Myeloid-T cell interplay and cell state transitions associated with checkpoint inhibitor response in melanoma.

Abstract

The treatment of melanoma, the deadliest form of skin cancer, has greatly benefited from immunotherapy. However, many patients do not show a durable response, which is only partially explained by known resistance mechanisms. We performed single-cell RNA sequencing of tumor immune infiltrates and matched peripheral blood mononuclear cells of 22 checkpoint inhibitor (CPI)-naive stage III-IV metastatic melanoma patients. After sample collection, the same patients received CPI treatment, and their response was assessed. CPI responders showed high levels of classical monocytes in peripheral blood, which preferentially transitioned toward CXCL9-expressingmacrophages in tumors. Trajectories of tumor-infiltrating CD8+ Tcells diverged at the level of effector memory/stem-like Tcells, with non-responder cells progressing into a state characterized by cellular stress and apoptosis-related gene expression. Consistently, predicted non-responder-enriched myeloid-T/natural killer cell interactions were primarily immunosuppressive, while responder-enriched interactions were supportive of Tcell priming and effector function. Our study illustrates that the tumor immune microenvironment prior to CPI treatment can be indicative of response. In perspective, modulating the myeloid and/or effector cell compartment by altering the described cell interactions and transitions could improve immunotherapy response. This research was funded by Roche Pharma Research and Early Development.