Exome wide association study for blood lipids in 1,158,017 individuals from diverse populations

联想(心理学) 外显子组 遗传学 外显子组测序 生物 医学 突变 心理学 基因 心理治疗师
作者
Satoshi Koyama,Zhi Yu,Seung Hoan Choi,Sean J. Jurgens,Margaret Sunitha Selvaraj,Derek Klarin,Jennifer E. Huffman,Shoa L. Clarke,Michael Trinh,Akshaya Ravi,Jacqueline S. Dron,Catherine Spinks,Ida Surakka,Aarushi Bhatnagar,Kim Lannery,Whitney Hornsby,Scott M. Damrauer,Kyong‐Mi Chang,Julie A. Lynch,Themistocles L. Assimes
出处
期刊:Nature Genetics [Nature Portfolio]
被引量:4
标识
DOI:10.1038/s41588-026-02613-y
摘要

Abstract Rare coding alleles play crucial roles in the molecular diagnosis of genetic diseases. However, the systemic identification of these alleles has been challenging due to their scarcity in the general population. Here, we discovered and characterized rare coding alleles contributing to genetic dyslipidemia, a principal risk for coronary artery disease, among over a million individuals combining three large contemporary genetic datasets (the Million Veteran Program, n = 634,535, UK Biobank, n = 431,178, and the All of Us Research Program, n = 92,304) totaling 1,158,017 multi-ancestral individuals. Unlike previous rare variant studies in lipids, this study included 238,243 individuals (20.6%) from non-European-like populations. Testing 2,997,401 rare coding variants from diverse backgrounds, we identified 800 exome-wide significant associations across 209 genes including 176 predicted loss of function and 624 missense variants. Among these exome-wide associations, 130 associations were driven by non-European-like populations. Associated alleles are highly enriched in functional variant classes, showed significant additive and recessive associations, exhibited similar effects across populations, and resolved pathogenicity for variants enriched in African or South-Asian populations. Furthermore, we identified 5 lipid-related genes associated with coronary artery disease (RORC, CFAP65, GTF2E2, PLCB3, and ZNF117) . Among them, RORC is a potentially novel therapeutic target through the down regulation of LDLC by its silencing. This study provides resources and insights for understanding causal mechanisms, quantifying the expressivity of rare coding alleles, and identifying novel drug targets across diverse populations.
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