Abstract 1363: Blocking inhibitory receptor ILT3 by an antibody with enhanced Fc function promoted adaptive immunity against hematopoietic malignancy independent of ADCC

Abstract

Abstract Immunoglobulin-like transcript 3 (ILT3) is an inhibitory receptor that is expressed by mature monocytes, dendritic cells (DC), plasma blasts, and the malignant cells arising thereof including acute myeloid leukemia (AML), B cell lymphoma and multiple myeloma (MM). We developed an anti-ILT3 blocking monoclonal antibody (mAb) 17G8 to test the hypothesis that blockade of ILT3 on hematopoietic malignant cells might drive anti-cancer responses through several mechanisms such as cell migration, ADCC, and T cell driven immune responses. Blockade of ILT3 using 17G8 without Fc effector function impaired AML cell line THP1 dissemination into distant sites in vivo and using 17G8 with enhanced Fc function through afucosylation further reduced the tumor burden. This effect of afucosylated 17G8 appears to be mediated by a mechanism other than ADCC, since afucosylated 17G8 showed modest tumor inhibition in ICR mice carrying ILT3 positive AML and MM xenografts. In immune competent mice carrying murine syngeneic AML cell C1498 expressing human ILT3, 17G8 also showed modest anti-tumor effects as a single agent, however, when combined with anti-PD1, afucosylated 17G8 increased CD8+ effector memory T cells, reduced proportion of cells with an exhausted phenotype and significantly improved survival when compared to different controls. Since T cells don’t express ILT3, the effects of 17G8 on T cells are hypothesized to be mediated by blocking ILT3 expressed on myeloid cells. The expression of ILT3 on immature human monocyte-derived DC (moDC) is higher than on mature moDC. Blocking ILT3 with afucosylated 17G8 on immature moDC potentiated maturation of moDC when compared to the controls in vitro. Surprisingly, afucosylated 17G8 stimulated IFNγ production from moDC during maturation. The enhanced DC function induced by afucosylated 17G8 was subsequently found to be translated into enhanced T cell function in an allogeneic mixed lymphocyte reaction (allo-MLR) assay, in which afucosylated 17G8 significantly increased IFNγ production when combined with anti-PD1. The activation of effector T cells was also monitored through a cytotoxicity assay by mixing THP-1 cells with human PBMC in culture. Afucosylated 17G8 induced strong cytotoxicity on THP-1 cells with minimal effects on normal ILT3 positive cells such as monocytes or moDC, suggesting that blockade of ILT3 with afucosylated 17G8 induced more potent T cell mediated allogeneic cytotoxicity than innate cell mediated ADCC killing. In summary, ILT3 is a highly selective M4/M5 AML target. Developing a blocking antibody with enhanced Fc function could add an additional therapeutic strategy of inducing host anti-tumor immunity to current AML treatments which induce direct tumor killing, such as chemotherapy, targeted therapy, and antibody drug conjugate. Citation Format: Shiming Ye, Dong Zhang, Min-Zu Wu, Harini Raghu, Diane Cohen, Mally Romero, Siu-Sze Tan, Donghee Choi, Jonathan Hickson, John Engelhardt, Alex Shoemaker. Blocking inhibitory receptor ILT3 by an antibody with enhanced Fc function promoted adaptive immunity against hematopoietic malignancy independent of ADCC [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 1363.