Literature DB >> 26989092

Mechanisms of tumor escape in the context of the T-cell-inflamed and the non-T-cell-inflamed tumor microenvironment.

Stefani Spranger1.   

Abstract

Checkpoint blockade therapy has been proven to be highly active across many cancer types but emerging evidence indicates that the therapeutic benefit is limited to a subset of patients in each cancer entity. The presence of CD8(+) T cells within the tumor microenvironment or the invasive margin of the tumor, as well as the up-regulation of PD-L1, have emerged to be the most predictive biomarkers for clinical benefit in response to checkpoint inhibition. Although the up-regulation of immune inhibitory mechanisms is one mechanism of immune escape, commonly used by T-cell-inflamed tumors, exclusion of an anti-tumor specific T-cell infiltrate displays another even more potent mechanism of immune escape. This review will contrast the mechanisms of immunogenic, T-cell-inflamed, and the novel concept of non-immunogenic, non-T-cell-inflamed, adaptive immune escape. © The Japanese Society for Immunology. 2016. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.

Entities:  

Keywords:  checkpoint blockade; immune evasion; immunotherapy; oncogenes

Mesh:

Year:  2016        PMID: 26989092      PMCID: PMC4986232          DOI: 10.1093/intimm/dxw014

Source DB:  PubMed          Journal:  Int Immunol        ISSN: 0953-8178            Impact factor:   4.823


  72 in total

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8.  The transcription factor NFAT exhibits signal memory during serial T cell interactions with antigen-presenting cells.

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Journal:  Nature       Date:  2014-11-27       Impact factor: 49.962
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  84 in total

1.  Characterization and Comparison of GITR Expression in Solid Tumors.

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Journal:  Clin Cancer Res       Date:  2019-07-29       Impact factor: 12.531

2.  Immune reprogramming via PD-1 inhibition enhances early-stage lung cancer survival.

Authors:  Geoffrey J Markowitz; Lauren S Havel; Michael Jp Crowley; Yi Ban; Sharrell B Lee; Jennifer S Thalappillil; Navneet Narula; Bhavneet Bhinder; Olivier Elemento; Stephen Tc Wong; Dingcheng Gao; Nasser K Altorki; Vivek Mittal
Journal:  JCI Insight       Date:  2018-07-12

Review 3.  Monitoring immune responses in the tumor microenvironment.

Authors:  Jennifer A Wargo; Sangeetha M Reddy; Alexandre Reuben; Padmanee Sharma
Journal:  Curr Opin Immunol       Date:  2016-05-27       Impact factor: 7.486

4.  Introduction: Cancer Immunology Special Issue-Immunopathology.

Authors:  Yutaka Kawakami
Journal:  Int Immunol       Date:  2016-08       Impact factor: 4.823

Review 5.  Limitations and opportunities for immune checkpoint inhibitors in pediatric malignancies.

Authors:  Jeong A Park; Nai-Kong V Cheung
Journal:  Cancer Treat Rev       Date:  2017-06-01       Impact factor: 12.111

Review 6.  PD-L1 and Emerging Biomarkers in Immune Checkpoint Blockade Therapy.

Authors:  Tricia R Cottrell; Janis M Taube
Journal:  Cancer J       Date:  2018 Jan/Feb       Impact factor: 3.360

Review 7.  T cell engaging bispecific antibody (T-BsAb): From technology to therapeutics.

Authors:  Z Wu; N V Cheung
Journal:  Pharmacol Ther       Date:  2017-08-20       Impact factor: 12.310

8.  Inhibiting Notch1 enhances immunotherapy efficacy in melanoma by preventing Notch1 dependent immune suppressive properties.

Authors:  Hong Qiu; Patrick M Zmina; Alex Y Huang; David Askew; Barbara Bedogni
Journal:  Cancer Lett       Date:  2018-07-21       Impact factor: 8.679

Review 9.  Antitumor Antibodies Can Drive Therapeutic T Cell Responses.

Authors:  K Dane Wittrup
Journal:  Trends Cancer       Date:  2017-07-29

10.  PD-L1 and PD-1 and characterization of tumor-infiltrating lymphocytes in high grade sarcomas of soft tissue - prognostic implications and rationale for immunotherapy.

Authors:  Melanie Boxberg; Katja Steiger; Ulrich Lenze; Hans Rechl; Rüdiger von Eisenhart-Rothe; Klaus Wörtler; Wilko Weichert; Rupert Langer; Katja Specht
Journal:  Oncoimmunology       Date:  2017-11-20       Impact factor: 8.110
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