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Estrogen receptor α protects pancreatic β-cells from apoptosis by preserving mitochondrial function and suppressing endoplasmic reticulum stress

Authors :
Sushil K. Mahata
Senta Georgia
Prashant Rajbhandari
Marc Liesa
Vicent Ribas
Kenneth S. Korach
Karen Reue
Britany R. Reddish
Sylvia C. Hewitt
Timothy M. Moore
Peter Tontonoz
Franck Mauvais-Jarvis
Orian S. Shirihai
Nai-Wen Chi
Brian G. Drew
Kate Whitney
Joseph P. Tiano
Andrea L. Hevener
Amy H. Fluitt
Alexander M. van der Bliek
Laurent Vergnes
Zhenqi Zhou
Publication Year :
2018
Publisher :
American Society for Biochemistry and Molecular Biology, 2018.

Abstract

Estrogen receptor α (ERα) action plays an important role in pancreatic β-cell function and survival; thus, it is considered a potential therapeutic target for the treatment of type 2 diabetes in women. However, the mechanisms underlying the protective effects of ERα remain unclear. Because ERα regulates mitochondrial metabolism in other cell types, we hypothesized that ERα may act to preserve insulin secretion and promote β-cell survival by regulating mitochondrial-endoplasmic reticulum (EndoRetic) function. We tested this hypothesis using pancreatic islet-specific ERα knockout (PERαKO) mice and Min6 β-cells in culture with Esr1 knockdown (KD). We found that Esr1-KD promoted reactive oxygen species production that associated with reduced fission/fusion dynamics and impaired mitophagy. Electron microscopy showed mitochondrial enlargement and a pro-fusion phenotype. Mitochondrial cristae and endoplasmic reticulum were dilated in Esr1-KD compared with ERα replete Min6 β-cells. Increased expression of Oma1 and Chop was paralleled by increased oxygen consumption and apoptosis susceptibility in ERα-KD cells. In contrast, ERα overexpression and ligand activation reduced both Chop and Oma1 expression, likely by ERα binding to consensus estrogen-response element sites in the Oma1 and Chop promoters. Together, our findings suggest that ERα promotes β-cell survival and insulin secretion through maintenance of mitochondrial fission/fusion-mitophagy dynamics and EndoRetic function, in part by Oma1 and Chop repression.

Details

Language :
English
Database :
OpenAIRE
Accession number :
edsair.doi.dedup.....8588f96ca85a15afdfb28b89dd57395e