RESUMO
Many vaccines, including those using recombinant antigen subunits, rely on adjuvant(s) to enhance the efficacy of the host immune responses. Among the few adjuvants clinically approved, QS-21, a saponin-based immunomodulatory molecule isolated from the tree bark of Quillaja saponaria (QS) is used in complex formulations in approved effective vaccines. High demand of the QS raw material as well as manufacturing scalability limitation has been barriers here. We report for the first-time successful plant cell culture production of QS-21 having structural, chemical, and biologic, properties similar to the bark extracted product. These data ensure QS-21 and related saponins are broadly available and accessible to drug developers.
RESUMO
Conventional immune checkpoint inhibitors (ICI) targeting CTLA-4 elicit durable survival, but primarily in patients with immune-inflamed tumors. Although the mechanisms underlying response to anti-CTLA-4 remain poorly understood, Fc-gamma receptor (FcγR) IIIA co-engagement appears critical for activity, potentially explaining the modest clinical benefits of approved anti-CTLA-4 antibodies. We demonstrate that anti-CTLA-4 engineered for enhanced FcγR affinity leverages FcγR-dependent mechanisms to potentiate T cell responsiveness, reduce intratumoral Tregs, and enhance antigen presenting cell activation. Fc-enhanced anti-CTLA-4 promoted superior efficacy in mouse models and remodeled innate and adaptive immunity versus conventional anti-CTLA-4. These findings extend to patients treated with botensilimab, an Fc-enhanced anti-CTLA-4 antibody, with clinical activity across multiple poorly immunogenic and ICI treatment-refractory cancers. Efficacy was independent of tumor neoantigen burden or FcγRIIIA genotype. However, FcγRIIA and FcγRIIIA expression emerged as potential response biomarkers. These data highlight the therapeutic potential of Fc-enhanced anti-CTLA-4 antibodies in cancers unresponsive to conventional ICI therapy.