Abstract Purpose: CD46 is highly expressed across multiple cancer types, including prostate cancer and multiple myeloma. We have developed CD46-targeting antibody drug conjugate and 225Ac-based alpha particle therapy agents that demonstrated a tumor-selective therapeutic effect. We hypothesized that a treatment strategy targeting CD46 using simultaneous antibody-drug conjugate (ADC) and radioimmunotherapy (RIT) methods would have synergistic therapeutic efficacy with acceptable toxicity. Experimental Design: Two CD46-targeted combination treatment strategies were evaluated: (1) co-administration of the ADC (YS5-MMAE) and Actinium-225-labeled antibody (225AcMacropa-PEG4-YS5), and (2) a dual-payload radioconjugate (225AcMacropa-PEG4-YS5-MMAE, R-ADC). The in vitro synergy was studied using cell viability, DNA damage, and apoptosis assays. In vivo studies were performed for biodistribution, toxicity, and therapeutic evaluation in subcutaneous, disseminated, and patient-derived xenograft models of prostate cancer and multiple myeloma. Results: Combination therapy induced synergistic G2/M arrest, increased γ-H2AX foci, and enhanced cell death compared to monotherapies. R-ADC and co-administration strategies resulted in improved tumor control and survival benefit. Conclusions: By integrating orthogonal microtubule inhibition and high-linear-energy-transfer alpha irradiation on a single CD46 scaffold, potent, well-tolerated tumor control was achieved across diverse models. The dual-payload construct's compatibility with CD46 immuno-PET for real-time dosimetry further supports progression to early-phase clinical trials in prostate cancer and multiple myeloma.
Bidkar et al. (Thu,) studied this question.