Recently, a single nucleotide polymorphism associated with reduce

Recently, a single nucleotide polymorphism associated with reduced Bcl-3 gene expression has been identified as a potential risk factor for Crohn’s disease. Here we report that in contrast to the predictions of single nucleotide polymorphism (SNP) analysis, patients with Crohn’s disease and ulcerative colitis demonstrate elevated Bcl-3

mRNA expression relative to healthy individuals. To explore further the potential role of Bcl-3 in inflammatory bowel disease (IBD), we used the dextran-sodium sulphate (DSS)-induced model of colitis in Bcl-3−/− mice. We found that Selleckchem JQ1 Bcl-3−/− mice were less sensitive to DSS-induced colitis compared to wild-type controls and demonstrated no significant weight loss following treatment. Histological analysis revealed similar levels of oedema and leucocyte infiltration between DSS-treated wild-type and Bcl-3−/− mice, but showed that Bcl-3−/− NVP-AUY922 supplier mice retained colonic tissue architecture which was absent in wild-type mice following DSS treatment. Analysis of the expression of the proinflammatory cytokines

interleukin (IL)-1β, tumour necrosis factor (TNF)-α and IL-6 revealed no significant differences between DSS-treated Bcl-3−/− and wild-type mice. Analysis of intestinal epithelial cell proliferation revealed enhanced proliferation in Bcl-3−/− mice, which correlated with preserved tissue architecture. Our results reveal that Bcl-3 has an important role in regulating intestinal epithelial cell proliferation and sensitivity to DSS-induced colitis which is distinct from its role as a negative regulator of inflammation. The nuclear factor (NF)-κB transcription factor family controls the inducible expression of more than 500 genes, including cytokines, chemokines and regulators of cell survival and proliferation [1, 2]. The dual role of NF-κB as a key regulator of inflammation and cell survival makes it a critical factor www.selleck.co.jp/products/Fasudil-HCl(HA-1077).html in the pathogenesis of chronic diseases such as inflammatory bowel disease (IBD). Increased NF-κB activation is observed in the mucosa of IBD patients,

and the requirement for NF-κB for the expression of proinflammatory cytokines supports a contributory role for NF-κB in IBD [3, 4]. Indeed, in the interleukin (IL)-10−/− mouse model of colitis, increased activation of NF-κB in myeloid cells is critical for the development of disease, while mice lacking cylindromatosis tumour suppressor (CYLD) or A20, two important negative regulators of NF-κB, show increased sensitivity to dextran sodium sulphate (DSS)-induced colitis [4-7]. Moreover, the pharmacological inhibition of NF-κB by anti-sense oligonucleotides or inhibitory peptides can prevent DSS-induced colitis in mice [8]. Genetic studies have identified an equally important role for NF-κB in maintaining the homeostasis of the intestinal epithelium.

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