Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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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)
Many monogenic disorders, including the muscular dystrophies, display phenotypic variability despite the same disease-causing mutation. To identify genetic modifiers of
muscular dystrophy
and its associated cardiomyopathy, we used quantitative trait locus mapping and whole genome sequencing in a mouse model. This approach uncovered a modifier locus on chromosome 11 associated with sarcolemmal membrane damage and heart mass. Whole genome and RNA sequencing identified Anxa6, encoding
annexin A6
, as a modifier gene. A synonymous variant in exon 11 creates a cryptic splice donor, resulting in a truncated
annexin A6
protein called ANXA6N32. Live cell imaging showed that
annexin A6
orchestrates a repair zone and cap at the site of membrane disruption. In contrast, ANXA6N32 dramatically disrupted the
annexin A6
-rich cap and the associated repair zone, permitting membrane leak. Anxa6 is a modifier of
muscular dystrophy
and membrane repair after injury.
...
PMID:Annexin A6 modifies muscular dystrophy by mediating sarcolemmal repair. 2471 43
Dysferlin is a membrane-associated protein implicated in membrane resealing; loss of dysferlin leads to
muscular dystrophy
. We examined the same loss-of-function Dysf mutation in two different mouse strains, 129T2/SvEmsJ (Dysf(129)) and C57BL/6J (Dysf(B6)). Although there are many genetic differences between these two strains, we focused on polymorphisms in Anxa6 because these variants were previously associated with modifying a pathologically distinct form of
muscular dystrophy
and increased the production of a truncated
annexin A6
protein. Dysferlin deficiency in the C57BL/6J background was associated with increased Evan's Blue dye uptake into muscle and increased serum creatine kinase compared to the 129T2/SvEmsJ background. In the C57BL/6J background, dysferlin loss was associated with enhanced pathologic severity, characterized by decreased mean fiber cross-sectional area, increased internalized nuclei, and increased fibrosis, compared to that in Dysf(129) mice. Macrophage infiltrate was also increased in Dysf(B6) muscle. High-resolution imaging of live myofibers demonstrated that fibers from Dysf(B6) mice displayed reduced translocation of full-length
annexin A6
to the site of laser-induced sarcolemmal disruption compared to Dysf(129) myofibers, and impaired translocation of
annexin A6
associated with impaired resealing of the sarcolemma. These results provide one mechanism by which the C57BL/6J background intensifies dysferlinopathy, giving rise to a more severe form of
muscular dystrophy
in the Dysf(B6) mouse model through increased membrane leak and inflammation.
...
PMID:Enhanced Muscular Dystrophy from Loss of Dysferlin Is Accompanied by Impaired Annexin A6 Translocation after Sarcolemmal Disruption. 2707 Aug 22
Membrane repair is essential to cell survival. In skeletal muscle, injury often associates with plasma membrane disruption. Additionally,
muscular dystrophy
is linked to mutations in genes that produce fragile membranes or reduce membrane repair. Methods to enhance repair and reduce susceptibility to injury could benefit muscle in both acute and chronic injury settings. Annexins are a family of membrane-associated Ca2+-binding proteins implicated in repair, and
annexin A6
was previously identified as a genetic modifier of muscle injury and disease. Annexin A6 forms the repair cap over the site of membrane disruption. To elucidate how annexins facilitate repair, we visualized annexin cap formation during injury. We found that annexin cap size positively correlated with increasing Ca2+ concentrations. We also found that annexin overexpression promoted external blebs enriched in Ca2+ and correlated with a reduction of intracellular Ca2+ at the injury site. Annexin A6 overexpression reduced membrane injury, consistent with enhanced repair. Treatment with recombinant
annexin A6
protected against acute muscle injury in vitro and in vivo. Moreover, administration of recombinant
annexin A6
in a model of
muscular dystrophy
reduced serum creatinine kinase, a biomarker of disease. These data identify annexins as mediators of membrane-associated Ca2+ release during membrane repair and
annexin A6
as a therapeutic target to enhance membrane repair capacity.
...
PMID:Recombinant annexin A6 promotes membrane repair and protects against muscle injury. 3154 99
