GPRC5D is a target for the immunotherapy of multiple myeloma with rationally designed CAR T cells

Eric L. Smith; Kim Harrington; Mette Stæhr; Reed Masakayan; Jon C. Jones; Thomas J. Long; Khong Y. Ng; Majid Ghoddusi; Terence J. Purdon; Xiuyan Wang; Trevor Do; Minh Thu Pham; Jessica M. Brown; Carlos Fernández de Larrea; Eric J. Olson; Elizabeth Peguero; Pei Wang; Hong Liu; Yiyang Xu; Sarah C. Garrett-Thomson; Steven C. Almo; Hans‐Guido Wendel; Isabelle Rivière; Liu C; Blythe Sather; Renier J. Brentjens

doi:10.1126/scitranslmed.aau7746

GPRC5D is a target for the immunotherapy of multiple myeloma with rationally designed CAR T cells

Eric L. Smith(Memorial Sloan Kettering Cancer Center), Kim Harrington(Juno Therapeutics (Germany)), Mette Stæhr(Memorial Sloan Kettering Cancer Center), Reed Masakayan(Memorial Sloan Kettering Cancer Center), Jon C. Jones(Juno Therapeutics (Germany)), Thomas J. Long(Juno Therapeutics (Germany)), Khong Y. Ng(Kettering University), Majid Ghoddusi(Juno Therapeutics (Germany)), Terence J. Purdon(Memorial Sloan Kettering Cancer Center), Xiuyan Wang(Memorial Sloan Kettering Cancer Center), Trevor Do(Juno Therapeutics (Germany)), Minh Thu Pham(Juno Therapeutics (Germany)), Jessica M. Brown(Juno Therapeutics (Germany)), Carlos Fernández de Larrea(Memorial Sloan Kettering Cancer Center), Eric J. Olson(Juno Therapeutics (Germany)), Elizabeth Peguero(Kettering University), Pei Wang(Eureka Therapeutics (United States)), Hong Liu(Eureka Therapeutics (United States)), Yiyang Xu(Eureka Therapeutics (United States)), Sarah C. Garrett-Thomson(Albert Einstein College of Medicine), Steven C. Almo(Albert Einstein College of Medicine), Hans‐Guido Wendel(Kettering University), Isabelle Rivière(Memorial Sloan Kettering Cancer Center), Liu C(Eureka Therapeutics (United States)), Blythe Sather(Juno Therapeutics (Germany)), Renier J. Brentjens(Memorial Sloan Kettering Cancer Center)

Science Translational Medicine

March 27, 2019

10.1126/scitranslmed.aau7746

Cited by 381Open Access

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Abstract

MM cells from primary marrow samples with a distribution that was similar to, but independent of, BCMA. Panning a human B cell-derived phage display library identified seven GPRC5D-specific single-chain variable fragments (scFvs). Incorporation of these into multiple CAR formats yielded 42 different constructs, which were screened for antigen-specific and antigen-independent (tonic) signaling using a Nur77-based reporter system. Nur77 reporter screen results were confirmed in vivo using a marrow-tropic MM xenograft in mice. CAR T cells incorporating GPRC5D-targeted scFv clone 109 eradicated MM and enabled long-term survival, including in a BCMA antigen escape model. GPRC5D(109) is specific for GPRC5D and resulted in MM cell line and primary MM cytotoxicity, cytokine release, and in vivo activity comparable to anti-BCMA CAR T cells. Murine and cynomolgus cross-reactive CAR T cells did not cause alopecia or other signs of GPRC5D-mediated toxicity in these species. Thus, GPRC5D(109) CAR T cell therapy shows potential for the treatment of advanced MM irrespective of previous BCMA-targeted therapy.

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