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Mitochondrial Retrograde Signaling in Mammals Is Mediated by the Transcriptional Cofactor GPS2 via Direct Mitochondria-to-Nucleus Translocation.

Citation
Cardamone, M. D., et al. “Mitochondrial Retrograde Signaling In Mammals Is Mediated By The Transcriptional Cofactor Gps2 Via Direct Mitochondria-To-Nucleus Translocation.”. Molecular Cell, pp. 757-772.e7.
Center Joslin Diabetes Center UCSD-UCLA
Multicenter
Multicenter
Author Maria Dafne Cardamone, Bogdan Tanasa, Carly T Cederquist, Jiawen Huang, Kiana Mahdaviani, Wenbo Li, Michael G Rosenfeld, Marc Liesa, Valentina Perissi
Keywords BAT, GPS2, adipocyte, mitochondria, mitochondrial retrograde signaling, sumo, Transcription, ubiquitin
Abstract

As most of the mitochondrial proteome is encoded in the nucleus, mitochondrial functions critically depend on nuclear gene expression and bidirectional mito-nuclear communication. However, mitochondria-to-nucleus communication pathways in mammals are incompletely understood. Here, we identify G-Protein Pathway Suppressor 2 (GPS2) as a mediator of mitochondrial retrograde signaling and a transcriptional activator of nuclear-encoded mitochondrial genes. GPS2-regulated translocation from mitochondria to nucleus is essential for the transcriptional activation of a nuclear stress response to mitochondrial depolarization and for supporting basal mitochondrial biogenesis in differentiating adipocytes and brown adipose tissue (BAT) from mice. In the nucleus, GPS2 recruitment to target gene promoters regulates histone H3K9 demethylation and RNA POL2 activation through inhibition of Ubc13-mediated ubiquitination. These findings, together, reveal an additional layer of regulation of mitochondrial gene transcription, uncover a direct mitochondria-nuclear communication pathway, and indicate that GPS2 retrograde signaling is a key component of the mitochondrial stress response in mammals.

Year of Publication
2018
Journal
Molecular cell
Volume
69
Issue
5
Number of Pages
757-772.e7
Date Published
12/2018
ISSN Number
1097-4164
DOI
10.1016/j.molcel.2018.01.037
Alternate Journal
Mol. Cell
PMID
29499132
PMCID
PMC6022402
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