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CD38-RyR2 axis-mediated signaling impedes CD8 + T cell response to anti-PD1 therapy in cancer.

Anwesha KarPuspendu GhoshAnupam GautamSnehanshu ChowdhuryDebashree BasakIshita SarkarArpita BhoumikShubhrajit BarmanParamita ChakrabortyAsima MukhopadhyayShikhar MehrotraSenthil Kumar GanesanSandip PaulShilpak Chatterjee
Published in: Proceedings of the National Academy of Sciences of the United States of America (2024)
PD1 blockade therapy, harnessing the cytotoxic potential of CD8 + T cells, has yielded clinical success in treating malignancies. However, its efficacy is often limited due to the progressive differentiation of intratumoral CD8 + T cells into a hypofunctional state known as terminal exhaustion. Despite identifying CD8 + T cell subsets associated with immunotherapy resistance, the molecular pathway triggering the resistance remains elusive. Given the clear association of CD38 with CD8 + T cell subsets resistant to anti-PD1 therapy, we investigated its role in inducing resistance. Phenotypic and functional characterization, along with single-cell RNA sequencing analysis of both in vitro chronically stimulated and intratumoral CD8 + T cells, revealed that CD38-expressing CD8 + T cells are terminally exhausted. Exploring the molecular mechanism, we found that CD38 expression was crucial in promoting terminal differentiation of CD8 + T cells by suppressing TCF1 expression, thereby rendering them unresponsive to anti-PD1 therapy. Genetic ablation of CD38 in tumor-reactive CD8 + T cells restored TCF1 levels and improved the responsiveness to anti-PD1 therapy in mice. Mechanistically, CD38 expression on exhausted CD8 + T cells elevated intracellular Ca 2+ levels through RyR2 calcium channel activation. This, in turn, promoted chronic AKT activation, leading to TCF1 loss. Knockdown of RyR2 or inhibition of AKT in CD8 + T cells maintained TCF1 levels, induced a sustained anti-tumor response, and enhanced responsiveness to anti-PD1 therapy. Thus, targeting CD38 represents a potential strategy to improve the efficacy of anti-PD1 treatment in cancer.
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