Intercellular interaction between FAP+ fibroblasts and CD150+inflammatory monocytes mediates fibrostenosis in Crohn's disease

• Authors: KE Bo-Jun; ABDURAHIMAN Saeed; BISCU Francesca; ZANELLA Gaia; DRAGONI Gabriele; SANTHOSH Sneha; VERONICA De Simone; ZOUZAF Anissa; LIES van Baarle; STAKENBORG Michelle; BOSÁKOVÁ Veronika; YENTL Van Rymenant; VERHULST Emile; VERSTOCKT Sare; KLEIN Elliott; BISLENGHI Gabriele; WOLTHUIS Albert; FRIČ Jan; BREYNAERT Christine; D'HOORE Andre; PIETER van der Veken; INGRID De Meester; LOVISA Sara; HAWINKELS Lukas J A C; VERSTOCKT Bram; GERT De Hertogh; VERMEIRE Severine; MATTEOLI Gianluca
• Year of publication: 2024
• Type: Article in Periodical
• Magazine / Source: Journal of Clinical Investigation
• MU Faculty or unit: Faculty of Medicine
• Web: https://www.jci.org/articles/view/173835
• Doi: http://dx.doi.org/10.1172/JCI173835
• Keywords: Crohn's disease; FAP+ fibroblasts; CD150+inflammatory monocytes

Attached files

• Intercellular_interaction_between_FAP__fibroblasts_and_CD150_inflammatory_monocytes_mediates_fibrostenosis_in_Crohn_s_disease.pdf

• Description: Crohn's disease (CD) is marked by recurring intestinal inflammation and tissue injury, often resulting in fibrostenosis and bowel obstruction, necessitating surgical intervention with high recurrence rates. To elucidate the mechanisms underlying fibrostenosis in CD, we analyzed the transcriptome of cells isolated from the transmural ileum of patients with CD, including a trio of lesions from each patient: non-affected, inflamed, and stenotic ileum samples, and compared them with samples from patients without CD. Our computational analysis revealed that profibrotic signals from a subset of monocyte-derived cells expressing CD150 induced a disease-specific fibroblast population, resulting in chronic inflammation and tissue fibrosis. The transcription factor TWIST1 was identified as a key modulator of fibroblast activation and extracellular matrix (ECM) deposition. Genetic and pharmacological inhibition of TWIST1 prevents fibroblast activation, reducing ECM production and collagen deposition. Our findings suggest that the myeloid-stromal axis may offer a promising therapeutic target to prevent fibrostenosis in CD.

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