Results from the First Phase 1 Clinical Study of the B-Cell Maturation Antigen (BCMA) Nex T Chimeric Antigen Receptor (CAR) T Cell Therapy CC-98633/BMS-986354 in Patients (pts) with Relapsed/Refractory Multiple Myeloma (RRMM)
Luciano J. Costa, Shaji Kumar, Shebli Atrash, Michaela Liedtke, Gurbakhash Kaur, Benjamin A. Derman, P. Leif Bergsagel, Sham Mailankody, Philip L. McCarthy, Josiana Limones, Yanping Chen, Sharmila Das, Jerill Thorpe, Jonathan J. Cacciatore, Garnet Navarro, Ashley K. Koegel, Michael R. Burgess, Kristen Hege, Shambavi Richard
Abstract
Introduction: CC-98633/BMS-986354 is a next-generation CAR T-cell product that contains the same fully human BCMA-targeted CAR construct as orvacabtagene autoleucel (orva-cel; Harrington K et al. Blood. 2017) and is manufactured using the NEX-T process. The NEX-T process was designed to shorten manufacturing time and improve the potency and phenotypic attributes of the CAR T-cell drug product with the aim of enhancing depth and durability of response. In vivo studies have shown that BMS-986354 is a less differentiated CAR T-cell product with improved potency and tumor control vs orva-cel. Here, we present phase 1 clinical data from the ongoing CC-98633-MM-001 trial (NCT04394650). Methods: This is a multicenter, phase 1 trial investigating BMS-986354 in pts with RRMM who received ≥ 3 prior regimens, including an autologous stem cell transplant, proteasome inhibitor, immunomodulatory drugs, and an anti-CD38 monoclonal antibody. Following leukapheresis, patient T cells were purified and engineered with reduced ex vivo expansion and manufacturing time of 5 or 6 days. Pts received a single BMS-986354 infusion 2-7 days after lymphodepleting chemotherapy (3 days fludarabine [30 mg/m2] and cyclophosphamide [300 mg/m2]). Results: As of May 12, 2022, 66 pts have been enrolled, 55 have been treated with BMS-986354, and 54 were evaluable for disease response. In the dose-escalation phase (Part A), pts were treated with 20 × 106 (dose level [DL] 1, n = 7), 40 × 106 (DL2, n = 24), or 80 × 106 (DL3, n = 11) CAR+ T cells; DL2 was selected for dose expansion (Part B), and an additional 13 pts were treated. Enrolled pts had a median age of 62.5 years (range, 43-75). Median time from diagnosis was 6.2 years (range, 0.7-24.6) with a median of 5 prior regimens (range, 3-13). During dose escalation, no pts had dose-limiting toxicities (DLTs) at DL1, 4 had DLTs at DL2 (prolonged neutropenia and thrombocytopenia [n=1], prolonged neutropenia [n = 2], decreased fibrinogen [n = 1]), and 3 had DLTs at DL3 (prolonged neutropenia [n = 2], prolonged thrombocytopenia [n = 1]); all DLs were tolerable per prespecified criteria. Cytokine release syndrome (CRS) occurred in 80.0% of all treated pts, with most experiencing grade 1 (63.6%) or grade 2 (14.5%); only 1 pt experienced ≥ grade 3 (grade 4) CRS. Median onset was day 4 (range, 2-8), median duration was 4 days (range, 1-8), and common treatments included tocilizumab (n = 38), steroids (n = 25), and anakinra (n = 9). Neurotoxicity occurred in 6 (10.9%) pts (grade 1, n = 5; grade 4, n = 1); all events resolved after a median of 2.5 days (range, 2-21). No neurotoxicity events had an onset beyond day 9. Overall, with a median follow-up of 4.9 months, the objective response rate was 98.1%, with 57.4% of pts achieving a very good partial response or better, 29.6% achieving complete response or better, and 76.4% of responses ongoing. Compared with orva-cel, BMS-986354 drug product is less differentiated, composed primarily of naive-like and central memory CAR T cells with fewer effector and terminally differentiated CAR T cells. Following CAR stimulation, BMS-986354 led to higher antigen-specific cytokine (interferon-gamma, tumor necrosis factor alpha, and interleukin-2) production than orva-cel (Figure). Pharmacokinetic analysis of transgene levels using droplet-digital polymerase chain reaction demonstrated robust cellular expansion across all DLs (geometric mean maximum concentration [Cmax] of 8.67 × 104gag copies/µg, area under the curve 0 to 28 days [AUC0-28] of 85 × 104 days × gag copies/µg, median time to Cmax of 14 days at DL2). Flow cytometry analysis during dose escalation showed that similar Cmax and AUC0-28 were reached with a > 11-fold lower dose of BMS-986354 than orva-cel, demonstrating increased proliferative capacity for BMS-986354 (geometric mean Cmax of 399 cells/µL, AUC0-28 of 3674 days × cells/µL at DL2 vs Cmax of 328 cells/µL, AUC0-28 of 3890 days × cells/µL at 450 × 106 cells). Conclusions: BMS-986354, a NEX-T investigational BCMA-targeted CAR T-cell product, is a less differentiated, more potent cellular drug product than orva-cel and can be manufactured with a more rapid processing time. At low doses, BMS-986354 demonstrated a favorable safety profile and promising efficacy, including deep and durable responses in pts with heavily pretreated RRMM. The study continues to enroll patients in the dose-expansion phase. Updated safety, efficacy, and translational data will be presented. Figure 1View largeDownload PPTFigure 1View largeDownload PPT Close modal