Department of Pharmacology, Shenyang Pharmaceutical University, Shenyang, 110016, PR China.
Benxi Institute of Pharmaceutical Research, Shenyang Pharmaceutical University, Shenyang, 110016, PR China.
Cell Death Differ. 2024 Sep;31(9):1140-1156. doi: 10.1038/s41418-024-01317-2. Epub 2024 May 30.
There is a lack of effective treatments to overcome resistance to EGFR-TKIs in EGFR mutant tumors. A deeper understanding of resistance mechanisms can provide insights into reducing or eliminating resistance, and can potentially deliver targeted treatment measures to overcome resistance. Here, we identified that the dynamic changes of the tumor immune environment were important extrinsic factors driving tumor resistance to EGFR-TKIs in EGFR mutant cell lines and syngeneic tumor-bearing mice. Our results demonstrate that the acquired resistance to EGFR-TKIs is accompanied by aberrant expression of PD-L2, leading a dynamic shift from an initially favorable tumor immune environment to an immunosuppressive phenotype. PD-L2 expression significantly affected EGFR mutant cell apoptosis that depended on the proportion and function of CD8 T cells in the tumor immune environment. Combined with single-cell sequencing and experimental results, we demonstrated that PD-L2 specifically inhibited the proliferation of CD8 T cells and the secretion of granzyme B and perforin, leading to reduced apoptosis mediated by CD8 T cells and enhanced immune escape of tumor cells, which drives EGFR-TKIs resistance. Importantly, we have identified a potent natural small-molecule inhibitor of PD-L2, zinc undecylenate. In vitro, it selectively and potently blocks the PD-L2/PD-1 interaction. In vivo, it abolishes the suppressive effect of the PD-L2-overexpressing tumor immune microenvironment by blocking PD-L2/PD-1 signaling. Moreover, the combination of zinc undecylenate and EGFR-TKIs can synergistically reverse tumor resistance, which is dependent on CD8 T cells mediating apoptosis. Our study uncovers the PD-L2/PD-1 signaling pathway as a driving factor to mediate EGFR-TKIs resistance, and identifies a new naturally-derived agent to reverse EGFR-TKIs resistance.
目前尚无有效治疗方法克服 EGFR 突变肿瘤对 EGFR-TKIs 的耐药性。深入了解耐药机制可以提供减少或消除耐药性的思路,并可能提供靶向治疗措施以克服耐药性。在这里,我们发现肿瘤免疫微环境的动态变化是驱动 EGFR 突变细胞系和同基因荷瘤小鼠中 EGFR-TKIs 耐药的重要外在因素。我们的研究结果表明,对 EGFR-TKIs 的获得性耐药伴随着 PD-L2 的异常表达,导致肿瘤免疫微环境从最初有利的状态向免疫抑制表型发生动态转变。PD-L2 的表达显著影响 EGFR 突变细胞的凋亡,这取决于肿瘤免疫微环境中 CD8 T 细胞的比例和功能。结合单细胞测序和实验结果,我们证明 PD-L2 特异性抑制 CD8 T 细胞的增殖以及颗粒酶 B 和穿孔素的分泌,从而减少 CD8 T 细胞介导的凋亡,并增强肿瘤细胞的免疫逃逸,导致 EGFR-TKIs 耐药。重要的是,我们鉴定出 PD-L2 的一种有效的天然小分子抑制剂——十一烯酸锌。在体外,它选择性和有效地阻断 PD-L2/PD-1 相互作用。在体内,它通过阻断 PD-L2/PD-1 信号通路消除 PD-L2 过表达肿瘤免疫微环境的抑制作用。此外,锌十一烯酸和 EGFR-TKIs 的联合使用可以协同逆转肿瘤耐药,这依赖于 CD8 T 细胞介导的凋亡。我们的研究揭示了 PD-L2/PD-1 信号通路作为介导 EGFR-TKIs 耐药的驱动因素,并鉴定出一种新的天然衍生药物来逆转 EGFR-TKIs 耐药性。