Literature DB >> 24239457

Alternate splicing of dysferlin C2A confers Ca²⁺-dependent and Ca²⁺-independent binding for membrane repair.

Kerry Fuson1, Anne Rice2, Ryan Mahling2, Adam Snow1, Kamakshi Nayak1, Prajna Shanbhogue1, Austin G Meyer1, Gregory M I Redpath3, Anne Hinderliter2, Sandra T Cooper3, R Bryan Sutton4.   

Abstract

Dysferlin plays a critical role in the Ca²⁺-dependent repair of microlesions that occur in the muscle sarcolemma. Of the seven C2 domains in dysferlin, only C2A is reported to bind both Ca²⁺ and phospholipid, thus acting as a key sensor in membrane repair. Dysferlin C2A exists as two isoforms, the "canonical" C2A and C2A variant 1 (C2Av1). Interestingly, these isoforms have markedly different responses to Ca²⁺ and phospholipid. Structural and thermodynamic analyses are consistent with the canonical C2A domain as a Ca²⁺-dependent, phospholipid-binding domain, whereas C2Av1 would likely be Ca²⁺-independent under physiological conditions. Additionally, both isoforms display remarkably low free energies of stability, indicative of a highly flexible structure. The inverted ligand preference and flexibility for both C2A isoforms suggest the capability for both constitutive and Ca²⁺-regulated effector interactions, an activity that would be essential in its role as a mediator of membrane repair.
Copyright © 2014 Elsevier Ltd. All rights reserved.

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Year:  2013        PMID: 24239457      PMCID: PMC5993433          DOI: 10.1016/j.str.2013.10.001

Source DB:  PubMed          Journal:  Structure        ISSN: 0969-2126            Impact factor:   5.006


  44 in total

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