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Literature DB >> 33468709

A pro-diabetogenic mtDNA polymorphism in the mitochondrial-derived peptide, MOTS-c.

Hirofumi Zempo^1,2, Su-Jeong Kim³, Noriyuki Fuku¹, Yuichiro Nishida⁴, Yasuki Higaki⁵, Junxiang Wan³, Kelvin Yen³, Brendan Miller³, Roberto Vicinanza³, Eri Miyamoto-Mikami¹, Hiroshi Kumagai^1,6, Hisashi Naito¹, Jialin Xiao³, Hemal H Mehta³, Changhan Lee³, Megumi Hara⁴, Yesha M Patel⁷, Veronica W Setiawan⁷, Timothy M Moore⁸, Andrea L Hevener⁸, Yoichi Sutoh⁹, Atsushi Shimizu⁹, Kaname Kojima¹⁰, Kengo Kinoshita¹⁰, Yasumichi Arai¹¹, Nobuyoshi Hirose¹¹, Seiji Maeda¹², Keitaro Tanaka⁴, Pinchas Cohen³.

Abstract

Type 2 Diabetes (T2D) is an emerging public health problem in Asia. Although ethnic specific mtDNA polymorphisms have been shown to contribute to T2D risk, the functional effects of the mtDNA polymorphisms and the therapeutic potential of mitochondrial-derived peptides at the mtDNA polymorphisms are underexplored. Here, we showed an Asian-specific mitochondrial DNA variation m.1382A>C (rs111033358) leads to a K14Q amino acid replacement in MOTS-c, an insulin sensitizing mitochondrial-derived peptide. Meta-analysis of three cohorts (n = 27,527, J-MICC, MEC, and TMM) show that males but not females with the C-allele exhibit a higher prevalence of T2D. In J-MICC, only males with the C-allele in the lowest tertile of physical activity increased their prevalence of T2D, demonstrating a kinesio-genomic interaction. High-fat fed, male mice injected with MOTS-c showed reduced weight and improved glucose tolerance, but not K14Q-MOTS-c treated mice. Like the human data, female mice were unaffected. Mechanistically, K14Q-MOTS-c leads to diminished insulin-sensitization in vitro. Thus, the m.1382A>C polymorphism is associated with susceptibility to T2D in men, possibly interacting with exercise, and contributing to the risk of T2D in sedentary males by reducing the activity of MOTS-c.

Entities: Chemical

Keywords: MOTS-c; diabetes; insulin resistance; mitochondrial DNA; polymorphism

Mesh：

Substances：

Year: 2021 PMID： 33468709 PMCID： PMC7880332 DOI： 10.18632/aging.202529

Source DB: PubMed Journal: Aging (Albany NY) ISSN： 1945-4589 Impact factor: 5.955

48 in total

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