Preserved Cardiac Function by Vinculin Enhances Glucose Oxidation and Extends Health- and Life-span

Overview

Journal APL Bioeng

Date 2018 Aug 15

PMID 30105314

Citations 3

Authors

Ayla O Sessions

Peter Min

Thekla Cordes

Barry J Weickert

Ajit S Divakaruni

Anne N Murphy

Christian M Metallo

Adam J Engler

Affiliations

Soon will be listed here.

Abstract

Despite limited regenerative capacity as we age, cardiomyocytes maintain their function in part through compensatory mechanisms, e.g., Vinculin reinforcement of intercalated discs in aged organisms. This mechanism, which is conserved from flies to non-human primates, creates a more crystalline sarcomere lattice that extends lifespan, but systemic connections between the cardiac sarcomere structure and lifespan extension are not apparent. Using the rapidly aging fly system, we found that cardiac-specific Vinculin-overexpression [Vinculin heart-enhanced ()] increases heart contractility, maximal cardiac mitochondrial respiration, and organismal fitness with age. Systemic metabolism also dramatically changed with age and ; steady state sugar concentrations, as well as aerobic glucose metabolism, increase in and suggest enhanced energy substrate utilization with increased cardiac performance. When cardiac stress was induced with the complex I inhibitor rotenone, hearts sustain contractions unlike controls. This work establishes a new link between the cardiac cytoskeleton and systemic glucose utilization and protects mitochondrial function from external stress.

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