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Combination of PD-L1 and PVR determines sensitivity to PD-1 blockade
Bo Ryeong Lee, Sehyun Chae, Jihyun Moon, Myeong Joon Kim, Hankyu Lee, Hyuk Wan Ko, Byoung Chul Cho, Hyo Sup Shim, Daehee Hwang, Hye Ryun Kim, Sang-Jun Ha
Bo Ryeong Lee, Sehyun Chae, Jihyun Moon, Myeong Joon Kim, Hankyu Lee, Hyuk Wan Ko, Byoung Chul Cho, Hyo Sup Shim, Daehee Hwang, Hye Ryun Kim, Sang-Jun Ha
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Research Article Immunology Oncology

Combination of PD-L1 and PVR determines sensitivity to PD-1 blockade

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Abstract

Expression of immune checkpoint ligands (ICLs) is necessary to trigger the inhibitory signal via immune checkpoint receptors (ICRs) in exhausted T cells under tumor immune microenvironment. Nevertheless,to our knowledge, ICL expression profile in cancer patients has not been investigated. Using previously reported RNA-seq data sets, we found that expression of ICLs was patient specific but their coexpression can be patterned in non–small-cell lung cancers (NSCLCs). Since the expression of PD-L1 and poliovirus receptor (PVR) among various ICLs was independently regulated, we could stratify the patients who were treated with anti–PD-1 later into 4 groups according to the expression level of PD-L1 and PVR. Of interest, high PVR and low PVR expressions in PD-L1–expressing patients enriched nonresponders and responders to PD-1 blockade, respectively, helping in further selection of responders. Using a genetically engineered cancer model, we also found that PVR-deficient and PD-L1–sufficient tumor-bearing mice were highly sensitive to anti–PD-1 therapy, whereas PVR-sufficient and PD-L1–deficient tumor-bearing mice were resistant to anti–PD-1 therapy. Taken together, our study provides a concept that combinatorial expression patterns of PVR and PD-L1 are key determinants for PD-1 blockade and furthermore suggest a better therapeutic usage of immune checkpoint blockades (ICBs).

Authors

Bo Ryeong Lee, Sehyun Chae, Jihyun Moon, Myeong Joon Kim, Hankyu Lee, Hyuk Wan Ko, Byoung Chul Cho, Hyo Sup Shim, Daehee Hwang, Hye Ryun Kim, Sang-Jun Ha

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Figure 2

The use of both PD-L1 and PVR expression improves the prediction accuracy of responders to anti–PD-1 therapy in NSCLC patients.

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The use of both PD-L1 and PVR expression improves the prediction accurac...
(A) Representative images (400×) of PD-L1 and PVR IHC staining of tumors from patients with NSCLC. Scale bars: 50 μm. (B) Prevalence of PD-L1 and PVR IHC staining patterns in tumors from patients with NSCLC (n = 96); each dot indicates 1 patient. Red lines indicate the median tumor proportion scores (TPSs) of PD-L1 and PVR (10 and 60, respectively), which divide PD-L1hiPD-L1lo and PVRhi/PVRlo patients. (C) Pie chart depicting the overall objective response rate (ORR) of NSCLC patients enrolled in anti–PD-1 therapy. (D) Number of responding or nonresponding patients for anti–PD-1 therapy by PD-L1 or/and PVR above or below the median. (E) ORR by PD-L1 and PVR expression each above or below the median. Blue, responders (R); yellow, nonresponders (NR). (F) Kaplan–Meier plots of progression-free survival (PFS) by PD-L1 or/and PVR expression above or below the median for anti–PD-1 therapy. *P < 0.05 and ***P < 0.001 by Wilcoxon test or multivariate Wilcoxon with multiple comparison test.

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