We have demonstrated previously that IFN-γ plays a protective role in the initiation of chronic intestinal inflammation through attenuation of Toll-like receptor-mediated IL-23 induction in macrophages. Here, an interferon-stimulated response element (ISRE) is identified in a region of conserved nucleotide sequences in the Il23a promoter. This ISRE mediated, in part, Il23a promoter induction by LPS and inhibition of LPS-induced activity by IFN-γ. LPS and IFN-γ recruit interferon regulatory factors (IRFs) to the Il23a ISRE in murine bone marrow-derived macrophages (BMMs). Functionally, IRF-1 is a negative regulator of Il23a in LPS-stimulated BMMs. IRF-1(-/-) BMMs demonstrated enhanced LPS-induced Il23a expression compared with WT BMMs. Moreover, IRF-1 deficiency resulted in prolonged occupancy of RelA on the Il23a promoter. Consequently, IRF-1(-/-) mice were more susceptible to colonic injury by trinitrobenzenesulfonic acid, and IL-10/IRF-1 double-deficient (IL-10/IRF-1(-/-)) mice demonstrated more severe colonic inflammation compared with IL-10(-/-) mice. The severity of colitis in both models correlated with increased colonic IL-23. CD11b(+) lamina propria mononuclear cells, comprising predominantly macrophages, were identified as the major source of IL-23 in colitis-prone mice. Basal and heat-killed Escherichia coli-stimulated levels of Il23a were increased in IL-10/IRF-1(-/-) compared with WT and IL-10(-/-) colonic CD11b(+) lamina propria mononuclear cells. In conclusion, these experiments characterize IRF-ISRE interactions on the Il23a promoter, which have in vivo relevance as a homeostatic checkpoint in chronic intestinal inflammation.