EXTH-22. AN IND-ENABLED STUDY USING A NOVEL CHECKPOINT BLOCKADE OF LAIR1 FOR GLIOBLASTOMA THERAPY

Abstract

Abstract BACKGROUND Our research study focuses on the recently discovered immune checkpoint known as Leukocyte-Associated Immunoglobulin-like Receptor 1 (LAIR1), which is found to be overexpressed on tumor-associated myeloid cells (MAMC), including Tumor-associated macrophages (TAM) and Myeloid-derived suppressive cells (MDSC), in GBM and other solid cancers. The overexpression of LAIR1 in gliomas is associated with poor survival, which has prompted investigations into the potential of LAIR1 blockade (aLAIR1) as a therapeutic strategy. In preclinical mouse models, Objective: A) To investigate the mechanism of LAIR1, a new class of immune checkpoint. B) To develop strategies for blocking LAIR1 signaling as a means of cancer therapeutics, thereby enabling novel mono and combinatorial treatments for GBM. METHODS 1) Conduct coculture experiments using human TAMs and autologous CAR T cells in a 3D microgel bio-printing system, which allows us to recreate TME using patient-derived immune cells and a heterogeneous glioma model. By monitoring this coculture system, we aim to gain insights into the inhibitory effects of TAMs on T cells mediated by LAIR1. 2) Utilize tumor-burden wild-type and LAIR1 knockout mice to compare the intratumoral immune cell infiltration between WT and KO mice. 3) Employ sc-RNA-seq to identify key molecules involved in the TAM-T cell interaction. 4) Perform pathway analysis to identify signaling pathways that are influenced by this interaction. RESULTS aLAIR1 shifted macrophage polarization from M1 to M2 and increased memory CD8+ T cells intratumorally. It reversed MDSC- or M2- macrophage-mediated T-cell suppression, resulting in enhanced antitumor response as a standalone treatment and when used in combination with CAR T cell therapy in PD-1-resistant tumor models. CONCLUSIONS LAIR1 is a newly identified innate immune checkpoint that is highly expressed on TAMC in solid tumors, contributing to tumor progression and drug resistance. Blocking the LAIR1 signaling pathway shows promise as an effective approach for cancer therapy.