Effect of BL-8040, high-affinity CXCR4 antagonist, on T-cell infiltration, tumor growth, and synergy with immunomodulatory agents.

Abstract

e14544 Background: Cancer cells affect their micro-environment by recruiting immune cells that support tumor growth, metastasis and inhibition of anti-tumor effector T and NK cell recruitment. In this study, we investigated the role of BL-8040, a CXCR4 antagonist in cancer immunotherapy and its ability to modulate the immunosuppressive tumor micro-environment. Methods: The effect of BL8040 on tumor micro-environment was tested in 3 different cancer mouse models: lung cancer, pancreatic cancer and melanoma. The mobilization of immune cells to the periphery in response to BL8040 was tested, as well as the accumulation of immune cells both within and surrounding the tumor in the pancreatic cancer mouse model. Results: BL8040 was found to be a potent and robust mobilizer of immune cells. Immunophenotyping of the mobilized cells revealed that the mobilization of CD4 and CD8 T lymphocytes, as well as of dendritic cells (DC), was significantly increased in the cancer-bearing mice compared to their naïve counterparts. Importantly, a significant mobilization of effector CD8 T cells and activated CD8 T cells in the cancer-bearing mice was also detected following BL8040 treatment. Concomitantly, in the pancreatic cancer mouse model, treatment with BL8040 increased CD8 T cell accumulation within the tumor and inhibited tumor growth. Conclusions: The immune cell population that is mobilized in response to BL8040 treatment is different in cancer mouse models and naïve mice. The ability of BL8040 to induce mobilization of leukocytes, cytotoxic and activated CD8 T cells and DCs is affected by the presence of a tumor. In our models of pancreatic cancer, mobilization of immune cells from the bone marrow into the circulation and their accumulation within the tumor and tumor microenvironment resulted in inhibition of tumor growth. These results indicate that BL8040 may affect the tumor microenvironment and therefore can potentially synergize with immunomodulatory agents. In vivo pre-clinical studies as well as clinical studies are currently ongoing for testing the combination of BL8040 with immunomodulatory agents in different cancer models.