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Multi-Omics Framework Integrating Genetics, Microbiome, Metabolism, and Immunity for Deciphering Ulcerative Colitis Pathogenesis and Diagnostic Biomarker Discovery.

Created on 07 Jul 2026

Authors

Yiyun Wang, Yulin Tian, Hongsi Cui, Shiyu Chang, Tongyu Tang, Yu Chang

Published in

FASEB journal : official publication of the Federation of American Societies for Experimental Biology. Volume 40. Issue 13. Pages e72122. Jul 15, 2026.

Abstract

Ulcerative colitis (UC) is an inflammatory bowel disease involving complex interactions between genetics, gut microbiota, metabolism, and immunity. This study aimed to systematically evaluate multi-omics factors potentially associated with UC susceptibility and identify reliable diagnostic biomarkers. A two-sample Mendelian randomization (MR) framework assessed potential causal associations between gut microbiome, circulating metabolites, immune cell phenotypes, and UC susceptibility. Significant MR findings were integrated with multiple transcriptomic datasets to identify differentially expressed candidate genes. Immune infiltration analysis, machine learning modeling, and external validation were subsequently performed. Single-cell and spatial transcriptomics were used to localize key genes and to explore their potential cell type-specific functions within the tissue microenvironment, followed by qRT-PCR validation in independent clinical tissues and siRNA-mediated IFITM2 knockdown in THP-1-derived macrophages. MR analyses identified potential causal associations for specific microbiota, sphingomyelin-related metabolites, and immune cell phenotypes with UC susceptibility. Integrative analysis prioritized four core signature genes: SAG, WDR48, IFITM2, and SIRPA. A random forest model achieved an AUC of 0.964 and identified a four-gene signature with strong diagnostic performance. Single-cell and spatial transcriptomics localized IFITM2 upregulation mainly to myeloid cells, particularly Neutrophil_IFITM2. CellChat suggested a potential CD4_Tem_IL7R-ANXA1-FPR1-Neutrophil_IFITM2 axis. qRT-PCR supported the expression directions of the four genes, and IFITM2 knockdown in THP-1-derived macrophages reduced TNF-α, IL-6, and IL-1β mRNA expression. This multi-omics framework supports the potential roles of specific microbiota, sphingolipid metabolism, and immune phenotypes in UC pathogenesis. The four-gene signature and characterization of Neutrophil_IFITM2, supported by independent qRT-PCR validation and preliminary IFITM2 knockdown experiments, may provide a framework for precision diagnosis and future mechanistic studies in UC.

PMID:
42411190
Bibliographic data and abstract were imported from PubMed on 07 Jul 2026.

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