Small molecule AZD4635 inhibitor of A 2A R signaling rescues immune cell function including CD103 + dendritic cells enhancing anti-tumor immunity

• Published in: Journal for immunotherapy of cancer Vol. 8; no. 2; p. e000417
• Main Authors: Borodovsky, Alexandra, Barbon, Christine M, Wang, Yanjun, Ye, Minwei, Prickett, Laura, Chandra, Dinesh, Shaw, Joseph, Deng, Nanhua, Sachsenmeier, Kris, Clarke, James D, Linghu, Bolan, Brown, Giles A, Brown, James, Congreve, Miles, Cheng, Robert Ky, Dore, Andrew S, Hurrell, Edward, Shao, Wenlin, Woessner, Richard, Reimer, Corinne, Drew, Lisa, Fawell, Stephen, Schuller, Alwin G, Mele, Deanna A
• Format: Journal Article
• Language: English
• Published: England 01.07.2020
• Subjects: adenosine; tumors; adaptive immunity; oncology; pharmacology
• ISSN: 2051-1426; 2051-1426
• DOI: 10.1136/jitc-2019-000417

Accumulation of extracellular adenosine within the microenvironment is a strategy exploited by tumors to escape detection by the immune system. Adenosine signaling through the adenosine 2A receptor (A R) on immune cells elicits a range of immunosuppressive effects which promote tumor growth and limit the efficacy of immune checkpoint inhibitors. Preclinical data with A R inhibitors have demonstrated tumor regressions in mouse models by rescuing T cell function; however, the mechanism and role on other immune cells has not been fully elucidated. We report here the development of a small molecule A R inhibitor including characterization of binding and inhibition of A R function with varying amounts of a stable version of adenosine. Functional activity was tested in both mouse and human T cells and dendritic cells (DCs) in in vitro assays to understand the intrinsic role on each cell type. The role of adenosine and A R inhibition was tested in DC differentiation assays as well as co-culture assays to access the cross-priming function of DCs. Syngeneic models were used to assess tumor growth alone and in combination with alphaprogrammed death-ligand 1 (αPD-L1). Immunophenotyping by flow cytometry was performed to examine global immune cell changes upon A R inhibition. We provide the first report of AZD4635, a novel small molecule A R antagonist which inhibits downstream signaling and increases T cell function as well as a novel mechanism of enhancing antigen presentation by CD103 DCs. The role of antigen presentation by DCs, particularly CD103 DCs, is critical to drive antitumor immunity providing rational to combine a priming agent AZD4635 with check point blockade. We find adenosine impairs the maturation and antigen presentation function of CD103 DCs. We show in multiple syngeneic mouse tumor models that treatment of AZD4635 alone and in combination with αPD-L1 led to decreased tumor volume correlating with enhanced CD103 function and T cell response. We extend these studies into human DCs to show that adenosine promotes a tolerogenic phenotype that can be reversed with AZD4635 restoring antigen-specific T cell activation. Our results support the novel role of adenosine signaling as an intrinsic negative regulator of CD103 DCs maturation and priming. We show that potent inhibition of A R with AZD4635 reduces tumor burden and enhances antitumor immunity. This unique mechanism of action in CD103 DCs may contribute to clinical responses as AZD4635 is being evaluated in clinical trials with IMFINZI (durvalumab, αPD-L1) in patients with solid malignancies. We provide evidence implicating suppression of adaptive and innate immunity by adenosine as a mechanism for immune evasion by tumors. Inhibition of adenosine signaling through selective small molecule inhibition of A R using AZD4635 restores T cell function via an internal mechanism as well as tumor antigen cross-presentation by CD103 DCs resulting in antitumor immunity.