Dysplasia and Cancer in the Dextran Sulfate Sodium Mouse Colitis Model. Relevance to Colitis-associated Neoplasia in the Human: a Study of Histopathology, B-catenin and P53 Expression and the Role of Inflammation
Overview
Authors
Affiliations
Animal models of colitis, which develop dysplasia and cancer similar to human ulcerative colitis are needed to further investigate the dysplasia cancer sequence. This study describes the expression of B-catenin and p53 along with the histopathology and inflammation scores as they relate to dysplasia and cancer in the dextran sulfate sodium (DSS) colitis model. Swiss Webster mice were fed with 5% DSS as follows: group A, four cycles of DSS, 84 days total (1 cycle = 7 days DSS + 14 days H(2)O); group B, four cycles DSS followed by 120 days H(2)O, 204 days total; group C, 7 days DSS followed by 180 days H(2)O, 187 days total; group D, 7 days DSS followed by 90 days H(2)O, 97 days total. The incidences of dysplasia and/or cancer were 15.8, 37.5, 18.1 and 0% in groups A-D, respectively. Dysplasia and/or cancer occurred as flat lesions or as dysplasia-associated lesion or mass (DALM) as observed in the human. Thirty-three percent of cancers had associated dysplasia. Within group A, inflammation scores were significantly higher in animals with dysplasia and/or cancer compared with those without dysplasia and/or cancer (P < 0. 05-P < 0.0001). Inflammation scores were significantly higher in animals with cancers versus those with dysplasia (P < 0.015) and in flat dysplasia and/or cancer versus DALM (P < 0.0042). B-catenin showed translocation from the cell membrane to the cytoplasm and/or nucleus in 100% of DALM and 5.8% of flat dysplasia and/or cancer. A total of 94.2% of flat dysplasia and/or cancer had exclusive cell membrane expression compared with 0% DALM (P < 0.0001). Only 7.4% of dysplasia and/or cancer showed nuclear expression of p53. In colitis-associated dysplasia and/or cancer in the DSS model: (i) histology resembles that in the human; (ii) inflammation plays a significant role in the dysplasia cancer sequence and whether dysplasia and/or cancer grows as a flat lesion or a DALM; (iii) the early molecular pathways are different for flat dysplasia and/or cancer versus DALM, with nuclear/cytoplasmic translocation of B-catenin as an early event in DALM but not flat dysplasia and/or cancer; and (iv) p53 has little or no role in dysplasia and/or cancer. This well characterized model provides an excellent vehicle for studying the roles of inflammation, the molecular events and the role of chemopreventive agents in colitis-associated neoplasia.
The Diagnostic Significance of SLC26A2 and Its Potential Role in Ulcerative Colitis.
Qian L, Hu S, Zhao H, Han Y, Dai C, Zan X Biomedicines. 2025; 13(2).
PMID: 40002875 PMC: 11853232. DOI: 10.3390/biomedicines13020461.
Tozzi M, Fiore A, Travaglione S, Marcon F, Rainaldi G, Germinario E J Exp Clin Cancer Res. 2025; 44(1):29.
PMID: 39876002 PMC: 11776187. DOI: 10.1186/s13046-024-03271-w.
MAD1 upregulation sensitizes to inflammation-mediated tumor formation.
Copeland S, Snow S, Wan J, Matkowskyj K, Halberg R, Weaver B PLoS Genet. 2024; 20(10):e1011437.
PMID: 39374311 PMC: 11486420. DOI: 10.1371/journal.pgen.1011437.
THZ2 Ameliorates Mouse Colitis and Colitis-Associated Colorectal Cancer.
Wang S, Wang Y, Huang J, Shu Y, He K, Shi Z Biomedicines. 2024; 12(3).
PMID: 38540292 PMC: 10967821. DOI: 10.3390/biomedicines12030679.
Protective Effect of Prim-O-Glucosylcimifugin on Ulcerative Colitis and Its Mechanism.
Yin Y, Liu K, Li G Front Pharmacol. 2022; 13:882924.
PMID: 35662727 PMC: 9158503. DOI: 10.3389/fphar.2022.882924.