Litcius/Paper detail

ANO5 ensures trafficking of annexins in wounded myofibers

Steven Foltz, Yuan Cui, Hyojung J. Choo, H. Criss Hartzell

2021The Journal of Cell Biology47 citationsDOIOpen Access PDF

Abstract

Mutations in ANO5 (TMEM16E) cause limb-girdle muscular dystrophy R12. Defective plasma membrane repair is a likely mechanism. Using myofibers from Ano5 knockout mice, we show that trafficking of several annexin proteins, which together form a cap at the site of injury, is altered upon loss of ANO5. Annexin A2 accumulates at the wound to nearly twice the level observed in WT fibers, while annexin A6 accumulation is substantially inhibited in the absence of ANO5. Appearance of annexins A1 and A5 at the cap is likewise diminished in the Ano5 knockout. These changes are correlated with an alteration in annexin repair cap fine structure and shedding of annexin-positive vesicles. We conclude that loss of annexin coordination during repair is disrupted in Ano5 knockout mice and underlies the defective repair phenotype. Although ANO5 is a phospholipid scramblase, abnormal repair is rescued by overexpression of a scramblase-defective ANO5 mutant, suggesting a novel, scramblase-independent role of ANO5 in repair.

Topics & Concepts

Cell biologyPhospholipid scramblaseAnnexinKnockout mouseAnnexin A2Annexin A1MutantChemistryBiologyApoptosisPhosphatidylserinePhospholipidBiochemistryMembraneGeneS100 Proteins and AnnexinsMuscle Physiology and DisordersIon channel regulation and function