Abstract

Dampened antigen presentation underscores the resistance of pancreatic cancer to T cell-mediated anti-tumor immunity, rendering immunotherapy largely ineffective. By high-throughput CRISPR activation perturbation, we discovered that the transcriptional regulator MCRS1 significantly augmented the sensitivity of mouse pancreatic cancer cells to T cell immunity in vitro and in vivo. Mechanistically, MCRS1 interacted with the transcription factor and genome organizer YY1 to coordinately increase the chromatin accessibility and expression of MHC-I genes. Elevated MCRS1 subverted MHC-I suppression and activated anti-tumor T cells, which sensitized mouse pancreatic cancer to α-PD-1 therapy. Remarkably, high MCRS1 expression was associated with increased T cell infiltration and extended survival of patients with pancreatic cancer and was predictive of favorable responses to α-PD-1 therapy in patients with lung cancer. Together, our study uncovers that MCRS1 sensitizes cancer cells to T cell immunity by transcriptionally subverting MHC-I suppression, which enhances the effectiveness of α-PD-1 therapy in mice and humans, paving the way to further improve immunotherapy against solid tumors.

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