Abstract PO014: PSGL-1 is an early T cell signaling regulator that drives immunometabolism and terminal differentiation in tumor-specific CD8 T cells

We previously identified that the adhesion molecule P-selectin glycoprotein ligand-1 (PSGL-1) regulates T cell function and exhaustion in responses to chronic viral infection and melanoma tumors. Subsequently, our studies have focused on investigating the mechanisms by which PSGL-1 regulates T cell activation and exhaustion and evaluating PSGL-1 as a target for cancer immunotherapy. Using the CD4cre system in combination with PSGL-1-floxed mice, we find that T cell intrinsic deletion of PSGL-1 is sufficient to promote enhanced tumor growth control of mesothelioma as well as melanoma tumors. We have found that in vivo PSGL-1 blockade recapitulates the enhanced melanoma tumor growth control observed with PSGL-1-/- CD8+ T cells and limits the development of T cell exhaustion during chronic LCMV Clone 13 viral infection. Conversely, ligation of PSGL-1 in vitro or in vivo drives enhanced upregulation T cell exhaustion markers, most notably PD-1 expression. Phosphoproteomic analysis of early T cell activation revealed the rapid upregulation of more than 30 phosphorylated proteins with significantly enhanced expression following PSGL-1 ligation during T cell activation than T cell activation alone. GSEA and western blot analysis confirmed the increased expression of several regulators of T cell signaling including pAkt1 and pErk in both activated PSGL-1-/- T cells and following PSGL-1 ligation during T cell activation. Single-cell RNA-sequencing of melanoma tumor-specific PSGL-1-/- CD8+ T cells identified differential modulation of genes associated with T cell metabolism and effector responses, including increased Mtor and Hif1a in tumors and Tcf7 in tumor-draining lymph nodes. The Seahorse glycolysis stress test identified that PSGL-1-/- T cells show increased glycolysis after 72 hours of in vitro activation at both sub-optimal and optimal levels of αCD3 stimulation, and 2-NBDG glucose uptake assays confirmed increased glucose uptake by PSGL-1-/- CD8+ T cells within two hours of stimulation. Further, 2-NBDG uptake was increased by PSGL-1-/- CD8+ T cells ex vivo from melanoma tumors. Importantly, this increased glycolytic phenotype does not come at the cost of CD8+ T cell stemness, as determined by TCF-1 staining. We hypothesize that PSGL-1 serves as a key regulator of early T cell activation and repeated signaling through PSGL-1 promotes differentiation into exhausted CD8+ T cells by sustaining TCR signaling. Conversely, we hypothesize that the absence of PSGL-1