) hamsters introduced from the BIO14.6 strain, by immunohistochemical and immunoblotting methods. Antibodies against dystrophin, utrophin and DAGs including 50DAG (A2),
43DAG
(A3a) and 35DAG (A4) were employed for the examination. Dystrophin was stained strongly and utrophin stained very faintly along the sarcolemma of the dystrophic hamster, similar to the control. On the other hand, in the dystrophic hamster 50DAG (A2) and 35DAG (A4) were selectively defective, and
43DAG
(A3a) was also decreased, although to a lesser degree. Since these results were almost identical to those seen in severe childhood autosomal recessive
muscular dystrophy
(SCARMD), the dystrophic hamster appears to be an animal model of SCARMD in which defects in DAGs may result in muscle fiber necrosis despite normal dystrophin expression.
...
PMID:Selective defect in dystrophin-associated glycoproteins 50DAG (A2) and 35DAG (A4) in the dystrophic hamster: an animal model for severe childhood autosomal recessive muscular dystrophy (SCARMD). 817 51
Dystrophin is associated with several novel sarcolemmal proteins via the cysteine-rich/C-terminal domains. The dystrophin-associated proteins are classified into three groups: (1) alpha- and beta-dystroglycan, (2) adhalin, 35DAG and
A3b
, and (3) members of the syntrophin family. Dystrophin interacts with F-actin via the N-terminal domain. Alpha-dystroglycan binds laminin-2, a major component of the basal lamina. These findings indicate that the dystrophin-glycoprotein complex (DGC) links the subsarcolemmal cytoskeleton with the basal lamina, thus providing mechanical stability to the sarcolemmal. The DGC may also play a role in signal transduction. We have reported previously the deficiency of adhalin in skeletal muscle of Arab patients afflicted with severe childhood autosomal recessive
muscular dystrophy
(SCARMD). SCARMD is now known to affect other races including Europeans and Japanese. Although the phenotype of this disease can mimic Duchenne muscular dystrophy in severe cases, it is sometimes quite mild. SCARMD is genetically heterogeneous. Recently, adhalin gene mutations have been demonstrated in European, Arab and Japanese families with SCARMD. Another locus is on chromosome 13q, however, the mutated gene remains elusive. In the advanced stages of SCARMD, the expression of laminin is disturbed, suggesting that adhalin deficiency may cause the dysfunction of the DGC as a laminin receptor, which may eventually lead to muscle cell death.
...
PMID:[Severe childhood autosomal recessive muscular dystrophy]. 875 17
The group of autosomal recessive (AR) muscular dystrophies includes, among others, two main clinical entities, the limb-girdle muscular dystrophies (LGMDs) and the distal muscular dystrophies. The former are characterized mainly by muscle wasting of the upper and lower limbs, with a wide range of clinical severity. This clinical heterogeneity has been demonstrated at the molecular level, since the genes for six AR forms have been cloned and/or have been mapped to 15q15.1 (LGMD2A), 2p12-16 (LGMD2B), 13q12 (LGMD2C), 17q12-q21.33 (LGMD2D),4q12 (
LGMD2E
), and 5q33-34 (LGMD2F). The AR distal muscular dystrophies originally included two subgroups, Miyoshi myopathy, characterized mainly by extremely elevated serum creatine kinase (CK) activity and by a dystrophic muscle pattern, and Nonaka myopathy, which is distinct from the others because of the normal to slightly elevated serum CK levels and a myopathic muscle pattern with rimmed vacuoles. With regard to our unclassified AR LGMD families, analysis of the affected sibs from one of them (family LG61) revealed some clinical and laboratory findings (early involvement of the distal muscles, mildly elevated serum CK levels, and rimmed vacuoles in muscle biopsies) that usually are not observed in the analysis of patients with LGMD2A-LGMD2F. In the present investigation, through a genomewide search in family LG61, we demonstrated linkage of the allele causing this form of
muscular dystrophy
to a 3-cM region on 17q11-12. We suggest that this form, which, interestingly, clinically resembles AR Kugelberg-Welander disease, should be classified as LGMD2G. In addition, our results indicate the existence of still another locus causing severe LGMD.
...
PMID:The seventh form of autosomal recessive limb-girdle muscular dystrophy is mapped to 17q11-12. 924 96
