Literature DB >> 32554931

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

Bo Ryeong Lee1,2, Sehyun Chae3, Jihyun Moon1,2, Myeong Joon Kim1,2, Hankyu Lee1,2, Hyuk Wan Ko1,2, Byoung Chul Cho4, Hyo Sup Shim5, Daehee Hwang6, Hye Ryun Kim4, Sang-Jun Ha1,2.   

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).

Entities:  

Keywords:  Cancer immunotherapy; Immunology; Oncology

Mesh:

Substances:

Year:  2020        PMID: 32554931      PMCID: PMC7453903          DOI: 10.1172/jci.insight.128633

Source DB:  PubMed          Journal:  JCI Insight        ISSN: 2379-3708


  46 in total

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Authors:  Reiko Nakai; Yoshimasa Maniwa; Yugo Tanaka; Wataru Nishio; Masahiro Yoshimura; Yutaka Okita; Chiho Ohbayashi; Naoyuki Satoh; Hisakazu Ogita; Yoshimi Takai; Yoshitake Hayashi
Journal:  Cancer Sci       Date:  2010-02-11       Impact factor: 6.716

Review 2.  Primary, Adaptive, and Acquired Resistance to Cancer Immunotherapy.

Authors:  Padmanee Sharma; Siwen Hu-Lieskovan; Jennifer A Wargo; Antoni Ribas
Journal:  Cell       Date:  2017-02-09       Impact factor: 41.582

3.  Anti-PD-L1 Efficacy Can Be Enhanced by Inhibition of Myeloid-Derived Suppressor Cells with a Selective Inhibitor of PI3Kδ/γ.

Authors:  Ruth J Davis; Ellen C Moore; Paul E Clavijo; Jay Friedman; Harrison Cash; Zhong Chen; Chris Silvin; Carter Van Waes; Clint Allen
Journal:  Cancer Res       Date:  2017-03-31       Impact factor: 12.701

4.  TIGIT and PD-1 impair tumor antigen-specific CD8⁺ T cells in melanoma patients.

Authors:  Joe-Marc Chauvin; Ornella Pagliano; Julien Fourcade; Zhaojun Sun; Hong Wang; Cindy Sander; John M Kirkwood; Tseng-hui Timothy Chen; Mark Maurer; Alan J Korman; Hassane M Zarour
Journal:  J Clin Invest       Date:  2015-04-13       Impact factor: 14.808

5.  Blockade of the checkpoint receptor TIGIT prevents NK cell exhaustion and elicits potent anti-tumor immunity.

Authors:  Qing Zhang; Jiacheng Bi; Xiaodong Zheng; Yongyan Chen; Hua Wang; Wenyong Wu; Zhengguang Wang; Qiang Wu; Hui Peng; Haiming Wei; Rui Sun; Zhigang Tian
Journal:  Nat Immunol       Date:  2018-06-18       Impact factor: 25.606

6.  Nivolumab versus Docetaxel in Advanced Squamous-Cell Non-Small-Cell Lung Cancer.

Authors:  Julie Brahmer; Karen L Reckamp; Paul Baas; Lucio Crinò; Wilfried E E Eberhardt; Elena Poddubskaya; Scott Antonia; Adam Pluzanski; Everett E Vokes; Esther Holgado; David Waterhouse; Neal Ready; Justin Gainor; Osvaldo Arén Frontera; Libor Havel; Martin Steins; Marina C Garassino; Joachim G Aerts; Manuel Domine; Luis Paz-Ares; Martin Reck; Christine Baudelet; Christopher T Harbison; Brian Lestini; David R Spigel
Journal:  N Engl J Med       Date:  2015-05-31       Impact factor: 91.245

7.  Biomarker discovery in non-small cell lung cancer: integrating gene expression profiling, meta-analysis, and tissue microarray validation.

Authors:  Johan Botling; Karolina Edlund; Miriam Lohr; Birte Hellwig; Lars Holmberg; Mats Lambe; Anders Berglund; Simon Ekman; Michael Bergqvist; Fredrik Pontén; André König; Oswaldo Fernandes; Mats Karlsson; Gisela Helenius; Christina Karlsson; Jörg Rahnenführer; Jan G Hengstler; Patrick Micke
Journal:  Clin Cancer Res       Date:  2012-10-02       Impact factor: 12.531

8.  Overcoming resistance to checkpoint blockade therapy by targeting PI3Kγ in myeloid cells.

Authors:  Olivier De Henau; Matthew Rausch; David Winkler; Luis Felipe Campesato; Cailian Liu; Daniel Hirschhorn Cymerman; Sadna Budhu; Arnab Ghosh; Melissa Pink; Jeremy Tchaicha; Mark Douglas; Thomas Tibbitts; Sujata Sharma; Jennifer Proctor; Nicole Kosmider; Kerry White; Howard Stern; John Soglia; Julian Adams; Vito J Palombella; Karen McGovern; Jeffery L Kutok; Jedd D Wolchok; Taha Merghoub
Journal:  Nature       Date:  2016-11-09       Impact factor: 49.962

9.  TIGIT predominantly regulates the immune response via regulatory T cells.

Authors:  Sema Kurtulus; Kaori Sakuishi; Shin-Foong Ngiow; Nicole Joller; Dewar J Tan; Michele W L Teng; Mark J Smyth; Vijay K Kuchroo; Ana C Anderson
Journal:  J Clin Invest       Date:  2015-09-28       Impact factor: 14.808

10.  PD-1 and Tim-3 regulate the expansion of tumor antigen-specific CD8⁺ T cells induced by melanoma vaccines.

Authors:  Julien Fourcade; Zhaojun Sun; Ornella Pagliano; Joe-Marc Chauvin; Cindy Sander; Bratislav Janjic; Ahmad A Tarhini; Hussein A Tawbi; John M Kirkwood; Stergios Moschos; Hong Wang; Philippe Guillaume; Immanuel F Luescher; Arthur Krieg; Ana C Anderson; Vijay K Kuchroo; Hassane M Zarour
Journal:  Cancer Res       Date:  2013-12-16       Impact factor: 12.701
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  12 in total

1.  CD155 expression impairs anti-PD1 therapy response in non-small cell lung cancer.

Authors:  Chang Jiang; Xiaodie Qu; Li Ma; Ling Yi; Xu Cheng; Xiang Gao; Jinghui Wang; Nanying Che; Hongtao Zhang; Shucai Zhang
Journal:  Clin Exp Immunol       Date:  2022-06-11       Impact factor: 5.732

2.  Combination Blockade of the IL6R/STAT-3 Axis with TIGIT and Its Impact on the Functional Activity of NK Cells against Prostate Cancer Cells.

Authors:  S González-Ochoa; M C Tellez-Bañuelos; A S Méndez-Clemente; A Bravo-Cuellar; G Hernández Flores; L A Palafox-Mariscal; J Haramati; E J Pedraza-Brindis; K Sánchez-Reyes; P C Ortiz-Lazareno
Journal:  J Immunol Res       Date:  2022-04-12       Impact factor: 4.493

3.  Hitting the complexity of the TIGIT-CD96-CD112R-CD226 axis for next-generation cancer immunotherapy.

Authors:  Hyung-Seung Jin; Yoon Park
Journal:  BMB Rep       Date:  2021-01       Impact factor: 4.778

Review 4.  TIGIT/CD226 Axis Regulates Anti-Tumor Immunity.

Authors:  Jinah Yeo; Minkyung Ko; Dong-Hee Lee; Yoon Park; Hyung-Seung Jin
Journal:  Pharmaceuticals (Basel)       Date:  2021-02-28

5.  Predictive value of TCR Vβ-Jβ profile for adjuvant gefitinib in EGFR mutant NSCLC from ADJUVANT-CTONG 1104 trial.

Authors:  Cunte Chen; Si-Yang Maggie Liu; Yedan Chen; Qiuxiang Ou; Hua Bao; Ling Xu; Yikai Zhang; Wenzhao Zhong; Qing Zhou; Xue-Ning Yang; Yang Shao; Yi-Long Wu; Si-Yang Liu; Yangqiu Li
Journal:  JCI Insight       Date:  2022-01-11

Review 6.  Differential Role of PD-1 Expressed by Various Immune and Tumor Cells in the Tumor Immune Microenvironment: Expression, Function, Therapeutic Efficacy, and Resistance to Cancer Immunotherapy.

Authors:  Myeong Joon Kim; Sang-Jun Ha
Journal:  Front Cell Dev Biol       Date:  2021-11-22

Review 7.  TIGIT-CD226-PVR axis: advancing immune checkpoint blockade for cancer immunotherapy.

Authors:  Eugene Y Chiang; Ira Mellman
Journal:  J Immunother Cancer       Date:  2022-04       Impact factor: 13.751

8.  CD155 expression and its clinical significance in non-small cell lung cancer.

Authors:  Rintaro Oyama; Masatoshi Kanayama; Masataka Mori; Hiroki Matsumiya; Akihiro Taira; Shinji Shinohara; Masaru Takenaka; Kazue Yoneda; Koji Kuroda; Fumihiro Tanaka
Journal:  Oncol Lett       Date:  2022-03-29       Impact factor: 2.967

Review 9.  Role of CD155/TIGIT in Digestive Cancers: Promising Cancer Target for Immunotherapy.

Authors:  Daijun Wang; Yanmei Gu; Xin Yan; Chengdong Huo; Guan Wang; Yang Zhao; Muzhou Teng; Yumin Li
Journal:  Front Oncol       Date:  2022-03-30       Impact factor: 6.244

Review 10.  Perspectives on immune checkpoint ligands: expression, regulation, and clinical implications.

Authors:  Jihyun Moon; Yoo Min Oh; Sang-Jun Ha
Journal:  BMB Rep       Date:  2021-08       Impact factor: 4.778
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