Protective role of the Atg8 homologue Gabarapl1 in regulating cardiomyocyte glycophagy in diabetic heart disease

Author:

Mellor Kimberley M.,Varma Upasna,Koutsifeli Parisa,Curl Claire L.,Janssens Johannes V.,Daniels Lorna J.,Bernasochi Gabriel B.,Raaijmakers Antonia J.A.,Benson Victoria L.,Chan Eleia J.,Annandale Marco,Li Xun,Nursalim Yohanes,Ip Wendy T.K.,Taylor David J.,Raedschelders Koen,Stotland Aleksandr,Robinson Aaron E.,Mills Richard J.,Lamberts Regis R.,Powell Kim L.,O’Brien Terence J.,Katare RajeshORCID,Chandramouli Chanchal,Ritchie Rebecca H.,Lim Shiang Y.,Parton Robert G.,Hu Xinli,Bell James R.,Porrello Enzo R.,Hudson James E.,Xiao Rui-Ping,Van Eyk Jennifer E.,Gottlieb Roberta A.,Delbridge Lea M.D.

Abstract

SummaryDiabetic heart disease is highly prevalent and characterized by diastolic dysfunction. The mechanisms of diabetic heart disease are poorly understood and no targeted therapies are available. Here we show that the diabetic myocardium (type 1 and type 2) is characterized by marked glycogen elevation and ectopic cellular localization - a paradoxical metabolic pathology given suppressed cardiomyocyte glucose uptake in diabetes. We demonstrate involvement of a glycogen-selective autophagy pathway (‘glycophagy’) defect in mediating this pathology. Genetically manipulated deficiency of Gabarapl1, an Atg8 autophagy homologue, induces cardiac glycogen accumulation and diastolic dysfunction. Stbd1, the Gabarapl1 cognate autophagosome partner is identified as a unique component of the early glycoproteome response to hyperglycemia in cardiac, but not skeletal muscle. Cardiac-targeted in vivo Gabarapl1 gene delivery normalizes glycogen levels, diastolic function and cardiomyocyte mechanics. These findings reveal that cardiac glycophagy is a key metabolic homeostatic process perturbed in diabetes that can be remediated by Gabarapl1 intervention.

Publisher

Cold Spring Harbor Laboratory

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