miR147 promotes mucosal integrity and healing in intestinal inflammation
Agnieszka K. Czopik, … , Xiaoyi Yuan, Holger K. Eltzschig
Agnieszka K. Czopik, … , Xiaoyi Yuan, Holger K. Eltzschig
Published September 16, 2025
Citation Information: JCI Insight. 2025;10(20):e190466. https://doi.org/10.1172/jci.insight.190466.
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Research Article Gastroenterology Inflammation

miR147 promotes mucosal integrity and healing in intestinal inflammation

Abstract

The intestinal mucosal epithelium forms a barrier between luminal contents and the body. MicroRNAs (miRNAs) regulate mucosal homeostasis by controlling inflammatory responses and structural integrity. Here, we discovered a protective role for miR147 in intestinal inflammation using a miR147tdTomato reporter mouse. miR147 was enriched in the intestines, with the highest expression in the colonic epithelial cells at the luminal surface, with prominent expression in differentiated enterocytes. Mice with general or intestinal epithelial deletion of miR147 showed increased intestinal inflammation and diminished mucosal healing during colitis. RNA sequencing of miR147-deficient cells showed dysregulated immune signaling, with upregulated proinflammatory cytokine pathways and reduced type I interferon responses and revealed Ndufa4 as a likely miR147 target. Ndufa4, a mitochondrial protein regulating energy metabolism and inflammation, was elevated at the crypt base, inversely correlating with miR147. Mice lacking the miR147 binding site in Ndufa4’s 3′-UTR phenocopied miR147-deficient mice during colitis. Spatial and single-cell transcriptomic analyses in murine and human colons showed mutually exclusive miR147 and Ndufa4 expression, consistent with a regulatory relationship in epithelial differentiation and metabolism. These findings underscore miR147’s role in intestinal homeostasis and mucosal healing, suggesting it as a therapeutic target for inflammatory bowel disease.

Authors

Agnieszka K. Czopik, Arash Dabiri, Chia-Hao Tung, Victoria Vaughn, Xiangsheng Huang, Jinlian Wang, Hui Li, Nicolas F. Moreno, Natalia V. Piwko, Katherine Figarella, Hongfang Liu, Zhongming Zhao, Xiaoyi Yuan, Holger K. Eltzschig

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Figure 5

Deletion of miR147 disrupts immune signaling pathways in the intestine.

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Deletion of miR147 disrupts immune signaling pathways in the intestine. ...
Total RNA was purified from isolated intestinal epithelial cells (IECs) derived from iR147fl/fl Villin Cre+ and Villin Cre+ mice (n = 3 per group) treated with 3% DSS for 5 days followed by 1 day of water. RNA-seq was performed and analyzed at the UT Health Science Center Cancer Genomic Core. (A) Heatmap of downregulated and upregulated genes across each group of 3 mice. (B) Volcano plot of the top 100 differentially expressed genes (DEGs), based on adjusted P value and log2(fold change), between the 2 groups. Red dots represent genes expressed at higher levels in miR147fl/fl Villin Cre+ mice; blue dots represent genes with higher expression levels in Villin Cre+ mice. The x axis represents log2(fold change); the y axis represents statistical significance (–log10 Padj) for each gene, analyzed by DESeq2. The volcano plot was generated using GraphPad Prism version 10.1.1. (C) Gene ontology (GO) enrichment analysis of DEGs retrieved using DAVID (https://david.ncifcrf.gov/). The top 30 most enriched GO terms in the biological process, molecular function, and cellular component categories are presented. All adjusted statistically significant values of the terms were –10-base log transformed. (D) Bar graph showing the top genes, based on log2(fold change), related to the type I interferon pathway in the miR147-deficient intestinal epithelium, analyzed by DESeq2.