Autotaxin suppresses cytotoxic T cells via LPAR5 to promote anti–PD-1 resistance in non–small cell lung cancer
Jessica M. Konen, … , Jianjun Zhang, Don L. Gibbons
Jessica M. Konen, … , Jianjun Zhang, Don L. Gibbons
Published September 1, 2023
Citation Information: J Clin Invest. 2023;133(17):e163128. https://doi.org/10.1172/JCI163128.
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Research Article Immunology Oncology

Autotaxin suppresses cytotoxic T cells via LPAR5 to promote anti–PD-1 resistance in non–small cell lung cancer

Abstract

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.

Authors

Jessica M. 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

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Figure 5

Pharmacological targeting of ATX in combination with PD-1 blockade promotes CD8+ T cell proliferation and activation, effectively controlling tumor growth in vivo.

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Pharmacological targeting of ATX in combination with PD-1 blockade promo...
(A) 344SQ cells were implanted into mice and treated with IgG/vehicle, ATX inhibitor (ATXi), anti–PD-1, or a combination. After 1 week of treatment, tumors were processed for flow cytometry of immune populations. *P < 0.05, **P < 0.01, and ****P < 0.0001, by 1-way ANOVA. (B) Representative t-distributed stochastic neighbor embedding (TSNE) plots of data from A. Total CD3+ (top) and CD3+Ki67+ (bottom) cells are depicted. (CF) 344SQ cells were implanted into mice and treated as described in A. n = 5 mice per group. (C) Tumor growth was measured via calipers. ***P < 0.001 and ****P < 0.0001, by 2-way ANOVA with Tukey’s correction. (D) Tumor weights were collected at necropsy. *P < 0.05, by 1-way ANOVA with Tukey’s correction. (E) Mouse weights were recorded weekly. (F) Representative CD8 (top) and granzyme B (bottom) IHC images on tumors from C. Cells per FOV were quantified as in Figure 2D. n = 3 mice per group (except the combination, which had 2 tumors at endpoint), 6–9 FOV per tumor. *P < 0.05, **P < 0.01, and ****P < 0.0001, by 1-way ANOVA with Tukey’s correction. Scale bars: 50 μm; insets zoomed 200%. (G and H) KrasLSL-G12D/p53wmR172H mice were given adenoviral Cre recombinase intratracheally, and tumor formation was monitored via micro-CT imaging (Supplemental Figure 7D). After tumor development, mice were randomized and treated for 4 weeks. n = 5 mice per group. (G) Individual tumors were measured at weeks 0, 2, and 4 and normalized to week 0. (H) Percentage change of tumor size was calculated between each time point. All individual tumors per mouse were measured, and median growth is shown. n = 5 mice per group. *P < 0.05, by t test.