Gregory Redpath scite author profile

Dysferlin is proposed as a key mediator of calcium-dependent muscle membrane repair, although its precise role has remained elusive. Dysferlin interacts with a new membrane repair protein, mitsugumin 53 (MG53), an E3 ubiquitin ligase that shows rapid recruitment to injury sites. Using a novel ballistics assay in primary human myotubes, we show it is not full-length dysferlin recruited to sites of membrane injury but an injury-specific calpain-cleavage product, mini-dysferlin C72 . Mini-dysferlin C72 -rich vesicles are rapidly recruited to injury sites and fuse with plasma membrane compartments decorated by MG53 in a process coordinated by L-type calcium channels. Collective interplay between activated calpains, dysferlin, and L-type channels explains how muscle cells sense a membrane injury and mount a specialized response in the unique local environment of a membrane injury. Mini-dysferlin C72 and MG53 form an intricate lattice that intensely labels exposed phospholipids of injury sites, then infiltrates and stabilizes the membrane lesion during repair. Our results extend functional parallels between ferlins and synaptotagmins. Whereas otoferlin exists as long and short splice isoforms, dysferlin is subject to enzymatic cleavage releasing a synaptotagmin-like fragment with a specialized protein-or phospholipid-binding role for muscle membrane repair.

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Calpain cleavage within dysferlin exon 40a releases a synaptotagmin-like module for membrane repair

Redpath

Woolger

Piper

et al. 2014

MBoC

103

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A mobile endocytic network connects clathrin-independent receptor endocytosis to recycling and promotes T cell activation

et al. 2018

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Endocytosis of surface receptors and their polarized recycling back to the plasma membrane are central to many cellular processes, such as cell migration, cytokinesis, basolateral polarity of epithelial cells and T cell activation. Little is known about the mechanisms that control the organization of recycling endosomes and how they connect to receptor endocytosis. Here, we follow the endocytic journey of the T cell receptor (TCR), from internalization at the plasma membrane to recycling back to the immunological synapse. We show that TCR triggering leads to its rapid uptake through a clathrin-independent pathway. Immediately after internalization, TCR is incorporated into a mobile and long-lived endocytic network demarked by the membrane-organizing proteins flotillins. Although flotillins are not required for TCR internalization, they are necessary for its recycling to the immunological synapse. We further show that flotillins are essential for T cell activation, supporting TCR nanoscale organization and signaling.

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Gregory Redpath

Calpains, Cleaved Mini-Dysferlin_C72, and L-Type Channels Underpin Calcium-Dependent Muscle Membrane Repair

Calpain cleavage within dysferlin exon 40a releases a synaptotagmin-like module for membrane repair

A mobile endocytic network connects clathrin-independent receptor endocytosis to recycling and promotes T cell activation

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Gregory Redpath

Calpains, Cleaved Mini-DysferlinC72, and L-Type Channels Underpin Calcium-Dependent Muscle Membrane Repair

Calpain cleavage within dysferlin exon 40a releases a synaptotagmin-like module for membrane repair

A mobile endocytic network connects clathrin-independent receptor endocytosis to recycling and promotes T cell activation

Contact Info

Product

Resources

About

Calpains, Cleaved Mini-Dysferlin_C72, and L-Type Channels Underpin Calcium-Dependent Muscle Membrane Repair