Dysbiotic microbiota trigger colitis-associated colorectal cancer and imprint a distinctive bile acid profile in a PSC-IBD model
Menée aux Etats-Unis à l'aide de modèles murins et à partir des résultats de coloscopies réalisées entre 2012 et 2022 auprès de 9 090 patients atteints d'une colite ulcéreuse associée ou non à une cholangite sclérosante primitive, cette étude met en évidence un mécanisme par lequel le microbiote, chez les patients présentant une colite ulcéreuse associée à une cholangite sclérosante primitive, favorise le développement d'un cancer colorectal en perdant sa capacité à transformer les acides biliaires primaires en acides biliaires secondaires
Background : Primary sclerosing cholangitis-associated UC (PSC-UC) carries excess colorectal neoplasia despite often mild-appearing endoscopy, implicating persistent microscopic inflammation and microbiota–bile acid (BA) dysfunction.
Objective : To test whether PSC-UC neoplasia is driven by transferable microbiota-mediated inflammation linked to secondary BA loss.
Design Surveillance : colonoscopies (2012–2022) from PSC-UC (n=251) and UC-only (n=8839) were compared for segmental endoscopic/histological activity and dysplasia. We generated multidrug resistance protein 2 (MDR2)
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× interleukin (IL)-10
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double-knockout (DKO) mice and used germ-free (GF) derivation, faecal microbiota transplantation (FMT), antibiotic conditioning and cohousing with shotgun metagenomics and liquid chromatography–tandem mass spectrometry BA profiling.
Results : PSC-UC showed greater inflammatory activity and a right-shifted dysplasia burden versus UC-only. Under specific-pathogen-free conditions, DKO mice developed early right-predominant colitis and multifocal dysplasia progressing with age. DKO communities were depleted of 7
α-dehydroxylation capacity with near absence of deoxycholic and lithocholic acids and no enrichment of canonical bacterial genotoxins. GF DKO mice were protected, whereas live DKO donor FMT reinstated severe colitis and dysplasia; sterile-filtered stool supernatant was inactive. IL-10
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donor FMT or cohousing attenuated colitis and increased recipient secondary BA, whereas wild-type/MDR2
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donor transfers were non-colitogenic. In GF DKO mice, direct deoxycholic acid repletion caused hepatotoxicity.
Conclusion : PSC-UC neoplasia associates with transmissible microbiota-dependent inflammation and secondary BA deficiency. Controlled restoration of BA-transforming microbial functions, rather than indiscriminate secondary BA replacement, is a rational translational direction.
Gut , article en libre accès, 2026