Alnuctamab (ALNUC; BMS-986349; CC-93269), a 2+1 B-Cell Maturation Antigen (BCMA) × CD3 T-Cell Engager (TCE), Administered Subcutaneously (SC) in Patients (Pts) with Relapsed/Refractory Multiple Myeloma (RRMM): Updated Results from a Phase 1 First‑in‑Human Clinical Study
Results: Of 73 pts treated with SC ALNUC in dose escalation (target dose: 10 mg, n = 6; 15 mg, n = 4; 30 mg, n = 6; 60 mg, n = 7) and dose expansion (target dose: 10 mg, n = 19; 30 mg, n = 21; 60 mg, n = 10), median age was 64 y; 58% were male. Pts had median of 4 prior regimens (range, 3–14); 96% were refractory to last LOT, 100%/78% had triple-class/penta-drug exposed MM, and 63%/19% had triple-class/penta-drug refractory MM. Median follow-up was 7.4 mo (range, 0.5–19.9).
All-grade/grade ≥ 3 treatment-emergent adverse events (TEAEs) occurred in 99%/81% of pts; most common were CRS (56%/0%), neutropenia (55%/45%), anemia (47%/27%), and thrombocytopenia (37%/16%). All-grade/grade ≥ 3 infections occurred in 62%/16% of pts; infections occurring in ≥ 10% of pts were COVID-19 (23%/3%) and upper respiratory tract infections (12%/0%). Infections of special interest included grade 2 cytomegalovirus reactivation in 1 pt (1.3%); there were no grade ≥ 3 infections of special interest. Median time to CRS was 3 d (range, 1–20), with a median duration of 2 d (range, 1–11). CRS was most common after the first step-up dose (40% of pts). Of 887 doses administered at the fourth dose and beyond, the frequency of CRS per dose was < 1%. Two pts had grade 1 neurotoxicity suspected related to SC ALNUC; no grade ≥ 2 neurotoxicity was observed. One pt discontinued treatment due to a TEAE (grade 3 metastatic colon cancer not suspected related to treatment); 1 treatment-related death (cerebral hemorrhage) occurred at the 60-mg target dose.
Overall response rate (ORR) was 54% (39 of 72 efficacy-evaluable pts treated with SC ALNUC) across all doses, with responses deepening over time (Figure). ORR was 63% (27/43) at target doses ≥ 30 mg and 69% (18/26) at the 30-mg target dose. Median time to response was 1.2 mo (range, 0.9–4.0) and 77% (30/39) of responses were ongoing at data cutoff. Among efficacy-evaluable pts, median PFS was 10.1 mo (95% CI, 2.8–16.6) across all dose levels. For the 30‑mg target dose, at a median follow up of 9.3 mo, median PFS was not reached (95% CI, 4.7–NA) with a 12-mo PFS of 53% (95% CI, 30–71). Among the 39 pts who achieved a response, 28/28 pts (100%) with evaluable minimal residual disease (MRD) samples were MRD-negative (10−5 sensitivity by flow cytometry) at C2D1, C4D1, C6D1, or C8D1; of the 18 pts who achieved a response at the 30-mg target dose, 14/14 pts (100%) with available MRD data were MRD-negative.
Preliminary population pharmacokinetic analysis estimated ~60% SC ALNUC bioavailability with a 14-d half-life. Observed trough concentrations at the 30-mg target dose exceeded levels predicted for efficacy by C2D1. Hallmark pharmacodynamic effects of TCEs were observed.
Conclusions: SC ALNUC continued to demonstrate a safety profile consistent with the drug class and a low rate of severe infections. Across doses, responses were durable and deepened over time, with a high proportion of responders achieving MRD negativity. High antitumor activity was observed at target doses ≥ 30 mg and specifically at the 30-mg target dose. Enrollment in the phase 1 study is ongoing.