狒狒对高胆固醇、高脂肪饮食的遗传调控效应。

IF 11.1 Q1 CELL BIOLOGY Cell genomics Pub Date : 2024-03-13 Epub Date: 2024-03-01 DOI:10.1016/j.xgen.2024.100509
Wenhe Lin, Jeffrey D Wall, Ge Li, Deborah Newman, Yunqi Yang, Mark Abney, John L VandeBerg, Michael Olivier, Yoav Gilad, Laura A Cox
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引用次数: 0

摘要

稳态表达定量性状位点(eQTLs)只能解释全基因组关联研究(GWASs)发现的疾病相关位点的一小部分,而涉及基因与环境(GxE)相互作用的 eQTLs 由于实验上的挑战而很少在人类中定性。通过使用狒狒模型,我们发现在长期暴露于高脂肪和高胆固醇饮食后,脂肪、肝脏和肌肉中会出现数百个 eQTL。饮食反应性 eQTLs 表现出不同于稳态 eQTLs 的基因组定位和基因特征。此外,与饮食反应性eQTL相关的人类直系同源物富含与人类代谢特征相关的GWAS基因,这表明具有更复杂调控效应的情境反应性eQTL很可能解释了似乎与标准eQTL不重叠的GWAS命中率。我们的研究结果突显了遗传调控效应的复杂性,以及具有疾病相关 GxE 相互作用的 eQTLs 在利用非人灵长类动物模型加深对人类复杂疾病 GWAS 信号的理解方面的潜力。
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Genetic regulatory effects in response to a high-cholesterol, high-fat diet in baboons.

Steady-state expression quantitative trait loci (eQTLs) explain only a fraction of disease-associated loci identified through genome-wide association studies (GWASs), while eQTLs involved in gene-by-environment (GxE) interactions have rarely been characterized in humans due to experimental challenges. Using a baboon model, we found hundreds of eQTLs that emerge in adipose, liver, and muscle after prolonged exposure to high dietary fat and cholesterol. Diet-responsive eQTLs exhibit genomic localization and genic features that are distinct from steady-state eQTLs. Furthermore, the human orthologs associated with diet-responsive eQTLs are enriched for GWAS genes associated with human metabolic traits, suggesting that context-responsive eQTLs with more complex regulatory effects are likely to explain GWAS hits that do not seem to overlap with standard eQTLs. Our results highlight the complexity of genetic regulatory effects and the potential of eQTLs with disease-relevant GxE interactions in enhancing the understanding of GWAS signals for human complex disease using non-human primate models.

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