Detecting neoepitope-specific intra-tumoral T cell responses in a glioblastoma patient treated with personal neoantigen vaccine

Abstract

Abstract Recent advances in single cell T cell receptor (TCR) sequencing have allowed detailed analysis of TCRαβ pairs. However, efficient methods for probing the specificity of discovered TCRs remain limited. We developed a streamlined approach for cloning and expressing TCRs and screening against candidate antigens. A key innovation was the establishment of a plasmid library to encode all variable (V) regions of the TCR, from which any TCR of interest can be assembled with only custom synthesis of short CDR3 regions. A reporter cell system allows rapid detection of TCR antigen specificity and assessment of functional avidity based on cytokine production. We applied this pipeline to study the intra-tumoral TCR repertoire of a patient with glioblastoma treated with personal neoantigen vaccine. The vaccine consisted of up to 20 synthetic long peptides containing predicted neoepitopes and poly-ICLC adjuvant. Single cell TCR sequencing of CD3+ tumor infiltrating lymphocytes (TILs) and peripheral T cells in vitro expanded against immunizing peptides showed that 4 CD4+ and 2 CD8+ T cell clonotypes in peripheral blood were identical to TILs. The cloning and expression system was used to test their specificity. We identified a TCR from a CD4+ TIL specific for ARHGAP35, a neoantigen targeted by vaccination, and capable of discriminating between mutant and wildtype peptide. This result provides the first demonstration that neoepitope-sensitized T cells can traffic from the periphery to an intracranial GBM. Overall, we demonstrated our ability to identify TCRαβ pairs, express them on demand, and probe antigen specificity. Ongoing studies are characterizing the functional avidity of neoepitope-specific TCRs and reactivity against autologous tumor.