Exercise reestablishes autophagic flux and mitochondrial quality control in heart failure

Juliane C. Campos; Bruno B. Queliconi; Luiz H. M. Bozi; Luiz Roberto Grassmann Bechara; Paulo Magno Martins Dourado; Allen M. Andres; Paulo R. Jannig; Maria Kátia Gomes; Vanessa O. Zambelli; Cibele Rocha‐Resende; Sílvia Guatimosim; Patrı́cia C. Brum; Daria Mochly‐Rosen; Roberta A. Gottlieb; Alicia J. Kowaltowski; Julio Cesar Batista Ferreira

doi:10.1080/15548627.2017.1325062

Exercise reestablishes autophagic flux and mitochondrial quality control in heart failure

Juliane C. Campos(Cedars-Sinai Medical Center), Bruno B. Queliconi(Universidade de São Paulo), Luiz H. M. Bozi(Universidade de São Paulo), Luiz Roberto Grassmann Bechara(Universidade de São Paulo), Paulo Magno Martins Dourado(Universidade de São Paulo), Allen M. Andres(Cedars-Sinai Medical Center), Paulo R. Jannig(Universidade de São Paulo), Maria Kátia Gomes(Universidade de São Paulo), Vanessa O. Zambelli(Instituto Butantan), Cibele Rocha‐Resende(Universidade Federal de Minas Gerais), Sílvia Guatimosim(Universidade Federal de Minas Gerais), Patrı́cia C. Brum(Universidade de São Paulo), Daria Mochly‐Rosen(Stanford University), Roberta A. Gottlieb(Cedars-Sinai Medical Center), Alicia J. Kowaltowski(Universidade de São Paulo), Julio Cesar Batista Ferreira(Universidade de São Paulo)

Autophagy

June 9, 2017

10.1080/15548627.2017.1325062

Cited by 143Open Access

Full Text

Abstract

-induced mitochondrial permeability transition pore opening. Of interest, disruption of autophagic flux was sufficient to decrease cardiac mitochondrial function in sham-treated animals and increase cardiomyocyte toxicity upon mitochondrial stress. Importantly, 8 wk of exercise training, starting 4 wk after myocardial infarction at a time when autophagy and mitochondrial oxidative capacity were already impaired, improved cardiac autophagic flux. These changes were followed by reduced mitochondrial number:size ratio, increased mitochondrial bioenergetics and better cardiac function. Moreover, exercise training increased cardiac mitochondrial number, size and oxidative capacity without affecting autophagic flux in sham-treated animals. Further supporting an autophagy mechanism for exercise-induced improvements of mitochondrial bioenergetics in heart failure, acute in vivo inhibition of autophagic flux was sufficient to mitigate the increased mitochondrial oxidative capacity triggered by exercise in failing hearts. Collectively, our findings uncover the potential contribution of exercise in restoring cardiac autophagy flux in heart failure, which is associated with better mitochondrial quality control, bioenergetics and cardiac function.

Related Papers

No related papers found

Powered by citation graph analysis