RESUMO
Chemotherapy, the treatment modality of choice for advanced cancers, is considered immunosuppressive due to its depletion of immune cells. Hence, chemotherapy is traditionally thought to adversely affect anti-tumor immune responses and antagonistic to tumor immunotherapy. Contrary to conventional belief, recent studies have shown that combining chemotherapy with immunotherapy resulted in enhanced anti-tumor immunity and improved therapeutic outcome. The mechanisms by which the use of chemotherapy paradoxically benefits immunotherapy await elucidation. CD4(+)CD25(+)Foxp3(+) regulatory T cells (Treg) are a lymphocyte subset which plays a crucial role in inhibiting tumor-reactive effector cell functions and suppressing anti-tumor immunity. We hypothesize that chemotherapy benefits immunotherapy by preferentially impairing Treg, in effect eliminating immunosuppressive elements and augmenting the immune function of anti-tumor effector cells. Clarification of how chemotherapy exerts its immunomodulatory effects will aid in the development of better combination strategies of chemoimmunotherapy in the treatment of cancer.