Abstract 1683: A novel adenosine A2A receptor antagonist optimized for high potency in adenosine-rich tumor microenvironment boosts antitumor immunity

High levels of extracellular adenosine in the tumor microenvironment are known to play a significant role in tumor immune evasion and promote tumor growth and metastasis. We defined the receptor(s) required for mediating the effect of adenosine on immune cells within the tumor microenvionment and report the characterization of a novel Immuno-Oncology-dedicated adenosine receptor 2A antagonist that functions in the high adenosine concentration found in tumors. We first explored the expression of the four adenosine receptors in primary human immune cells. A 2A receptor was the main adenosine receptor expressed by CD4 and CD8 T lymphocytes and monocytes, and the only one in mature monocyte-derived dendritic cells and NK cells. A 2B receptor was poorly detected in T cells and monocytes, while A 1 and A 3 receptors were never detected. Given these expression patterns, we further studied A 2A functions in primary human T lymphocytes and monocytes. Selective A 2A agonists such as CGS-21680 strongly suppressed cytokine production by activated primary human T lymphocytes, thus highlighting that A 2A is the main effector receptor of the sensing of adenosine in tumors. We further confirmed the elevated extracellular adenosine level in the tumor microenvironment in several mouse and human tumors. High adenosine levels correlated with strong tumoral expression of CD73, the enzyme that converts AMP to adenosine. Interestingly, we showed that A 2A receptor antagonists designed for Parkinson’s disease dramatically lost potency in a high adenosine environment ; our data indicated that a 30-fold dose increase may be required for full target inhibition within tumors. Therefore we developed a novel and potent A 2A blocker with sub-nanomolar Ki and IC 50 in a cAMP assay and a more than 100-fold selectivity over other adenosine receptors. Our lead compound kept a high potency in an adenosine-rich environment and restored cytokine production even in the presence of high concentrations of A 2A agonists. iTeos inhibitor also efficiently reversed AMP-mediated T cell suppression. Furthermore, our compound rescued A 2A receptor agonist-induced decrease of TNFα production by primary human monocytes, and was able to potently increase CD8 T cell cytotoxicity in a cytotoxicity assay with CD8 T cells as effectors and cancer cells as targets. These results suggest that iTeos new generation of A 2A receptor antagonist, designed to keep a high potency in the adenosine-rich tumor microenvironment, may offer a new therapeutic opportunity in Immuno-Oncology. Citation Format: Erica Houthuys, Margreet Brouwer, Florence Nyawouame, Romain Pirson, Reece Marillier, Theo Deregnaucourt, Joao Marchante, Jakub Swiercz, Charlotte Moulin, Vanesa Bol, Gregory Driessens, Michel Detheux, Christophe Queva, Stefano Crosignani, Bruno Gomes. A novel adenosine A2A receptor antagonist optimized for high potency in adenosine-rich tumor microenvironment boosts antitumor immunity [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 1683. doi:10.1158/1538-7445.AM2017-1683