Abstract 4444: Targeting PI3K isoforms to improve the effectiveness of T cell mediated immunotherapy

Abstract Hyperactivation of the PI3K pathway has been reported to correlate with resistance to immune checkpoint blockade therapy (ICB) in melanoma, highlighting the therapeutic potential of combining PI3K inhibition (PI3Ki) with ICB. To maximize the clinical benefit of PI3Ki-based immune oncology (IO) combination, we characterized the role of PI3K isoforms in tumor and T cells and determined the immunological impacts of PI3Ki alone or in combination with ICB. Inhibitions of PI3K were achieved by either genetic knockdown (KD) or the bioactive compound in PTEN-present (B16/MC38), PTEN-absent (BP/D4M) tumor cell lines, and CD8+ T cells (Pmel-1). Following PI3Ki, we determined the activation status of the PI3K pathway (p-AKT level), transcriptional profile, and cellular function of these cells. We found both in vitro KD and pharmacological inhibition of either PI3Kα or PI3Kβ displayed a dramatic reduction of the PI3K pathway in tumor cells but moderate or no reduction in T cells, whereas the PI3K pathway significantly decreased in T cells with PI3Kγ or PI3Kδ inhibition. KD of PI3Kα or β isoforms drastically sensitized both D4M and MC38 tumors to αPD1 in vivo. We also observed that only PI3Kγ or PI3Kδ inhibition profoundly suppressed cytokine production and cytotoxicity of CD8+ T cell, suggesting that PI3Kα or PI3Kβ isoform inhibition can achieve tumor specific PI3Ki with limited impacts on T cell function. Furthermore, we used multiple syngeneic melanoma models to determine whether PI3K isoform inhibition can synergize the antitumor activity of ICB in vivo. In PTEN-present tumors, BYL719 (BYL, a PI3Kα inhibitor) synergized with αPD1 to delay tumor growth and extend survival (median survival of MC38-bearing mice in control (Ctrl), BYL, αPD1, and combination (Comb) groups: 30, 36, 33, and >45 respectively; p<0.05: Ctrl/BYL/αPD1 vs Comb). However, a limited combinatorial effect between GSK2636771(a PI3Kβ inhibitor) and αPD1 was observed in PTEN-present tumor models. Moreover, the combination of BYL and αPD1 exhibits superior antitumor activity in a spontaneous Braf-mutant, PTEN-loss melanoma model when compared with either reagent. Mechanistically, the combination of BYL and αPD1 improved CD8+ T cells tumor infiltration (14 days treatment, mean CD8+ number/mg of the tumor, Ctrl:1392.9, BYL:2073.9, αPD1:1545.2, Comb:4691.8; p<0.01: Ctrl/BYL/αPD1 vs Comb) and reduced MDSCs in MC38 tumors (p<0.05: Ctrl vs Comb). Multi-omics profiling of tumor cells with in vitro and in vivo PI3K isoform inhibition is ongoing. Collectively, our results demonstrate that PI3Kα inhibitor can potentiate T cell-mediated antitumor immune responses regardless of PTEN status, providing a strong rationale for the clinical development of the BYL-based IO combination. In collaboration with Novartis, MD Anderson Cancer Center will launch a Phase I/II trial of the FDA-approved BYL in combination with αPD1 in advanced melanoma and breast cancer patients. Citation Format: Ritu Bohat, Xiaofang Liang, Chunyu Xu, Yitao Tang, Jiakai Hou, Nicholas A. Egan, Leilei Shi, Ashley Guerrero, Roshni Jaffery, Elizabeth M. Burton, Han Liang, Hussein Tawbi, Michael A. Davies, Weiyi Peng. Targeting PI3K isoforms to improve the effectiveness of T cell mediated immunotherapy. [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 4444.