Developing SEMA4A-directed CAR T cells to overcome low BCMA antigen density in multiple myeloma.
Francesco Di Meo, Francesca Albano, Annamaria Cesarano, Yunfei Wang, Brandon Kale, Kenneth Shain, Ariosto Silva, Noriyoshi Kurihara, Hirofumi Tenshin, David Jellyman, Xiaofei Song, Sasan Ghaffari, Hector Mesa, Ben Creelan, Ciara Freeman
Abstract
Open AccessChimeric antigen receptor (CAR) T cell therapy targeting B cell maturation antigen (BCMA) for multiple myeloma (MM) is effective, but relapses associated with low-to-negative BCMA expression are common, indicating the need for additional targets. We quantitatively profile antigen density in a cohort of patients relapsed after BCMA CAR T therapy, showing high number of SEMA4A molecules/cell where BCMA density is low. SEMA4A deletion limits MM cell growth, migration, tissue infiltration, and osteoclast formation, while extending mouse survival. We generate monoclonal antibodies targeting SEMA4A-extracellular domain for CAR construction, screen engineered T cells for expansion, cytokine release, and cytotoxicity against MM cells. Lead constructs lack reactivity against normal non-hematopoietic tissues. SEMA4A CAR T cells show superior efficacy than BCMA CAR T cells eliminating patient-derived BCMAlow tumors and MM cells progressing under suboptimal doses of BCMA CAR T cells. This study prepares for a phase 1 clinical trial with SEMA4A-directed CAR T cells for MM.