Zheng Hong-Xiang, Li Lei, Jiang Xiao-Yan, Yan Shi, Qin Zhendong, Wang Xiaofeng, Jin Li
Ministry of Education Key Laboratory of Contemporary Anthropology and Center for Evolutionary Biology, School of Life Sciences and Institutes of Biomedical Sciences, Fudan University, Shanghai, China.
Key Laboratory of Arrhythmias of the Ministry of Education of China, Tongji University School of Medicine, Shanghai, China.
Hum Genet. 2017 Oct;136(10):1353-1362. doi: 10.1007/s00439-017-1829-0. Epub 2017 Aug 10.
Considerable attention has been focused on the effect of deleterious mutations caused by the recent relaxation of selective constraints on human health, including the prevalence of obesity, which might represent an adaptive response of energy-conserving metabolism under the conditions of modern society. Mitochondrial DNA (mtDNA) encoding 13 core subunits of oxidative phosphorylation plays an important role in metabolism. Therefore, we hypothesized that a relaxation of selection constraints on mtDNA and an increase in the proportion of deleterious mutations have played a role in obesity prevalence. In this study, we collected and sequenced the mtDNA genomes of 722 Uyghurs, a typical population with a high prevalence of obesity. We identified the variants that occurred in the Uyghur population for each sample and found that the number of nonsynonymous mutations carried by Uyghur individuals declined with elevation of their BMI (P = 0.015). We further calculated the nonsynonymous and synonymous ratio (N/S) of the high-BMI and low-BMI haplogroups, and the results showed that a significantly higher N/S occurred in the whole mtDNA genomes of the low-BMI haplogroups (0.64) than in that of the high-BMI haplogroups (0.35, P = 0.030) and ancestor haplotypes (0.41, P = 0.032); these findings indicated that low-BMI individuals showed a recent relaxation of selective constraints. In addition, we investigated six clinical characteristics and found that fasting plasma glucose might be correlated with the N/S and selective pressures. We hypothesized that a higher proportion of deleterious mutations led to mild mitochondrial dysfunction, which helps to drive glucose consumption and thereby prevents obesity. Our results provide new insights into the relationship between obesity predisposition and mitochondrial genome evolution.
近期选择性约束的放松所导致的有害突变对人类健康的影响,包括肥胖症的流行,已受到了广泛关注,肥胖症可能代表了现代社会条件下节能代谢的一种适应性反应。编码氧化磷酸化13个核心亚基的线粒体DNA(mtDNA)在新陈代谢中起着重要作用。因此,我们推测对mtDNA选择约束的放松以及有害突变比例的增加在肥胖症流行中发挥了作用。在本研究中,我们收集并测序了722名维吾尔族人的mtDNA基因组,维吾尔族是肥胖症患病率较高的典型人群。我们确定了每个样本在维吾尔族人群中出现的变异,发现维吾尔族个体携带的非同义突变数量随着BMI的升高而减少(P = 0.015)。我们进一步计算了高BMI和低BMI单倍群的非同义与同义比率(N/S),结果显示低BMI单倍群的整个mtDNA基因组中的N/S(0.64)显著高于高BMI单倍群(0.35,P = 0.030)和祖先单倍型(0.41,P = 0.032);这些发现表明低BMI个体近期的选择约束有所放松。此外,我们调查了六项临床特征,发现空腹血糖可能与N/S和选择压力相关。我们推测较高比例的有害突变会导致轻度线粒体功能障碍,这有助于推动葡萄糖消耗,从而预防肥胖。我们的研究结果为肥胖易感性与线粒体基因组进化之间的关系提供了新的见解。
