Regulatory role of B-1 B cells in chronic colitis

Abstract

According to the 'hygiene hypothesis', enhanced microbial exposure due to early childhood infections leads to a reduction of T(h)2-mediated allergic diseases and inflammatory bowel disease. To begin to elucidate the mechanisms underlying this hypothesis, we studied development of T(h)2-mediated colitis of the TCRalpha knockout (KO) mouse in both a specific pathogen-free (SPF) facility and a conventional (CV) facility. After more than five generations in each facility, TCRalpha KO mice kept in the CV facility developed dramatically less colitis than mice that were kept in the SPF facility. Surprisingly, the suppression of colitis in the CV facility correlated with a significant increase in natural IgM production by B-1 B cells. In contrast, B cell-deficient TCRalpha double-knockout (alphamu DKO) mice maintained in the CV facility continued to develop severe colitis, strongly suggesting that B-1 B cells contributed to the suppression of colitis. Indeed, the adoptive transfer of B-1 B cells isolated from the peritoneal cavity of TCRalpha KO mice (SPF) into alphamu DKO mice (CV) suppressed the development of colitis in the recipient mice. We conclude that B-1 cells play a regulatory role in T(h)2-mediated colitis under non-hygienic conditions, possibly by generating natural antibodies in response to microbial flora.