Despite the advances in cancer immunotherapy, in particular in the field of checkpoint inhibitors (CPI), many patients fail to respond (primary resistance) or initially benefit but then progress upon treatment (secondary resistance). High regulatory T-cell (Treg) counts correlate with poor prognosis and reduced responsiveness to CPI therapy in humans, underscoring their potential as an immunotherapy target. Clinical attempts aiming to lower Treg counts, however, either failed to deliver convincing Treg reduction or lacked specificity for Treg over tumor antigen specific cytotoxic T cells (CTL). CD25 (the interleukin-2 receptor alpha (IL-2Ra) chain) is a recently revisited target for Treg depletion. For privileged access to IL-2, activated CTL up-regulate CD25 expression only transiently during clonal expansion. Further confirmation of an > 20 fold higher cell surface expression of CD25 on Tregs versus CTLs in human malignancies is provided. The novel compound RG6292 was developed as an ADCC and ADCP competent monoclonal antibody of human IgG1 isotype with afucosylated glycans in the Fc region. RG6292 binds with low monovalent affinity (KD 250 nM) to the extracellular domain of CD25 antigen. A high density of CD25 receptors promotes bivalent avidity of RG6292 increasing its binding strength to CD25 by at least 100 fold (KD 2-3 nM). RG6292 selectively favors the depletion of CD25 high Tregs over CD25 low activated CTLs, here shown in comparison to ipilimumab and mogamulizumab in human αCD3 activated PBMC, human tumor explants and immunopharmacodynamic studies in tumor bearing (BxPC-3), stem cell humanized mice and cynomolgus monkeys. IL-2 is an essential prerequisite for clonal expansion of CTLs, which is necessary to generate effective anti-tumor responses. Earlier immunosuppressant anti-CD25 antibodies (e.g. daclizumab and basiliximab) interfered with the formation of the high affinity IL-2R complex. Their evidenced lack of therapeutic activity in immunoncology tempered enthusiasm and highlights the pivotal role of IL-2. RG6292 is the first anti-human CD25 antibody developed to deplete Tregs selectively while fully preserving IL-2 signaling and CTL activity. Pre-clinically, a single administration of the RG6292 surrogate effectively promoted eradication of established tumors in several tumor mouse models and synergized with CPI in models of CPI resistance. RG6292 is expected to unleash the potential of selective Treg depletion while allowing for unrestricted access of IL 2 to CTLs and could therefore result in clinically superiority compared to other Treg depleting antibodies. RG6292 provides a novel therapeutic approach to alleviate a major mechanism of immune suppression in the tumor microenvironment. Clinical testing is currently ongoing to evaluate the safety and tolerability of RG6292 in patients with advanced solid tumors (NCT04158583).

Citation Format: Maria Amann, Gabriel Schnetzler, Kolben Theresa, Isabelle Solomon, Christophe Boetsch, Estelle Marrer-Berger, Reto Flury, Claudio Murgia, Vaios Karanikas, Johannes Sam, Roger Sutmuller, Jan Eckmann, Hans Koll, Sara Belli, Frederic Arce Vargas, Dimitrios Zervas, Chen Qing, Mark A. Brown, Josephine Salimu, Anne Goubier, Sebastian Neumann, Karl S. Peggs, Sergio A. Quezada. The CD25 antibody RG6292 selectively depletes Tregs while preserving IL-2 signaling and CTL activity for tumor control [abstract]. In: Proceedings of the Annual Meeting of the American Association for Cancer Research 2020; 2020 Apr 27-28 and Jun 22-24. Philadelphia (PA): AACR; Cancer Res 2020;80(16 Suppl):Abstract nr 4553.