Literature DB >> 29514081

ERRγ Promotes Angiogenesis, Mitochondrial Biogenesis, and Oxidative Remodeling in PGC1α/β-Deficient Muscle.

Weiwei Fan1, Nanhai He1, Chun Shi Lin1, Zong Wei1, Nasun Hah1, Wanda Waizenegger1, Ming-Xiao He1, Christopher Liddle2, Ruth T Yu1, Annette R Atkins1, Michael Downes3, Ronald M Evans4.   

Abstract

PGC1α is a pleiotropic co-factor that affects angiogenesis, mitochondrial biogenesis, and oxidative muscle remodeling via its association with multiple transcription factors, including the master oxidative nuclear receptor ERRγ. To decipher their epistatic relationship, we explored ERRγ gain of function in muscle-specific PGC1α/β double-knockout (PKO) mice. ERRγ-driven transcriptional reprogramming largely rescues muscle damage and improves muscle function in PKO mice, inducing mitochondrial biogenesis, antioxidant defense, angiogenesis, and a glycolytic-to-oxidative fiber-type transformation independent of PGC1α/β. Furthermore, in combination with voluntary exercise, ERRγ gain of function largely restores mitochondrial energetic deficits in PKO muscle, resulting in a 5-fold increase in running performance. Thus, while PGC1s can interact with multiple transcription factors, these findings implicate ERRs as the major molecular target through which PGC1α/β regulates both innate and adaptive energy metabolism.
Copyright © 2018 The Author(s). Published by Elsevier Inc. All rights reserved.

Entities:  

Keywords:  ERR; PGC1; estrogen related receptor; exercise; fatty acid oxidation; glycolysis; mitochondria; muscle; muscle damage; vasculature

Mesh:

Substances:

Year:  2018        PMID: 29514081      PMCID: PMC5860878          DOI: 10.1016/j.celrep.2018.02.047

Source DB:  PubMed          Journal:  Cell Rep            Impact factor:   9.423


  31 in total

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