Abstract
Tumor associated macrophages and tumor infiltrating regulatory T cells greatly hamper host-protective antitumor responses. Therefore, we utilized a novel immunomodulator, heat-killed Mycobacterium indicus pranii (Mw), to repolarize TAM and an agonistic GITR antibody (DTA-1) to reduce intratumoral regulatory T cell frequency for generation of a host-protective antitumor response. Although, the combination of Mw and DTA-1was found to be effective against advanced stage tumors, however, Mw or DTA-1 failed to do so when administered individually. The presence of high level of regulatory T cells abrogated the only Mw induced antitumor functions, whereas only DTA-1 treatment was found to be ineffective due to its inability to induce TAM repolarization in vivo. The combination therapy was found to be effective since DTA-1 treatment reduced the frequency of regulatory T cells to such an extent where they could not attenuate Mw induced TAM repolarization in vivo. Therefore, the combination therapy involving Mw and DTA-1 may be utilized to the success of advanced stage solid tumor immunotherapies.
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