Abstract
Abstract Activation of moderated endoplasmic reticulum (ER) stress in cancer cells promotes cellular adaptation and survival in response to the adverse conditions of the tumor microenvironment (TME). However, how modulation of ER stress in cancer cells culminates in the development of an immunosuppressive TME remains poorly understood and therapeutically unexploited. Upon disruption of ER homeostasis, mediator proteins IRE1a, ATF6 and PERK induce activation of the unfolded protein response (UPR). Although maladaptive priming of UPR mediators in immune cells deactivates their capacity for anti-tumor immunity, the immunosuppressive potential of UPR mediators in cancer cells, in particular PERK, remains unknown. Thus, in this study, we hypothesized that activation of PERK in tumor cells shapes the formation of the immunosuppressive TME and impairs the development of anti-tumor immunity. Elimination of PERK in cancer cells impaired survival upon chemically-induced ER stress and promoted caspase-independent cell death. Interestingly, in vivo ablation of PERK in melanoma impaired tumor growth, which surprisingly occurred in a T cell-dependent manner. Additionally we observed that ablation of PERK shifted the TME from an immunosuppressive to immunostimulatory environment, enhanced accumulation of effector T cells and directed reprogramming of myeloid derived suppressor cells (MDSCs) into immunostimulatory cells. Additional experiments indicated that ablation of PERK induced expression of mediators associated with immunogenic cell death. Collectively, our findings demonstrate the immunoregulatory role of PERK in tumor cells and highlight the therapeutic potential of targeting UPR mediators and tumor adaptive processes.
Published Version
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