Abstract

165 Background: Human cytomegalovirus (CMV) is a ubiquitous, generally asymptomatic virus that is present in over 90% of GBM and breast cancer tumors which have comparatively low mutational burdens and predicted neoantigens relative to melanoma or lung cancer. Memory CD4+ and CD8+T cells are most frequently directed against the gB and pp65 antigens, respectively. Thus, CMV gB and pp65 represent highly immunogenic “foreign” antigen components of a vaccine against GBM and breast cancer. Methods: Enveloped virus-like particles (eVLPs) are produced after transfection of HEK 293 cells with a plasmid encoding murine leukemia virus Gag plasmid fused in-frame with CMV pp65 antigen, which gives rise to particles. Co-transfected CMV gB plasmid enables particles budding from the cell surface to incorporate the gB protein into the lipid bilayer. Surface expression of gB and internal expression of pp65 have been confirmed by CryoEM and immunogold labelling. Production and purification of multiple batches at a GMP-compliant manufacturer has demonstrated consistent purity and yields that meet regulatory requirements. Results: eVLPs restimulate IFN-g secreting CD4+ and CD8+ T cells in ex vivo PBMCs from healthy subjects (n=8) at mean frequencies of 0.27% and 1.28%, respectively. eVLP formulation with GM-CSF augments IFN-g and CCL3 secretion in stimulated PBMCs from healthy subjects (n=5), GBM patients (n=5), and breast cancer (n=1) patients to comparable levels. This vaccine candidate also induces de novo CD4+ and CD8+responses in mice. The vaccine induces high titer antibody responses against CMV gB, and the potential for ADCC activity against gB-expressing GBM tumor cells is currently being investigated. Conclusions: CMV gB/pp65 eVLPs address several shortcomings of past theraeputic vaccines, including: 1) the poor immunogenicity of "self" tumor-associated antigens, 2) failure to induce robust CD4+ responses that support CD8+ tumor-specific responses, 3) inclusion of only one or a few epitopes that rapidly encourage tumor cell immunoselection of variants that no longer express the target(s). An IND submission to FDA for a phase I/IIa trial in GBM patients is planned for H1 2017.

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