自交轴蛋白
癌症研究
免疫系统
细胞毒性T细胞
肿瘤微环境
CD8型
克拉斯
肺癌
生物
癌症
免疫检查点
T细胞
溶血磷脂酸
免疫学
免疫疗法
医学
受体
内科学
结直肠癌
体外
生物化学
作者
Jessica Konen,B. Leticia Rodriguez,Haoyi Wu,Jared J. Fradette,Laura Gibson,Lixia Diao,Jing Wang,Stephanie Schmidt,Ignacio I. Wistuba,Jianjun Zhang,Don L. Gibbons
摘要
Non-small cell lung cancers that harbor concurrent KRAS and TP53 (KP) mutations are immunologically warm tumors with partial responsiveness to anti-PD-(L)1 blockade; however, most patients observe little or no durable clinical benefit. To identify novel tumor-driven resistance mechanisms, we developed a panel of KP murine lung cancer models with intrinsic resistance to anti-PD-1 and queried differential gene expression between these tumors and anti-PD-1-sensitive tumors. We found that the enzyme autotaxin (ATX), and the metabolite it produces, lysophosphatidic acid (LPA), were significantly upregulated in resistant tumors and that ATX directly modulated antitumor immunity, with its expression negatively correlating with total and effector tumor-infiltrating CD8+ T cells. Pharmacological inhibition of ATX, or the downstream receptor LPAR5, in combination with anti-PD-1 was sufficient to restore the antitumor immune response and efficaciously control lung tumor growth in multiple KP tumor models. Additionally, ATX was significantly correlated with inflammatory gene signatures, including a CD8+ cytolytic score in multiple lung adenocarcinoma patient data sets, suggesting that an activated tumor-immune microenvironment upregulates ATX and thus provides an opportunity for cotargeting to prevent acquired resistance to anti-PD-1 treatment. These data reveal the ATX/LPA axis as an immunosuppressive pathway that diminishes the immune checkpoint blockade response in lung cancer.
科研通智能强力驱动
Strongly Powered by AbleSci AI