Abstract 4979: Development of KITE-585: A fully human BCMA CAR T-cell therapy for the treatment of multiple myeloma

Background: Multiple myeloma (MM) is a usually fatal malignancy of plasma cells, with no current therapy considered curative. About 15% of patients diagnosed with MM are stratified as high risk with poor treatment outcomes and short (2-3 years) survival from diagnosis. Standard risk patients tend to live longer but undergo chronic and/or high intensity therapy and likely experience a relapsing and remitting disease pattern. Therefore, there is still a considerable unmet need for innovative therapies that improve outcomes in MM. One such approach is to use adoptive transfer of engineered autologous T cells expressing a chimeric antigen receptor (CAR) directed against malignant cells. The efficacy of CAR T cells directed against hematological malignancies, particularly CD19-expressing B cell leukemia and lymphomas, has been demonstrated in multiple clinical studies. KITE-585 was developed as a CAR T cell immunotherapy product candidate directed against B cell maturation antigen (BCMA). BCMA is nearly ubiquitously expressed on MM cells, plasma cells and subsets of mature B cells, but with limited or absent expression on other tissues. Methods: We generated >50 fully human IgGs directed against BCMA using the BCMA protein as antigen and selection criteria including affinity, cross-reactivity and poly-specificity. Following assessment of the binding of the IgGs to a MM cell line known to express BCMA, >10 IgGs were identified that met the criteria for affinity and selectivity and had a >50-fold binding over background. The 8 IgGs that demonstrated the highest specific binding were then sequence-converted to single-chain variable fragments (scFvs) and incorporated into CARs. Results: In all but one case, human T cells engineered to express these CAR constructs exhibited specific cytolytic activity against MM cell lines (NCI-H929 and MM.1s). These CAR T cells demonstrated killing efficiencies of >95% at effector:target ratios of 1:1 over a 24-hour period. Similarly antigen-specific production of inflammatory cytokines was observed in response to target cell lines in vitro. Assessment of antigen-dependent proliferation over a 5 day period revealed >80% proliferation in the 7 constructs that showed cytolytic activity in vitro. Multiple different anti-BCMA CAR constructs representing distinct epitope binding bins of BCMA were then selected for in vivo evaluation. In two disseminated tumor models of luciferase labeled NCI-H929 or MM.1s cells injected intravenously (i