SOT101 induces NK cell cytotoxicity and potentiates antibody-dependent cell cytotoxicity and anti-tumor activity

SOT101 is a superagonist fusion protein of interleukin (IL)-15 and the IL-15 receptor α (IL-15Rα) sushi+ domain, representing a promising clinical candidate for the treatment of cancer. SOT101 among other immune cells specifically stimulates natural killer (NK) cells and memory CD8+ T cells with no significant expansion or activation of the regulatory T cell compartment. In this study, we showed that SOT101 induced expression of cytotoxic receptors NKp30, DNAM-1 and NKG2D on human NK cells. SOT101 stimulated dose-dependent proliferation and the relative expansion of both major subsets of human NK cells, CD56brightCD16- and CD56dimCD16+, and these displayed an enhanced cytotoxicity in vitro. Using human PBMCs and isolated NK cells, we showed that SOT101 added concomitantly or used for immune cell pre-stimulation potentiated clinically approved monoclonal antibodies Cetuximab, Daratumumab and Obinutuzumab in killing of tumor cells in vitro. The anti-tumor efficacy of SOT101 in combination with Daratumumab was assessed in a solid multiple myeloma xenograft in CB17 SCID mouse model testing several combination schedules of administration in the early and late therapeutic setting of established tumors in vivo. SOT101 and Daratumumab monotherapies decreased with various efficacy tumor growth in vivo in dependence on the advancement of the tumor development. The combination of both drugs showed the strongest anti-tumor efficacy. Specifically, the sequencing of both drugs did not matter in the early therapeutic setting where a complete tumor regression was observed in all animals. In the late therapeutic treatment of established tumors Daratumumab followed by SOT101 administration or a concomitant administration of both drugs showed a significant anti-tumor efficacy over the respective monotherapies. These results suggest that SOT101 might significantly augment the anti-tumor activity of therapeutic antibodies by increasing NK cell-mediated activity in patients. These results support the evaluation of SOT101 in combination with Daratumumab in clinical studies and present a rationale for an optimal clinical dosing schedule selection.

Abstract 3510: SOT201 is a novel targeted IL-15Rbg agonist to alleviate PD-1-mediated immune cell suppression and potentiate anti-tumor efficacy

SOT201 is a novel immunocytokine consisting of a monoclonal humanized, Fc silenced antibody against PD-1 fused to a covalent RLI-15 complex of a human IL-15 mutein linked to the high-affinity binding site of the IL-15Rα, the sushi+ domain. SOT201 is developed for immunotherapeutic treatment of various types of cancers. The activity of SOT201 is based on spatiotemporal reinvigorating of anti-tumor immune responses by disrupting co-inhibitory T-cell signaling by blocking PD-1 and synergistically activating adaptive as well as innate immunity by IL-15-mediated signaling via the IL-2/IL-15βγ receptor on T cells, NK, NKT, and γδ T cells. SOT201 showed a superior potentiation of T cell stimulation over pembrolizumab in mixed lymphocyte reaction in vitro. Studies in cynomolgus monkeys showed that decreased affinity of IL-15 mutein in SOT201 for its IL-15Rβγ is well optimized to ensure favorable pharmacokinetic properties while inducing strong CD8+ T cell and NK cell activation and expansion. Synergistic action on CD8+ T cell activation of both anti-PD-1 and RLI-15 moieties was confirmed using mouse surrogate SOT201 molecules in vivo. Strong anti-tumor efficacy after SOT201 treatment was achieved in a human PD-1 transgenic mouse model implanted with the MC38-hPD-L1 cell line. These data represent a promising therapeutic candidate molecule leveraging the synergistic concerted action of anti-PD-1 blockage and simultaneous immune cell activation directed preferentially to the high PD-1+ T cell tumor environment. The therapeutic potential of SOT201 is currently being prepared for evaluation in a Phase I clinical study in metastatic advanced cancer patients as well as for PD-1 resistant/refractory patients as our clinical stage IL-2/IL-15Rβγ agonist SOT101 already showed a clinical benefit in these patients in its ongoing Phase I study.

Citation Format: Irena Adkins, Zuzana Antosova, Klara Danova, Kamila Hladikova, Katerina Augustynkova, Katerina Sajnerova, Nada Podzimkova, Pavel Marasek, Guy de Martynoff, David Bechard, Ulrich Moebius, Radek Spisek. SOT201 is a novel targeted IL-15Rbg agonist to alleviate PD-1-mediated immune cell suppression and potentiate anti-tumor efficacy [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 3510.

Abstract 6686: SO-C101 displays strong anti-tumor effect in TC-1 and TRAMP-C2 tumor mice and in combination with PD-1 blockade prevents tumor development in a NK and CD8+ T cells dependent manner

SO-C101 (RLI-15) is a superagonist fusion protein of interleukin (IL)-15 and the IL-15 receptor α (IL-15Rα) sushi+ domain designed to bypass the need of endogenous IL-15Rα, thereby leveraging the activity of IL-15 in vivo on target immune cells and reducing the toxicity of IL-15 as such. SO-C101 was previously shown to exhibit a potent anti-metastatic activity in Renca, B16F10 melanoma and delayed tumor growth in T cell-based mouse tumor models (CT26, MC38). Here we investigated the anti-tumor efficacy in predominantly natural killer (NK)-cell based mouse tumor models TC-1 and TRAMP-C2. We showed that SO-C101 monotherapy was effective in the treatment of established TC-1 tumors, which was dependent on the presence of both NK and CD8+ T cells, but not CD4+ T cells. In an early treatment setting SO-C101 significantly decreased the rate of tumor development also in dependence on NK and CD8+ T cells. SO-C101 effectively reduced tumor growth in TRAMP-C2 mice in early and advanced treatment settings. However, only in combination with anti-PD-1 antibody treatment the tumor development was prevented in majority of mice. This effect was durable, and the new tumor development was further significantly delayed after a tumor cell re-challenge, which suggests the involvement of memory T cells despite an important NK cell role in anti-tumor efficacy in these models. The efficacy of SO-C101 and anti-PD-1 treatment was not dependent on CD4+ T cells, but mainly on NK and CD8+ T cells. Interestingly, SO-C101 and anti-PD-1 treatment in double NK/CD8+ T cell-depleted mice decreased tumor growth which suggests an involvement of other immune cell populations in the anti-tumor efficacy. SO-C101 stimulated the proliferation and the cytotoxic activity of NK cells and memory CD8+ T cells without significant expansion of regulatory T cells. These data show the importance of various immune cell populations during SO-C101 monotherapy and the treatment in combination with anti-PD-1 antibodies, and set a base for further complex analysis of SO-C101 behavior. The therapeutic potential of SO-C101 is currently being tested in an ongoing Phase I clinical study in cancer patients.

Citation Format: Irena Adkins, Romana Mikyskova, Nada Hradilova, Guy de Martynoff, David Bechard, Ulrich Moebius, Milan Reinis, Radek Spisek. SO-C101 displays strong anti-tumor effect in TC-1 and TRAMP-C2 tumor mice and in combination with PD-1 blockade prevents tumor development in a NK and CD8+ T cells dependent manner [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 6686.

Abstract 3775: Use of RLI-15 a clinical grade fusion protein with IL-15 superagonistic activity for the activation of anti-tumor immune response

RLI-15, a superagonist fusion protein of interleukin (IL)-15 and the IL-15 receptor α (IL-15Rα) sushi+ domain represents a promising candidate for the induction of anti-tumor immunity. RLI-15 was designed to bypass the need of endogenous IL-15Rα, thereby leveraging the activity of IL-15 in vivo on target immune cells. RLI-15 stimulates the proliferation and the cytotoxic activity of natural killer (NK) cells and memory CD8+ T cells with no significant expansion and activation of regulatory T cell compartment. RLI-15 was previously shown to exhibit a potent anti-metastatic activity in B16F10 melanoma and Renca renal cell carcinoma mouse models. RLI-15 also significantly delayed tumor growth and prolonged survival when combined with anti-PD1 therapy in CT26 and MC38 colon carcinoma models. Here, we report that the combination treatment with clinical-grade RLI-15 and an anti-PD1 antibody leads to a significant anti-tumor efficacy in a TRAMP-C2 prostate cancer mouse model with 70 % of mice remaining tumor free after the treatment. We evaluated the optimal schedule of such combination therapy to set the basis for the design of upcoming clinical trials. We further tested how the administration schedule affects the pharmacodynamics properties of clinical-grade RLI-15 and translates into the anti-tumor efficacy in metastatic Renca and CT26 mouse models. In cynomolgous monkeys, various schedules of administration of RLI-15 showed a dose-dependent expansion of peripheral blood lymphocytes, predominantly of NK cell and memory CD8+ T cell compartments. The toxicity in mice and cynomolgous monkeys was evaluated to determine the maximal tolerated dose of RLI-15. Furthermore, the activity of clinical-grade RLI-15 was tested in vitro on human PBMCs and the superiority over IL-2 and IL-15 stimulatory capacity has been confirmed. The complex analysis of RLI-15 behavior and of the induced anti-tumor immune response will be explored in the design of a planned Phase I clinical study in patients with both solid tumors and hematological malignancies.

Citation Format: Irena Adkins, Lenka Sadilkova, Nada Hradilova, Jakub Tomala, Barbora Tomalova, Marek Kovar, Romana Mikyskova, Milan Reinis, Guy de Martynoff, David Bechard, Ulrich Moebius, Radek Spisek. Use of RLI-15 a clinical grade fusion protein with IL-15 superagonistic activity for the activation of anti-tumor immune response [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 3775.