Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Gene/Protein
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Target Concepts:
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Query: UMLS:C0026850 (
muscular dystrophy
)
5,870
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The syntrophins and dystrobrevins are members of the dystrophin-associated protein complex, and are thought to function as modular adaptors for signalling proteins recruited to the sarcolemmal membrane. We have characterised the expression of the syntrophins (alpha-, beta1-, and beta2-) and alpha-dystrobrevin by immunohistochemistry in normal human muscle and in biopsies from 162 patients with myopathies of unknown aetiology (with normal staining for dystrophin and other dystrophin-associated proteins). Unlike mice,
beta2-syntrophin
is expressed at the sarcolemma in post-natal human skeletal muscle. Deficiency of alpha-dystrobrevin +/-
beta2-syntrophin
was present in 16/162 (10%) patients, compared to age-matched controls. All patients presented with congenital-onset hypotonia and weakness, although there was variability in clinical severity. Two major clinical patterns emerged: patients with deficiency of
beta2-syntrophin
and alpha-dystrobrevin presented with severe congenital weakness and died in the first year of life, and two patients with deficiency of alpha-dystrobrevin had congenital
muscular dystrophy
with complete external ophthalmoplegia. We have sequenced the coding regions of alpha-dystrobrevin and
beta2-syntrophin
in these patients, and identified a new isoform of dystrobrevin, but have not identified any mutations. This suggests that disease causing mutations occur outside the coding region of these genes, in gene(s) encoding other components of the syntrophin-dystrobrevin subcomplex, or in gene(s) responsible for their post-translational modification and normal localisation.
...
PMID:Deficiency of the syntrophins and alpha-dystrobrevin in patients with inherited myopathy. 1289 72
The syntrophins are modular adapter proteins that function by recruiting signaling molecules to the cytoskeleton via their direct association with proteins of the dystrophin protein family. We investigated the physiological function of
beta2-syntrophin
by generating a line of mice lacking this syntrophin isoform. The
beta2-syntrophin
null mice show no overt phenotype, or
muscular dystrophy
, and form structurally normal neuromuscular junctions (NMJs). To determine whether physiological consequences caused by the lack of
beta2-syntrophin
were masked by compensation from the alpha-syntrophin isoform, we crossed these mice with our previously described alpha-syntrophin null mice to produce mice lacking both isoforms. The alpha/
beta2-syntrophin
null mice have NMJs that are structurally more aberrant than those lacking only alpha-syntrophin. The NMJs of the alpha/
beta2-syntrophin
null mice have fewer junctional folds than either parent strain, and the remaining folds are abnormally shaped with few openings to the synaptic space. The levels of acetylcholine receptors are reduced to 23% of wild type in mice lacking both syntrophin isoforms. Furthermore, the alpha/
beta2-syntrophin
null mice ran significantly shorter distances on voluntary exercise wheels despite having normal neuromuscular junction transmission as determined by micro-electrode recording of endplate potentials. We conclude that both alpha-syntrophin and
beta2-syntrophin
play distinct roles in forming and maintaining NMJ structure and that each syntrophin can partially compensate for the loss of the other.
...
PMID:Structural abnormalities at neuromuscular synapses lacking multiple syntrophin isoforms. 1554 43
