Cyclophosphamide and IL-12-transduced DCs enhance the antitumor activity of tumor antigen-stimulated DCs and reduce Tregs and MDSCs number.

A hostile tumor microenvironment, characterized by an abundance of T regulatory cells and myeloid-derived suppressor cells (MDSCs), considerably limits the efficacy of dendritic cell (DC)-based vaccines. The intention of this study was to enhance the antitumor activity of vaccines consisting of bone marrow-derived DCs stimulated with TAg (BMDC/TAg) via single administration of cyclophosphamide and multiple injections of interleukin (IL)-12-transduced DCs (BMDC/IL-12). The combined chemoimmunotherapy was applied in the treatment of mice with subcutaneously (SC) growing, advanced MC38 colon carcinoma. The highest level of tumor growth inhibition, accompanied by high cytotoxic activity of effector cells, and their increased influx into tumor tissue, was observed after application of cyclophosphamide in combination with BMDC/TAg and BMDC/IL-12. The effect was probably associated with the elimination of T regulatory cells from spleens and tumors, but most of all with changes in the number and differentiation stage of MDSCs. After the therapy, the percentage of granulocytic and monocytic MDSCs in spleens was significantly lower than in the control group. Moreover, MDSCs derived from spleens and tumors showed increased expression of MHC class II, which may indicate the higher maturation stage of the myeloid cells as well as their enhanced capacity toward antigen presentation. The obtained data indicate that the optimal composition of antitumor vaccines able to limit the suppressor activity of MDSCs is essential to enhance the elimination of tumor cells and to achieve an optimal therapeutic effect.