Genome-Wide Aggregated Trans-Effects Analysis Implicates Deficient Type III Interferon Signaling as a Key Cause of Inflammatory Bowel Disease.

IF 4.3 3区医学 Q1 GASTROENTEROLOGY & HEPATOLOGY

Inflammatory Bowel Diseases Pub Date : 2025-09-25 DOI:10.1093/ibd/izaf214

Paul M McKeigue, Andrii Iakovliev, Buddhiprabha Erabadda, Helen M Colhoun, Athina Spiliopoulou

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引用次数: 0

Abstract

Background: Genome-wide association studies of inflammatory bowel disease have identified hundreds of common genetic variants that are associated with inflammatory bowel disease, but few promising therapeutic targets. The "omnigenic" sparse effector hypothesis postulates that the polygenic effects of common SNPs on a typical complex trait are mediated by trans-effects that coalesce on the expression of a sparse set of core genes. The objective of this study was to identify core genes for inflammatory bowel disease.

Methods: Using summary statistics from studies of transcript levels in whole blood or proteins in plasma, we constructed genome-wide aggregated trans-effects (GATE) scores for predicted gene expression in the UK Biobank cohort and tested these scores for association with inflammatory bowel disease (7949 cases, 452 790 noncases).

Results: Inflammatory bowel disease was inversely associated with GATE scores for 5 interferon-stimulated genes-IFIT1, IFI44, HERC5, MX1, IFI44L-regulated by the same trans-expression quantitative trait locus, and with the GATE score for IFNL1. For 6 other genes, GATE score associations with inflammatory bowel disease were supported by other criteria: reported associations with nearby genetic variants, perturbation in experimental models, association with measured protein levels, or drug effects.

Conclusions: These results implicate down-regulation of Type III interferon signaling as a core pathway in the etiology of inflammatory bowel disease, supported by reports of monogenic inflammatory bowel disease caused by rare loss-of-function variants and by perturbation in experimental models of colitis. Deficient Type III interferon signaling may be amenable to therapeutic intervention.

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全基因组聚集反式效应分析暗示缺乏III型干扰素信号是炎症性肠病的关键原因。

背景：炎症性肠病的全基因组关联研究已经确定了数百种与炎症性肠病相关的常见遗传变异，但很少有希望的治疗靶点。“全基因”稀疏效应假说认为，共同snp对典型复杂性状的多基因效应是由反式效应介导的，这些反式效应聚合在一组稀疏的核心基因的表达上。本研究的目的是确定炎症性肠病的核心基因。方法：利用全血或血浆蛋白转录物水平研究的汇总统计数据，我们构建了英国生物银行队列中预测基因表达的全基因组聚合反式效应（GATE）评分，并测试了这些评分与炎症性肠病的相关性（7949例，4522790例非病例）。结果：炎症性肠病与受相同反式表达数量性状位点调控的5种干扰素刺激基因ifit1、IFI44、HERC5、MX1、ifi44l的GATE评分呈负相关，与IFNL1的GATE评分呈负相关。对于其他6个基因，GATE评分与炎症性肠病的关联得到了其他标准的支持：报告的与附近遗传变异的关联、实验模型的扰动、与测量的蛋白质水平的关联或药物效应。结论：这些结果暗示III型干扰素信号下调是炎症性肠病病因学的核心途径，由罕见功能丧失变异和结肠炎实验模型扰动引起的单基因炎症性肠病的报道支持。缺乏III型干扰素信号可能适合治疗干预。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Inflammatory Bowel Diseases 医学-胃肠肝病学

CiteScore

9.70

自引率

6.10%

发文量

462

审稿时长

1 months

期刊介绍： Inflammatory Bowel Diseases® supports the mission of the Crohn''s & Colitis Foundation by bringing the most impactful and cutting edge clinical topics and research findings related to inflammatory bowel diseases to clinicians and researchers working in IBD and related fields. The Journal is committed to publishing on innovative topics that influence the future of clinical care, treatment, and research.