Abstract 2792: The combination of immune checkpoint blockers with the anti-ICOS KY1044 antibody results in a strong tumor response

Abstract

Abstract The last few years have shown a strong paradigm shift in cancer therapies with the approval of antibodies targeting immune checkpoints (CTLA-4, PD-1 and PD-L1). These immune checkpoint blockers (ICBs) are associated with a strong and long-lasting response in patients suffering from different malignancies. However, there is still a high proportion of patients showing intrinsic or acquired resistance to ICBs. Although the mechanisms associated with the lack of immune response are multiple, the presence of highly anti-inflammatory regulatory T cells (TRegs) in the tumour microenvironment (TME) is known to negatively affect the response to these therapies. Similarly, high TReg levels in the TME have been associated with poor prognosis in several cancers. Together, this highlights the potential of targeting and depleting TRegs to enhance anti-tumour responses. The Inducible T-cell costimulator (ICOS/CD278) is related to the CD28 superfamily and is induced when T cells get activated. ICOS expression levels vary in different immune cell subtypes and in different tissues. In preclinical mouse tumour models, TRegs (CD4+/FOXP3+) constitutively express ICOS on their surface and the expression of ICOS on TRegs is significantly higher than that on effector T cells (TEffs). In addition, ICOS expression on TRegs is higher in the TME than in the blood or spleen, which makes it a strong candidate for preferential depletion of TRegs in tumours. By immunizing Kymice™ in which the endogenous Icos gene has been knocked out, we identified a novel, fully human antibody called KY1044 that cross-reacts with mouse ICOS. KY1044 is an anti-ICOS subclass G1 kappa monoclonal antibody that selectively binds to dimeric ICOS (Fc fusion) with an affinity of less than 2nM. Using in vitro and in vivo approaches we demonstrate that KY1044 has a dual mechanism of action: (1) it promotes the preferential depletion of intratumoural ICOShigh TRegs resulting in an increase in the TEff:TReg ratio in the TME; and (2) it stimulates ICOSLow TEff cells. Using the mouse effector enabled version of KY1044 (mIgG2a) we confirm, using syngeneic models, a strong anti-tumour efficacy as monotherapy or in combination with surrogates of ICBs. We also demonstrated a tumour antigen specific immunity, as highlighted by the rejection of the original tumour cells in animals cured of the disease and re-challenged by the same cell line. Noteworthy, Pharmacodynamic studies demonstrate long-term depletion of TRegs and a significant increase in the TEff:TReg ratio in response to KY1044. In summary, our data demonstrate that targeting ICOS with KY1044 is a valid approach for manipulating the immune system and for inducing a strong anti-tumour response in several indications. The data presented here also warrant the assessment of KY1044 in cancer patients in a clinical trial. Citation Format: Richard C. Sainson, Matthew McCourt, Anil Thotakura, Nahida Parveen, Miha Kismac, Gwenoline Borhis, Joana Carvalho, Tracey Myers, Robert Rowlands, Hanif Ali, Hannah Craig, Vivian Wong, Qi Liang, Volker Germaschewski. The combination of immune checkpoint blockers with the anti-ICOS KY1044 antibody results in a strong tumor 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 2792.