Abstract

Intestinal fibrosis, a frequent complication of inflammatory bowel disease, is characterized by stricture formation with no pharmacological treatment to date. N-acylethanolamine acid amidase (NAAA) is responsible of acylethanolamides (AEs, e.g., palmitoylethanolamide and oleoylethanolamide) hydrolysis. Here, we investigated NAAA and AEs signalling in gut fibrosis. NAAA and AEs signalling were evaluated in human intestinal specimens from stenotic Crohn's diseases (CD) patients. Gut fibrosis was induced by TNBS, monitored by colonoscopy and unascertained by qRT-PCR, histological analyses, and confocal microscopy. Immune cells were analysed in mesenteric lymph nodes by FACS. Colonic fibroblasts were cultured in conditioned media derived from polarized or not bone marrow-derived macrophages (BMDM). IL-23 signalling was evaluated by qRT-PCR, ELISA, FACS, and western blot in BMDM and in lamina propria CX3CR1+ cells. In ileocolonic human CD strictures, increased transcript expression of NAAA was observed with a decrease of its substrates OEA and PEA. NAAA inhibition reduced intestinal fibrosis in vivo, as revealed by decrease in inflammatory parameters, collagen deposition and fibrosis genes, including epithelial to mesenchymal transition. More in-depth studies revealed modulation of the immune response related to IL-23 following NAAA inhibition. The antifibrotic actions of NAAA inhibition are mediated by Mφ and M2 macrophages that indirectly affect fibroblast collagenogenesis. NAAA inhibitor AM9053 normalized IL-23 signalling in BMDM and in lamina propria CX3CR1+ cells. Our findings provide new insights into the pathophysiological mechanism of intestinal fibrosis and identify NAAA as a promising target for the development of therapeutic treatments to alleviate CD fibrosis.

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