28 research outputs found

    Abstract 581: Discovery and development of COM701, a therapeutic antibody targeting the novel immune checkpoint PVRIG

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    Abstract Background: While blockade of the CTLA4 and PD1 pathways has emerged as an effective treatment of cancer, the majority of patients do not derive long term benefit. This provides a rationale for identifying and targeting additional checkpoints. Employing our unique computational algorithms, we identified PVRIG, a new member of the B7/CD28 family. We report here the expression pattern, functional characterization, and anti-tumor activity of blocking antibodies targeting PVRIG as well as characterization of PVRIG KO mice. Materials and Methods: PVRIG is expressed by T and NK cells within the tumor microenvironment. We identified PVRL2 as its counterpart and characterized the PVRIG-PVRL2 interaction. Antibody discovery was carried out with phage display and hybridoma platforms and antibodies against the human protein were screened for their ability to enhance T-cell activity in vitro, while surrogate antibodies targeting the mouse protein were assessed in syngeneic models for effects on tumor growth. PVRIG -/- KO mice were generated and characterized including phenotyping and anti-tumor immune response. Results: PVRIG is expressed on different T cell subsets and on NK, NKT and γδ T-cells. Within T cells, memory subsets possess the highest level of PVRIG and its expression is induced upon long term activation with different stimuli. Within tumor microenvironment, PVRIG was found to be expressed on NK and CD8+ T cells in multiple cancers. A high affinity lead Ab was selected, COM701, for further clinical development and demonstrated blockade of the interaction of PVRIG with PVRL2 as well as enhancement of activation of both primary and tumor-derived effector immune cells through a PVRL2-dependent mechanism. Moreover, COM-701 showed notable enhancement of T cell function in-vitro when combined with PD1 or TIGIT Ab blockade. The lead antibody, COM-701, is currently in preclinical development. A surrogate antibody, that blocks PVRIG-PVRL2 interaction, was shown to inhibit growth of colon carcinoma and melanoma in syngeneic models upon combined treatment with anti-PDL1 antibody. Comparative analysis of PVRIG KO versus WT derived T cells revealed enhanced reactivity of PVRIG null T cells upon polyclonal activation in presence of PVRL2-Ig. Accordingly, MC38 tumors grew slower in PVRIG KO than in WT mice and ex vivo analysis pointed to the quantitative and functional differences in anticancer immunity developed in these mice. Conclusion: We describe the identification of PVRIG as a novel T cell immune checkpoint. We further demonstrate that antibody blockade of the PVRIG-PVRL2 interaction has the potential to be efficiently combined with PD1 or TIGIT blockade for enhancing anti-tumor immunity. COM-701 is a high affinity antagonistic antibody that is currently in preclinical development. Taken together, these data demonstrate the utility of targeting PVRIG in addition to other B7 family checkpoints for the treatment of cancer. Citation Format: Ofer Levy, Chris Chan, Gady Cojocaru, Spencer Liang, Eran Ophir, Sudipto Ganguly, Maya Kotturi, Tal Friedman, Benjamin Murter, Liat Dassa, Ling Leung, Shirley Greenwald, Meir Azulay, Sandeep Kumar, Zoya Alteber, Xiaoyu Pan, Andy Drake, Ran Salomon, Arthur Machlenkin, John Hunter, Zurit Levine, Drew Pardoll, Mark White. Discovery and development of COM701, a therapeutic antibody targeting the novel immune checkpoint PVRIG [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 581. doi:10.1158/1538-7445.AM2017-581</jats:p

    Trogocytosis Is a Gateway to Characterize Functional Diversity in Melanoma-Specific CD8+ T Cell Clones

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    Abstract Trogocytosis, the transfer of membrane patches from target to immune effector cells, is a signature of tumor–T cell interaction. In this study, we used the trogocytosis phenomenon to study functional diversity within tumor-specific T cell clones with identical TCR specificity. MART-126–35–specific CD8 T cell clones, which differed in their trogocytosis capacity (low [2D11], intermediate [2G1], high [2E2]), were generated from melanoma patients. Functional evaluation of the clones showed that the percentage of trogocytosis-capable T cells closely paralleled each clone’s IFN-γ and TNF-α production, lysosome degranulation, and lysis of peptide-pulsed targets and unmodified melanoma. The highly cytotoxic 2E2 clone displayed the highest TCR peptide binding affinity, whereas the low-activity 2D11 clone showed TCR binding to peptide-MHC in a CD8-dependent manner. TCR analysis revealed Vβ16 for clones 2E2 and 2G1 and Vβ14 for 2D11. When peptide-affinity differences were bypassed by nonspecific TCR stimulation, clones 2E2 and 2D11 still manifested distinctive signaling patterns. The high-activity 2E2 clone displayed prolonged phosphorylation of ribosomal protein S6, an integrator of MAPK and AKT activation, whereas the low-activity 2D11 clone generated shorter and weaker phosphorylation. Screening the two clones with identical TCR Vβ by immunoreceptor array showed higher phosphorylation of NK, T, and B cell Ag (NTB-A), a SLAM family homophilic receptor, in clone 2E2 compared with 2G1. Specific blocking of NTB-A on APCs markedly reduced cytokine production by CD8 lymphocytes, pointing to a possible contribution of NTB-A costimulation to T cell functional diversity. This finding identifies NTB-A as a potential target for improving anti-cancer immunotherapy.</jats:p

    Soluble SLAMF6 Receptor Induces Strong CD8+ T-cell Effector Function and Improves Anti-Melanoma Activity <i>In Vivo</i>

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    Abstract SLAMF6, a member of the SLAM (signaling lymphocyte activation molecules) family, is a homotypic-binding immune receptor expressed on NK, T, and B lymphocytes. Phosphorylation variance between T-cell subclones prompted us to explore its role in anti melanoma immunity. Using a 203-amino acid sequence of the human SLAMF6 (seSLAMF6) ectodomain, we found that seSLAMF6 reduced activation-induced cell death and had an antiapoptotic effect on tumor-infiltrating lymphocytes. CD8+ T cells costimulated with seSLAMF6 secreted more IFNγ and displayed augmented cytolytic activity. The systemic administration of seSLAMF6 to mice sustained adoptively transferred transgenic CD8+ T cells in comparable numbers to high doses of IL2. In a therapeutic model, lymphocytes activated by seSLAMF6 delayed tumor growth, and when further supported in vivo with seSLAMF6, induced complete tumor clearance. The ectodomain expedites the loss of phosphorylation on SLAMF6 that occurs in response to T-cell receptor triggering. Our findings suggest that seSLAMF6 is a costimulator that could be used in melanoma immunotherapy. Cancer Immunol Res; 6(2); 127–38. ©2018 AACR.</jats:p
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