Selective B-cell subset depletion underlies increased infection risk in patients with MM treated with anti-BCMA vs anti-GPRC5D bsAbs

Infections remain a challenge during treatment of patients with multiple myeloma (MM) with anti-B-cell maturation antigen (BCMA) and anti-G protein-coupled receptor class C group 5 member D (GPRC5D) bispecific antibodies (bsAbs). However, the mechanism underlying different rates and severity of infections induced by the 2 bsAbs remains poorly understood. Single-cell RNA sequencing of bone marrow (BM) aspirates of 11 patients with MM and 8 healthy donors revealed BCMA expression on mature B cells and, surprisingly, in small pre-B cells within B-cell precursors. GPRC5D expression was restricted to malignant and less to normal plasma cells (PCs). Next-generation flow cytometry immune profiling showed that anti-BCMA bsAbs severely depleted BM mature B cells, from 4.9% to 0% (P< .001), and normal PCs, from 0.17% to <0.0002% (P< .001), during treatment of 62 patients with relapsed MM. This was observed throughout therapy. Additional flow cytometry (n = 31) and single-cell RNA sequencing studies (n = 8) demonstrated that, in contrast to anti-GPRC5D, anti-BCMA bsAbs also depleted immature and small pre-B cells. The MIcγ1 mouse model was used as a negative control of BCMA expression in all stages of the B-cell lineage, confirming no depletion of any B-cell subset after anti-BCMA treatment. In conclusion, we show that although GPRC5D bsAbs selectively target PCs, anti-BCMA bsAbs target both PCs and B cells from the small pre-B stage onward. Our study provides mechanistic insight into the increased infection risk with anti-BCMA therapy and supports individualized bsAb strategies in MM. Moreover, dual targeting of B cells and PCs may have therapeutic potential in other B-cell malignancies or autoimmune diseases.