TWIST1+FAP+ fibroblasts in the pathogenesis of intestinal fibrosis in Crohn’s disease
Yao Zhang, … , Duowu Zou, Bing Su
Yao Zhang, … , Duowu Zou, Bing Su
Published July 18, 2024
Citation Information: J Clin Invest. 2024;134(18):e179472. https://doi.org/10.1172/JCI179472.
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TWIST1+FAP+ fibroblasts in the pathogenesis of intestinal fibrosis in Crohn’s disease

Abstract

Intestinal fibrosis, a severe complication of Crohn’s disease (CD), is characterized by excessive extracellular matrix (ECM) deposition and induces intestinal strictures, but there are no effective antifibrosis drugs available for clinical application. We performed single-cell RNA sequencing (scRNA-Seq) of fibrotic and nonfibrotic ileal tissues from patients with CD with intestinal obstruction. Analysis revealed mesenchymal stromal cells (MSCs) as the major producers of ECM and the increased infiltration of its subset FAP+ fibroblasts in fibrotic sites, which was confirmed by immunofluorescence and flow cytometry. Single-cell transcriptomic profiling of chronic dextran sulfate sodium salt murine colitis model revealed that CD81+Pi16– fibroblasts exhibited transcriptomic and functional similarities to human FAP+ fibroblasts. Consistently, FAP+ fibroblasts were identified as the key subtype with the highest level of ECM production in fibrotic intestines. Furthermore, specific knockout or pharmacological inhibition of TWIST1, which was highly expressed by FAP+ fibroblasts, could significantly ameliorate fibrosis in mice. In addition, TWIST1 expression was induced by CXCL9+ macrophages enriched in fibrotic tissues via IL-1β and TGF-β signal. These findings suggest the inhibition of TWIST1 as a promising strategy for CD fibrosis treatment.

Authors

Yao Zhang, Jiaxin Wang, Hongxiang Sun, Zhenzhen Xun, Zirui He, Yizhou Zhao, Jingjing Qi, Sishen Sun, Qidi Yang, Yubei Gu, Ling Zhang, Chunhua Zhou, Youqiong Ye, Ningbo Wu, Duowu Zou, Bing Su

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Figure 4

Identification of profibrotic macrophage phenotypes in intestinal fibrosis.

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Identification of profibrotic macrophage phenotypes in intestinal fibros...
(A) UMAP plots of the subclustered myeloid cells in the nonfibrotic and fibrotic states. (B) Dot plots of the representative markers of subclustered myeloid cells. The average gene expression levels and percentage of cells expressed are shown by dot color and size, respectively. (C) Comparison of frequencies of CXCL9+ macrophages and MRC1+ macrophages of myeloid cells in paired fibrotic intestinal samples (n = 6) and nonfibrotic intestinal samples (n = 6). Statistical differences were determined by paired t tests. (D) Representative flow cytometry plots of CXCL9+ macrophages and MRC1+ macrophages in fibrotic and nonfibrotic mucosa samples. The gating strategies for MSCs are shown in Supplemental Figure 5F. (E) Flow cytometry analysis revealed the proportion variation in CXCL9+ macrophages and MRC1+ macrophages to CD45+ live cells in fibrotic and nonfibrotic sites. The points corresponding to the paired samples (n = 6) in the graph are connected. Statistical differences were determined by paired t tests. (F) Heatmap showing the correlation between the percentages of total macrophages and macrophage subsets and FAP+ fibroblasts across 12 scRNA-Seq samples. (G) Heatmap showing the gene signature correlation between total macrophages and macrophage subsets and FAP+ fibroblasts in an RNA-Seq dataset (GSE192786, n = 40).