Myosin Dilated Cardiomyopathy Mutation S532P Disrupts Actomyosin Interactions, Leading to Altered Muscle Kinetics, Reduced Locomotion, and Cardiac Dilation in

Overview

Journal Mol Biol Cell

Specialties Cell Biology
Molecular Biology

Date 2021 Jun 3

PMID 34081531

Citations 6

Authors

Adriana S Trujillo

Karen H Hsu

Joy Puthawala

Meera C Viswanathan

Amy Loya

Thomas C Irving

Anthony Cammarato

Douglas M Swank

Sanford I Bernstein

Affiliations

Soon will be listed here.

Abstract

Dilated cardiomyopathy (DCM), a life-threatening disease characterized by pathological heart enlargement, can be caused by myosin mutations that reduce contractile function. To better define the mechanistic basis of this disease, we employed the powerful genetic and integrative approaches available in To this end, we generated and analyzed the first fly model of human myosin-induced DCM. The model reproduces the S532P human β-cardiac myosin heavy chain DCM mutation, which is located within an actin-binding region of the motor domain. In concordance with the mutation's location at the actomyosin interface, steady-state ATPase and muscle mechanics experiments revealed that the S532P mutation reduces the rates of actin-dependent ATPase activity and actin binding and increases the rate of actin detachment. The depressed function of this myosin form reduces the number of cross-bridges during active wing beating, the power output of indirect flight muscles, and flight ability. Further, mutant hearts exhibit cardiac dilation that is mutant gene dose-dependent. Our study shows that can faithfully model various aspects of human DCM phenotypes and suggests that impaired actomyosin interactions in S532P myosin induce contractile deficits that trigger the disease.

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