Project Summary/Abstract Nasopharyngeal carcinoma (NPC) is an Epstein-Barr virus (EBV)-driven malignancy that is endemic to East and Southeast Asia. The overall 5-year survival rate for endemic NPC is only 51%, which represents an unmet clinical need. While NPC tumors are known to be infected with EBV and express PD-L1, little is known about the role of EBV-specific T cells in the control of NPC and anti-PD-1 therapy has shown a low rate of efficacy (ORR ~20%). The goal of this study is to better understand the role of EBV-specific T cell responses in NPC immunopathology and immunotherapeutic response. We will test the specific hypotheses that: 1. EBV-specific T cells contribute to tumor control elicited by combination anti-PD-1 and anti-CTLA-4 checkpoint blockade immunotherapy, and 2. that the phenotypic and clonal characteristics/dynamics of peripheral EBV-specific T cells can be useful as indicators of clinical outcomes for NPC patients. To test these hypotheses, we will leverage our access to two Singaporean NPC patient cohorts: Cohort 1. A 51-patient cohort of new-diagnosis NPC for which viably frozen PBMCs and archival FFPE tissues are available and Cohort 2. A 50-patient cohort participating in a phase II trial (NCT03097939 - National Cancer Centre Singapore) testing the combination of Ipilumimab and Nivolumimab (Ipi.+Nivo.) immunotherapy with longitudinally collected PBMCs and tissue biopsies. Recently published preliminary analysis (AACR 2020) from this clinical trial shows that combined Ipi.+Nivo. therapy is safe and achieved durable responses in recurrent and metastatic NPC patients and identified a negative association between circulating EBV-DNA levels and response. In addition, preliminary analysis of new-diagnosis NPC patient peripheral blood samples from Cohort 1 show associations between certain phenotypic profiles of CD8+ T cells and clinical parameters such as EBV-DNA levels. Therefore, in Aim 1. we will investigate the clinical relevance of these preliminarily identified NPC-associated CD8+ T cell phenotypes. In addition to in-depth single cell transcriptional, functional TCR sequence profiling of these cells, cellular imaging, transcriptional profiling and bulk TCR sequencing of patient-matched tumor will allow discovery of novel associations between peripheral T cells and the tumor microenvironment. In Aim 2., we will characterize EBV-specific T cell responses in the NPC periphery and tumor microenvironment during combination Ipi.+Nivo. immunotherapy treatment to identify novel associations between the phenotypic profiles of EBV-specific T cells and immunotherapeutic response. In Aim 3., we will investigate T cell clonal dynamics associated with treatment induced changes to the NPC-specific immune response by comparing the TCR clonal diversity in peripheral blood and tumor biopsy samples from different stages of treatment. Overall, characterization of EBV-specific T cells phenotypes in the NPC periphery and the tumor using m...