代谢组
错义突变
结肠炎
癌变
肠道微生物群
生物
突变
微生物群
遗传学
生物信息学
代谢组学
免疫学
基因
作者
Giulio Verna,Stefania De Santis,Bianca N. Islam,Eduardo Sommella,Danilo Licastro,Liangliang Zhang,Fabiano Celio,Fabrizio Merciai,Vicky Caponigro,Pietro Campiglia,Theresa T. Pizarro,Marcello Chieppa,Fabio Cominelli
出处
期刊:
[Cold Spring Harbor Laboratory]
日期:2025-06-03
标识
DOI:10.1101/2025.05.31.657160
摘要
Background and context: Colitis-associated colorectal cancer arises from complex host-environment interactions, including gut microbiome influences, driving chronic inflammation, with the intestinal lumen environment remaining a largely unexplored potential risk factor in cancer development.New findings: Winnie mice in specific pathogen-free conditions developed severe colitis, and a novel juvenile colon dysplasia and cancer, with gut microbiome changes driving colitis-associated cancer initiation and progression.Limitations: We identified a pro-inflammatory microbial/metabolic signature promoting colitis-to-CAC transition in Winnie mice, with FMT confirming microbiota-driven tumor susceptibility. However, further research is needed to pinpoint the key bacteria-metabolite-lipid combination driving CAC.Clinical research relevance: This newly characterized microbiota-metabolome-based model of CAC, challenges the dogma of cancer as a non-transmittable disease, providing a foundation for developing microbiota-based strategies for CAC prevention and treatment.Basic research relevance: Unlike genetic or chemically induced models, the Winnie mouse model uniquely serves as a dual model for spontaneous colitis and juvenile CAC, offering a fast, 100% penetrant phenotype that enhances reliability, accelerates research, and provides valuable insights into IBD and CAC.
科研通智能强力驱动
Strongly Powered by AbleSci AI