Literature DB >> 31112529

The local immune landscape determines tumor PD-L1 heterogeneity and sensitivity to therapy.

Yuan Wei1, Qiyi Zhao1, Zhiliang Gao1, Xiang-Ming Lao2, Wei-Ming Lin1, Dong-Ping Chen1, Ming Mu1, Chun-Xiang Huang1, Zheng-Yu Liu1, Bo Li3, Limin Zheng2, Dong-Ming Kuang1,2,4.   

Abstract

PD-L1 is a promising therapeutic target in aggressive cancers. However, immune landscapes and cancer hallmarks of human PD-L1+ tumors, as well as their roles in determining therapeutic efficacies are unknown. Here we identified, in detailed studies of gene data regarding 9769 patients of 32 types of human cancers, that PD-L1 could not exclusively represent IFN-γ signature and potentially signified pro-inflammatory myeloid responses in a tumor. PD-L1 heterogeneity endowed by local immune landscapes controlled cancer hallmarks and clinical outcomes of patients. Mechanically, NF-κB signal elicited by macrophage inflammatory responses generated PD-L1+ cancer cells exhibiting capabilities to aggressively survive, support angiogenesis, and metastasize, whereas STAT1 signal triggered by activated T cells induced PD-L1+ cancer cells susceptive to apoptosis. Importantly, PD-L1+ cancer cells generated by macrophages established great resistance to conventional chemotherapy, cytotoxicity of tumor-specific effector T cells, and therapy of immune checkpoint blockade. Therapeutic strategy combining immune checkpoint blockade with macrophage depletion or NF-κB inhibition in vivo effectively and successfully elicited caner regression. Our results provide insight into the functional features of PD-L1+ tumors and suggest that strategies to influence functional activities of inflammatory cells may benefit immune checkpoint blockade therapy.

Entities:  

Keywords:  Cancer immunotherapy; Immunology; Inflammation

Mesh:

Substances:

Year:  2019        PMID: 31112529      PMCID: PMC6668685          DOI: 10.1172/JCI127726

Source DB:  PubMed          Journal:  J Clin Invest        ISSN: 0021-9738            Impact factor:   14.808


  60 in total

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Review 2.  PD-1 and its ligands in T-cell immunity.

Authors:  Mary E Keir; Loise M Francisco; Arlene H Sharpe
Journal:  Curr Opin Immunol       Date:  2007-04-12       Impact factor: 7.486

3.  Pembrolizumab for the treatment of non-small-cell lung cancer.

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Journal:  N Engl J Med       Date:  2015-04-19       Impact factor: 91.245

4.  Microenvironment produced by acute myeloid leukemia cells prevents T cell activation and proliferation by inhibition of NF-kappaB, c-Myc, and pRb pathways.

Authors:  A G Buggins; D Milojkovic; M J Arno; N C Lea; G J Mufti; N S Thomas; W J Hirst
Journal:  J Immunol       Date:  2001-11-15       Impact factor: 5.422

5.  Predictive correlates of response to the anti-PD-L1 antibody MPDL3280A in cancer patients.

Authors:  Roy S Herbst; Jean-Charles Soria; Marcin Kowanetz; Gregg D Fine; Omid Hamid; Michael S Gordon; Jeffery A Sosman; David F McDermott; John D Powderly; Scott N Gettinger; Holbrook E K Kohrt; Leora Horn; Donald P Lawrence; Sandra Rost; Maya Leabman; Yuanyuan Xiao; Ahmad Mokatrin; Hartmut Koeppen; Priti S Hegde; Ira Mellman; Daniel S Chen; F Stephen Hodi
Journal:  Nature       Date:  2014-11-27       Impact factor: 49.962

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Authors:  A Asgarova; K Asgarov; Y Godet; P Peixoto; A Nadaradjane; M Boyer-Guittaut; J Galaine; D Guenat; V Mougey; J Perrard; J R Pallandre; A Bouard; J Balland; C Tirole; O Adotevi; E Hendrick; M Herfs; P F Cartron; C Borg; E Hervouet
Journal:  Oncoimmunology       Date:  2018-02-01       Impact factor: 8.110

7.  Targeting the tumor microenvironment with interferon-β bridges innate and adaptive immune responses.

Authors:  Xuanming Yang; Xunmin Zhang; May Lynne Fu; Ralph R Weichselbaum; Thomas F Gajewski; Yajun Guo; Yang-Xin Fu
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8.  Facilitating T Cell Infiltration in Tumor Microenvironment Overcomes Resistance to PD-L1 Blockade.

Authors:  Haidong Tang; Yang Wang; Lukasz K Chlewicki; Yuan Zhang; Jingya Guo; Wei Liang; Jieyi Wang; Xiaoxiao Wang; Yang-Xin Fu
Journal:  Cancer Cell       Date:  2016-03-14       Impact factor: 31.743

9.  Distinct contribution of PD-L1 suppression by spatial expression of PD-L1 on tumor and non-tumor cells.

Authors:  Xiaoqing Zhang; Chen Cheng; Jiyan Hou; Xinyue Qi; Xin Wang; Ping Han; Xuanming Yang
Journal:  Cell Mol Immunol       Date:  2018-03-22       Impact factor: 11.530

10.  STAT1-deficient mice spontaneously develop estrogen receptor α-positive luminal mammary carcinomas.

Authors:  Szeman Ruby Chan; William Vermi; Jingqin Luo; Laura Lucini; Charles Rickert; Amy M Fowler; Silvia Lonardi; Cora Arthur; Larry Jt Young; David E Levy; Michael J Welch; Robert D Cardiff; Robert D Schreiber
Journal:  Breast Cancer Res       Date:  2012-01-20       Impact factor: 6.466
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  36 in total

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Authors:  Anand V R Kornepati; Ratna K Vadlamudi; Tyler J Curiel
Journal:  Nat Rev Cancer       Date:  2022-01-14       Impact factor: 60.716

Review 2.  Mechanisms regulating PD-L1 expression in cancers and associated opportunities for novel small-molecule therapeutics.

Authors:  Hirohito Yamaguchi; Jung-Mao Hsu; Wen-Hao Yang; Mien-Chie Hung
Journal:  Nat Rev Clin Oncol       Date:  2022-02-07       Impact factor: 66.675

3.  PD-L1 antibody enhanced β-glucan antitumor effects via blockade of the immune checkpoints in a melanoma model.

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Journal:  Cancer Immunol Immunother       Date:  2022-09-02       Impact factor: 6.630

Review 4.  The Good and the Bad: Monocytes' and Macrophages' Diverse Functions in Inflammation.

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Journal:  Cells       Date:  2022-06-20       Impact factor: 7.666

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Journal:  J Immunother Cancer       Date:  2022-06       Impact factor: 12.469

6.  Clinicopathological analysis of neoplastic PD-L1-positive EBV+ diffuse large B cell lymphoma, not otherwise specified, in a Japanese cohort.

Authors:  Taishi Takahara; Akira Satou; Eri Ishikawa; Kei Kohno; Seiichi Kato; Yuka Suzuki; Emiko Takahashi; Akiko Ohashi; Naoko Asano; Toyonori Tsuzuki; Shigeo Nakamura
Journal:  Virchows Arch       Date:  2020-08-15       Impact factor: 4.064

7.  Preferential Expression of Programmed Death Ligand 1 Protein in Tumor-Associated Macrophages and Its Potential Role in Immunotherapy for Hepatocellular Carcinoma.

Authors:  Dong-Jun Park; Pil-Soo Sung; Gil-Won Lee; Sungwoo Cho; Sung-Min Kim; Byung-Yoon Kang; Wonhee Hur; Hyun Yang; Soon-Kyu Lee; Sung-Hak Lee; Eun-Sun Jung; Chang-Ho Seo; Joseph Ahn; Ho-Joong Choi; Young-Kyoung You; Jeong-Won Jang; Si-Hyun Bae; Jong-Young Choi; Seung-Kew Yoon
Journal:  Int J Mol Sci       Date:  2021-04-29       Impact factor: 5.923

Review 8.  B cell heterogeneity, plasticity, and functional diversity in cancer microenvironments.

Authors:  Yuan Wei; Chun-Xiang Huang; Xiao Xiao; Dong-Ping Chen; Hong Shan; Huanhuan He; Dong-Ming Kuang
Journal:  Oncogene       Date:  2021-06-29       Impact factor: 9.867

Review 9.  NF-κB and Its Role in Checkpoint Control.

Authors:  Annika C Betzler; Marie-Nicole Theodoraki; Patrick J Schuler; Johannes Döscher; Simon Laban; Thomas K Hoffmann; Cornelia Brunner
Journal:  Int J Mol Sci       Date:  2020-05-31       Impact factor: 5.923

10.  Second-line treatment strategy for urothelial cancer patients who progress or are unfit for cisplatin therapy: a network meta-analysis.

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Journal:  BMC Urol       Date:  2019-12-02       Impact factor: 2.264
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