Depletion of IL-10- and TGF-beta-producing regulatory gamma delta T cells by administering a daunomycin-conjugated specific monoclonal antibody in early tumor lesions augments the activity of CTLs and NK cells.

It has been demonstrated that gamma delta T cells accumulating in early tumor lesions and those purified from spleen cells of tumor-bearing mice attenuate the activity of CTLs and NK cells. We, therefore, investigated whether depletion of gamma delta T cells from early lesions of tumors results in restoration of CTL and NK cell activities and subsequent regression of tumors. A daunomycin-conjugated anti-gamma delta TCR mAb UC7-13D5 (Dau-UC7) was prepared to efficiently deplete gamma delta T cells. An in vitro study revealed that Dau-UC7 specifically lysed gamma delta TCR+ cells and effectively inhibited splenic gamma delta T cells from tumor-bearing mice to produce cytotoxic cell-suppressive factors. Furthermore, intralesional injections of Dau-UC7 at an early stage of tumor development led to augmentation of tumor-specific CTL as well as NK cell activities and to the resultant regression or growth inhibition of the tumors. On analysis of cytokine profile, gamma delta T cells transcribed mRNAs for IL-10 and TGF-beta, but not IL-4 or IFN-gamma, suggesting the T regulatory 1-like phenotype. Finally, a blocking study with mAbs showed that the inhibitory action of gamma delta T cells on CTLs and NK cells was at least partly mediated by IL-10 and TGF-beta. These results clearly demonstrated the novel mechanism by which T regulatory 1-like gamma delta T cells suppress anti-tumor CTL and NK activities by their regulatory cytokines in early tumor formation.