Abstract CREB-binding protein (CBP) is a transcriptional coactivator involved in the regulation of DNA accessibility to transcription factors. Phosphorylation of human CBP by IKKα at Ser1382/1386 plays a critical role in the regulation of cell fate by suppressing p53-mediated gene expression. Therefore, we evaluated whether impaired serine phosphorylation of CBP is involved in the pathogenesis of disease. We generated mutated serine 1383/1387 to alanine knock-in mice (AA mice) to study whether they exhibit any phenotype alteration. AA mice showed an IBD-like phenotype with softer, looser and hemoccult stools and shorter colon length compared to the wild type mice. Increased p53 accompanied with apoptosis in colonic tissues of AA mice was demonstrated by IHC and TUNEL staining. In addition, male AA mice were more vulnerable to DSS-induced colitis with severe crypt loss and epithelial disruption. Elevated immune cells in mesenteric lymph nodes are more prominent in AA mice with infiltration of neutrophil and macrophage. However, the differentiation of CD4+ T cells was not affected with Cbp mutation (AA) ex vivo. Taken together, deficiency of NF-kB signaling in AA mice did not affect immune cells but modulated apoptosis of IECs. Our findings suggested that serine phosphorylation of CBP by IKKα might be a critical regulator to maintain intestinal homeostasis.
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