Cardiac BIN1 Folds T-tubule Membrane, Controlling Ion Flux and Limiting Arrhythmia

Overview

Journal Nat Med

Specialties General Medicine
Molecular Biology

Date 2014 May 20

PMID 24836577

Citations 143

Authors

TingTing Hong

Huanghe Yang

Shan-Shan Zhang

Hee Cheol Cho

Mariya Kalashnikova

Baiming Sun

Hao Zhang

Anamika Bhargava

Michael Grabe

Jeffrey Olgin

Julia Gorelik

Eduardo Marban

Lily Y Jan

Robin M Shaw

Affiliations

Soon will be listed here.

Abstract

Cardiomyocyte T tubules are important for regulating ion flux. Bridging integrator 1 (BIN1) is a T-tubule protein associated with calcium channel trafficking that is downregulated in failing hearts. Here we find that cardiac T tubules normally contain dense protective inner membrane folds that are formed by a cardiac isoform of BIN1. In mice with cardiac Bin1 deletion, T-tubule folding is decreased, which does not change overall cardiomyocyte morphology but leads to free diffusion of local extracellular calcium and potassium ions, prolonging action-potential duration and increasing susceptibility to ventricular arrhythmias. We also found that T-tubule inner folds are rescued by expression of the BIN1 isoform BIN1+13+17, which promotes N-WASP-dependent actin polymerization to stabilize the T-tubule membrane at cardiac Z discs. BIN1+13+17 recruits actin to fold the T-tubule membrane, creating a 'fuzzy space' that protectively restricts ion flux. When the amount of the BIN1+13+17 isoform is decreased, as occurs in acquired cardiomyopathy, T-tubule morphology is altered, and arrhythmia can result.

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