Abstract
Abstract Mutations in the isocitrate dehydrogenase 1/2 (IDH1/2) enzyme correlate with better prognosis of gliomas, partly due to enhanced infiltration of nonimmunosuppressive granulocytic cells compared to IDH wild-type (IDHwt) tumors. Altered cytokine/chemokine secretion from tumor cells and reprogramming of myeloid cell metabolism are among the factors that drive differences in immune profiles of IDHwt vs. IDHmut tumors. IDH mutant protein produces the oncometabolite D-2-hydroxyglutarate (D2HG) instead of the canonical alpha-ketoglutarate (αKG), a co-factor for histone and DNA demethylases. Since D2HG is known to be secreted into the tumor microenvironment (TME), we interrogated the effect of this metabolite on the epigenetic landscape and behavior of granulocytic and monocytic myeloid-derived suppressor cells (g/mMDSCs). Co-culturing bone marrow cells with either IDHmut or IDHwt glioma cells demonstrated that mMDSCs, which we previously showed to be the abundant tumor infiltrating MDSC subtype in IDHwt tumors, but not gMDSCs specifically experience higher levels of apoptosis when exposed to IDHmut cells. Treatment of bone marrow cells with physiologically relevant concentrations of either D2HG or αKG demonstrated that D2HG re-capitulates the pro-apoptotic effect on mMDSCs. Furthermore, co-cultures of IDHmut glioma cells and bone-marrow cells induced a pronounced increase in global methylation on mMDSCs specifically, and we observed that mMDSCs and gMDSCs differentially express histone demethylases via western blotting. Collectively, these results suggest that D2HG can differentially impact mMDSC vs gMDSC biology by epigenetic reprogramming. Future studies will elucidate the specific targets of D2HG in mMDSCs that renders these cells more susceptible to apoptosis with the goal of identifying the mechanisms that can be modulated to down-regulate mMDSC infiltration and/or survival within the TME.
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