Identification of a longevity gene through evolutionary rate covariation of insect mito-nuclear genomes.
Mei TaoJiani ChenChunlai CuiYandong XuJingxiu XuZheyi ShiJiaqi YunJunwei ZhangGuo-Zheng OuChao LiuYun ChenZeng-Rong ZhuRonghui PanSuhong XuXue-Xin ChenAntonis RokasYang ZhaoSibao WangJian-Hua HuangXing-Xing ShenPublished in: Nature aging (2024)
Oxidative phosphorylation, essential for energy metabolism and linked to the regulation of longevity, involves mitochondrial and nuclear genes. The functions of these genes and their evolutionary rate covariation (ERC) have been extensively studied, but little is known about whether other nuclear genes not targeted to mitochondria evolutionarily and functionally interact with mitochondrial genes. Here we systematically examined the ERC of mitochondrial and nuclear benchmarking universal single-copy ortholog (BUSCO) genes from 472 insects, identifying 75 non-mitochondria-targeted nuclear genes. We found that the uncharacterized gene CG11837-a putative ortholog of human DIMT1-regulates insect lifespan, as its knockdown reduces median lifespan in five diverse insect species and Caenorhabditis elegans, whereas its overexpression extends median lifespans in fruit flies and C. elegans and enhances oxidative phosphorylation gene activity. Additionally, DIMT1 overexpression protects human cells from cellular senescence. Together, these data provide insights into the ERC of mito-nuclear genes and suggest that CG11837 may regulate longevity across animals.