Integrated genetic analyses revealed novel human longevity loci and reduced risks of multiple diseases in a cohort study of 15,651 Chinese individuals

There is growing interest in studying the genetic contributions to longevity, but limited relevant genes have been identified. In this study, we performed a genetic association study of longevity in a total of 15,651 Chinese individuals. Novel longevity loci, BMPER (rs17169634; p = 7.91 × 10−15) and...

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Published in:Aging cell 2021-03, Vol.20 (3), p.e13323-n/a
Main Authors: Liu, Xiaomin, Song, Zijun, Li, Yan, Yao, Yao, Fang, Mingyan, Bai, Chen, An, Peng, Chen, Huashuai, Chen, Zhihua, Tang, Biyao, Shen, Juan, Gao, Xiaotong, Zhang, Mingrong, Chen, Pengyu, Zhang, Tao, Jia, Huijue, Liu, Xiao, Hou, Yong, Yang, Huanming, Wang, Jian, Wang, Fudi, Xu, Xun, Min, Junxia, Nie, Chao, Zeng, Yi
Format: Article
Language:English
Subjects:
Age
Apolipoprotein E
Arthritis
Cardiovascular diseases
centenarians
Cohort analysis
Datasets
Diabetes mellitus (non-insulin dependent)
Disease
Genes
Genetic analysis
Genetic markers
Genetics
Genotype & phenotype
Health aspects
human genetics
Life span
Linkage disequilibrium
Longevity
Medical research
Medicine, Experimental
Meiosis
Mortality
Oldest old people
Original
Original Paper
Population
Prediction models
Prognosis
Risk factors
Sex
sex difference
Sex differences
Type 2 diabetes
XPC protein
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Summary:There is growing interest in studying the genetic contributions to longevity, but limited relevant genes have been identified. In this study, we performed a genetic association study of longevity in a total of 15,651 Chinese individuals. Novel longevity loci, BMPER (rs17169634; p = 7.91 × 10−15) and TMEM43/XPC (rs1043943; p = 3.59 × 10−8), were identified in a case–control analysis of 11,045 individuals. BRAF (rs1267601; p = 8.33 × 10−15) and BMPER (rs17169634; p = 1.45 × 10−10) were significantly associated with life expectancy in 12,664 individuals who had survival status records. Additional sex‐stratified analyses identified sex‐specific longevity genes. Notably, sex‐differential associations were identified in two linkage disequilibrium blocks in the TOMM40/APOE region, indicating potential differences during meiosis between males and females. Moreover, polygenic risk scores and Mendelian randomization analyses revealed that longevity was genetically causally correlated with reduced risks of multiple diseases, such as type 2 diabetes, cardiovascular diseases, and arthritis. Finally, we incorporated genetic markers, disease status, and lifestyles to classify longevity or not‐longevity groups and predict life span. Our predictive models showed good performance (AUC = 0.86 for longevity classification and explained 19.8% variance of life span) and presented a greater predictive efficiency in females than in males. Taken together, our findings not only shed light on the genetic contributions to longevity but also elucidate correlations between diseases and longevity. This genetic association study of longevity on 15,651 Chinese individuals (3,448 nonagenarians and 2,509 centenarians) identified two novel human longevity loci. Two novel longevity loci, BMPER (rs17169634; p = 7.91 × 10−15) and TMEM43/XPC (rs1043943; p = 3.59 × 10−8) reached genome‐wide significance. Interestingly, gender differential associations revealed two linkage disequilibrium blocks on TOMM40/APOE region. In addition, our predictive models showed good performance (AUC = 0.86 for longevity classification and explained 19.8% variances of life span), and higher efficiencies in females than males. These findings provide potential strategies for improving healthy aging.
ISSN:1474-9718
1474-9726
DOI:10.1111/acel.13323