The real-world safety and efficacy of bispecific t-cell engager therapy in systemic AL amyloidosis Free

Introduction: The attainment of rapid and deep hematologic responses is key to restoring organ function and reducing mortality in AL amyloidosis. Despite the introduction of anti-CD38 monoclonal antibodies, ~50% of AL patients will respond sub optimally to 1st-line therapy, and many will relapse. Bispecific T-cell engagers (TCEs) have produced unprecedented outcomes in relapsed myeloma, and whether they can be safely applied to AL amyloidosis is a key clinical question.

Methods: A multicenter retrospective study involving 9 US academic medical centers within the US Multiple Myeloma Immunotherapy Consortium. We included patients with systemic AL amyloidosis who received bispecific TCE therapy targeting either BCMA or GPRC5D to investigate the safety, and efficacy of this approach.

Results: Between February 2023 and March 2025, we identified 29 patients with AL amyloidosis treated with TCEs (n=19 teclistamab, n=6 elranatamab, n=4 talquetamab). The median age was 72-years (IQR: 66, 75), with a female predominance (59%, n=17). Most patients had lambda light-chain isotype (59%, n=17), 31% (n=9) had t(11;14). Diagnostic bone marrow plasma cell (BMPC) burden was unknown in 6 cases, of the remaining cases 74% had ≥10% and 65% had ≥20% BMPCs. Ten patients (34%) had either ≥60% BMPCs at diagnosis or an involved FLC ratio >100 prior to TCE. The median number of prior lines was 5 (IQR: 4, 6), all patients had previous anti-CD38 monoclonal antibody exposure, 55% (n=16) had received an autologous stem cell transplant, and 28% (n=8) had received prior BCMA-directed therapy (n=4 antibody drug conjugates [ADCs], n=3 CAR T, n=1 ADC + TCE). Immediately prior to TCE therapy, 8% (n=2) were stage 3A and 19% (n=5) were stage 3B according to the European modification of the Mayo 2004 prognostic score. Staging was unknown in n=3 cases. Regarding organ involvement, 66% (n=19) had cardiac, 59% (n=17) had renal, 24% (n=7) had gastrointestinal (biopsy-proven), 10% (n=3) had peripheral nerve and 3% (n=1) had autonomic nerve involvement.

The rate of cytokine release syndrome (CRS) was 45% (Grade 1, G1: n=8, Grade 2, G2: n=5, Grade ≥3,G3+: n=0), and immune cell associated neurological syndrome (ICANS) was 14% (G1: n=3, G2: n=1, G3+: n=0). Seven patients (24%) received tocilizumab as treatment, a further one patient received prophylactic tocilizumab. One-third of the cohort experienced at least one infection (n=10), and 20 (n=6) experienced a ≥grade 3 infection.

The overall response rate was 76% (n=22) by AL amyloidosis response criteria, including a 66% (n=19) complete response (CR), 7% (n=2) very good partial response (VGPR), and 3% (n=1) partial response (PR) rate. Two patients did not undergo disease reassessment; one due to an early treatment-emergent death, and one who was lost to follow-up before cycle 2. Among responders, the median time to a VGPR or better was 29 days (IQR: 18, 56). At a median follow up of 8.8 months, the 1-year overall survival rate was 77% (95%CI: 62%-95%). Of the 6 deaths which occurred, 3 occurred while on TCE therapy (VF arrest during step up not associated with CRS, cardiac failure, and infectious complication), and 3 deaths occurred off therapy (unknown, progressive disease, and as a complication of surgery). Of 14 patients eligible for cardiac response assessment at the time of TCE therapy (NTproBNP>650 OR BNP>150), 9 (64%) obtained a response (CarPR=4, CarVGPR=2, CarCR=3). Of 4 patients eligible for renal response assessment at the time of TCE initiation (>1g proteinuria/day), all 4 patients obtained a response (RenPR=1, RenVGPR=2, RenCR=1).

Conclusion: This is the largest cohort of TCE therapy in AL amyloidosis. TCE therapy produced a high rate of rapid and deep haematological responses. Despite a high prevalence of cardiac and renal involvement, rates of CRS were low with no grade ≥3 events, however, infectious complications were frequent. Non-relapse mortality reflected our cohort's advanced disease and prior treatment, including 2 deaths (7%) unequivocally related to cardiac causes. Although follow-up was limited, there was a high rate of early organ responses, consistent with the deep hematological response rates observed. Although our cohort exhibited overlapping features with multiple myeloma, such as a high baseline plasma cell burden, the pattern of organ involvement was consistent with typical AL amyloid populations, supporting the broader application of this therapy in AL amyloidosis.