Literature DB >> 25271058

MFN1 deacetylation activates adaptive mitochondrial fusion and protects metabolically challenged mitochondria.

Joo-Yong Lee1, Meghan Kapur2, Ming Li2, Moon-Chang Choi2, Sujin Choi3, Hak-June Kim3, Inhye Kim3, Eunji Lee3, J Paul Taylor4, Tso-Pang Yao5.   

Abstract

Fasting and glucose shortage activate a metabolic switch that shifts more energy production to mitochondria. This metabolic adaptation ensures energy supply, but also elevates the risk of mitochondrial oxidative damage. Here, we present evidence that metabolically challenged mitochondria undergo active fusion to suppress oxidative stress. In response to glucose starvation, mitofusin 1 (MFN1) becomes associated with the protein deacetylase HDAC6. This interaction leads to MFN1 deacetylation and activation, promoting mitochondrial fusion. Deficiency in HDAC6 or MFN1 prevents mitochondrial fusion induced by glucose deprivation. Unexpectedly, failure to undergo fusion does not acutely affect mitochondrial adaptive energy production; instead, it causes excessive production of mitochondrial reactive oxygen species and oxidative damage, a defect suppressed by an acetylation-resistant MFN1 mutant. In mice subjected to fasting, skeletal muscle mitochondria undergo dramatic fusion. Remarkably, fasting-induced mitochondrial fusion is abrogated in HDAC6-knockout mice, resulting in extensive mitochondrial degeneration. These findings show that adaptive mitochondrial fusion protects metabolically challenged mitochondria.
© 2014. Published by The Company of Biologists Ltd.

Entities:  

Keywords:  Acetylation; HDAC6; MFN1; Metabolic stress; Mitochondrial fusion; ROS

Mesh:

Substances:

Year:  2014        PMID: 25271058      PMCID: PMC4231308          DOI: 10.1242/jcs.157321

Source DB:  PubMed          Journal:  J Cell Sci        ISSN: 0021-9533            Impact factor:   5.285


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