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Although CD4(+) T cells form a major subset of TCRalphabeta T cells, only a small number of TCRgammadelta T cells express CD4. Factors contributing to the down-regulation of CD4(+) TCRgammadelta T cells have not been identified. The CD5 molecule is expressed on most TCRgammadelta T cells in the spleen, whereas only a few intestinal intraepithelial TCRgammadelta T cells express this molecule in wild-type mice and TCRbeta mutant (beta(-/-)) mice. Unexpectedly, in the present studies, the lack of CD5 led to a remarkable increase of a CD4(+) TCRgammadelta T cell subset in CD5(-/-)beta(-/-) mice. The CD4(+) TCRgammadelta T cells were also detectable in MHC II(-/-)CD5(-/-)beta(-/-) triple-mutant mice. This CD4(+) TCRgammadelta T cell subset provided help in Mycobacterium-induced germinal center (GC) formation and showed a T(h)-like cytokine profile. In contrast, CD5(+) TCRgammadelta T cells suppressed the CD4(+) TCRgammadelta T cell-mediated GC formation, presumably by eliminating this CD4(+) subset. Unlike intraepithelial gammadelta T cells, &gt;30% of TCRgammadelta T cells in the colonic lamina propria (LP) expressed CD5. The lack of CD5 also led to increased numbers of CD4(+) TCRgammadelta T cells in the colonic LP and increased susceptibility to development of chronic colitis in beta(-/-) mice. Cell transfer studies suggest that CD5(+) TCRgammadelta T cells are capable of selectively eliminating CD4(+) TCRgammadelta T cells in the intestine. The CD4(+) TCRgammadelta T cells possess immune functions similar to CD4(+) TCRalphabeta T cells.

Role of the CD5 molecule on TCR gammadelta T cell-mediated immune functions: development of germinal centers and chronic intestinal inflammation