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A necessary role of DNMT3A in endurance exercise by suppressing ALDH1L1-mediated oxidative stress.

Authors :
Damal Villivalam, Sneha
Damal Villivalam, Sneha
Ebert, Scott
Lim, Hee
Kim, Jinse
You, Dongjoo
Jung, Byung
Palacios, Hector
Tcheau, Tabitha
Adams, Christopher
Kang, Sona
Damal Villivalam, Sneha
Damal Villivalam, Sneha
Ebert, Scott
Lim, Hee
Kim, Jinse
You, Dongjoo
Jung, Byung
Palacios, Hector
Tcheau, Tabitha
Adams, Christopher
Kang, Sona
Source :
The EMBO Journal; vol 40, iss 9
Publication Year :
2021

Abstract

Exercise can alter the skeletal muscle DNA methylome, yet little is known about the role of the DNA methylation machinery in exercise capacity. Here, we show that DNMT3A expression in oxidative red muscle increases greatly following a bout of endurance exercise. Muscle-specific Dnmt3a knockout mice have reduced tolerance to endurance exercise, accompanied by reduction in oxidative capacity and mitochondrial respiration. Moreover, Dnmt3a-deficient muscle overproduces reactive oxygen species (ROS), the major contributors to muscle dysfunction. Mechanistically, we show that DNMT3A suppresses the Aldh1l1 transcription by binding to its promoter region, altering its epigenetic profile. Forced expression of ALDH1L1 elevates NADPH levels, which results in overproduction of ROS by the action of NADPH oxidase complex, ultimately resulting in mitochondrial defects in myotubes. Thus, inhibition of ALDH1L1 pathway can rescue oxidative stress and mitochondrial dysfunction from Dnmt3a deficiency in myotubes. Finally, we show that in vivo knockdown of Aldh1l1 largely rescues exercise intolerance in Dnmt3a-deficient mice. Together, we establish that DNMT3A in skeletal muscle plays a pivotal role in endurance exercise by controlling intracellular oxidative stress.

Details

Database :
OAIster
Journal :
The EMBO Journal; vol 40, iss 9
Notes :
application/pdf, The EMBO Journal vol 40, iss 9
Publication Type :
Electronic Resource
Accession number :
edsoai.on1401040973
Document Type :
Electronic Resource