[PDF][PDF] In vivo imaging of molecular interactions at damaged sarcolemma

U Roostalu, U Strähle - Developmental cell, 2012 - cell.com
U Roostalu, U Strähle
Developmental cell, 2012cell.com
Muscle cells have a remarkable capability to repair plasma membrane lesions. Mutations in
dysferlin (dysf) are known to elicit a progressive myopathy in humans, probably due to
impaired sarcolemmal repair. We show here that loss of Dysf and annexin A6 (Anxa6)
function lead to myopathy in zebrafish. By use of high-resolution imaging of myofibers in
intact animals, we reveal sequential phases in sarcolemmal repair. Initially, membrane
vesicles enriched in Dysf together with cytoplasmic Anxa6 form a tight patch at the lesion …
Summary
Muscle cells have a remarkable capability to repair plasma membrane lesions. Mutations in dysferlin (dysf) are known to elicit a progressive myopathy in humans, probably due to impaired sarcolemmal repair. We show here that loss of Dysf and annexin A6 (Anxa6) function lead to myopathy in zebrafish. By use of high-resolution imaging of myofibers in intact animals, we reveal sequential phases in sarcolemmal repair. Initially, membrane vesicles enriched in Dysf together with cytoplasmic Anxa6 form a tight patch at the lesion independently of one another. In the subsequent steps, annexin A2a (Anxa2a) followed by annexin A1a (Anxa1a) accumulate at the patch; the recruitment of these annexins depends on Dysf and Anxa6. Thus, sarcolemmal repair relies on the ordered assembly of a protein-membrane scaffold. Moreover, we provide several lines of evidence that the membrane for sarcolemmal repair is derived from a specialized plasma membrane compartment.
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