Literature DB >> 28111070

Systemic Immunity Is Required for Effective Cancer Immunotherapy.

Matthew H Spitzer1, Yaron Carmi2, Nathan E Reticker-Flynn3, Serena S Kwek4, Deepthi Madhireddy5, Maria M Martins3, Pier Federico Gherardini5, Tyler R Prestwood3, Jonathan Chabon3, Sean C Bendall3, Lawrence Fong6, Garry P Nolan7, Edgar G Engleman8.   

Abstract

Immune responses involve coordination across cell types and tissues. However, studies in cancer immunotherapy have focused heavily on local immune responses in the tumor microenvironment. To investigate immune activity more broadly, we performed an organism-wide study in genetically engineered cancer models using mass cytometry. We analyzed immune responses in several tissues after immunotherapy by developing intuitive models for visualizing single-cell data with statistical inference. Immune activation was evident in the tumor and systemically shortly after effective therapy was administered. However, during tumor rejection, only peripheral immune cells sustained their proliferation. This systemic response was coordinated across tissues and required for tumor eradication in several immunotherapy models. An emergent population of peripheral CD4 T cells conferred protection against new tumors and was significantly expanded in patients responding to immunotherapy. These studies demonstrate the critical impact of systemic immune responses that drive tumor rejection.
Copyright © 2017 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  cancer immunotherapy; immune responses; immunotherapy; mass cytometry; secondary lymphoid organs; single-cell analysis; systems immunology; tumor immunology; tumor microenvironment

Mesh:

Substances:

Year:  2017        PMID: 28111070      PMCID: PMC5312823          DOI: 10.1016/j.cell.2016.12.022

Source DB:  PubMed          Journal:  Cell        ISSN: 0092-8674            Impact factor:   41.582


  39 in total

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Journal:  Nat Med       Date:  2004-08-22       Impact factor: 53.440

4.  Molecular signature of CD8+ T cell exhaustion during chronic viral infection.

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5.  Naive tumor-specific CD4(+) T cells differentiated in vivo eradicate established melanoma.

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Review 6.  Thy-1: more than a mouse pan-T cell marker.

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7.  Lymphocyte egress from thymus and peripheral lymphoid organs is dependent on S1P receptor 1.

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8.  Quantification of regulatory T cells enables the identification of high-risk breast cancer patients and those at risk of late relapse.

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10.  Braf(V600E) cooperates with Pten loss to induce metastatic melanoma.

Authors:  David Dankort; David P Curley; Robert A Cartlidge; Betsy Nelson; Anthony N Karnezis; William E Damsky; Mingjian J You; Ronald A DePinho; Martin McMahon; Marcus Bosenberg
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  278 in total

1.  Tumor-draining lymph nodes are pivotal in PD-1/PD-L1 checkpoint therapy.

Authors:  Marieke F Fransen; Mark Schoonderwoerd; Philipp Knopf; Marcel Gm Camps; Lukas Jac Hawinkels; Manfred Kneilling; Thorbald van Hall; Ferry Ossendorp
Journal:  JCI Insight       Date:  2018-12-06

Review 2.  In situ vaccination with nanoparticles for cancer immunotherapy: understanding the immunology.

Authors:  Chenkai Mao; Michael-Joseph Gorbet; Akansha Singh; Ashish Ranjan; Steven Fiering
Journal:  Int J Hyperthermia       Date:  2020-12       Impact factor: 3.914

3.  CCL5 mediates CD40-driven CD4+ T cell tumor infiltration and immunity.

Authors:  Austin P Huffman; Jeffrey H Lin; Samuel I Kim; Katelyn T Byrne; Robert H Vonderheide
Journal:  JCI Insight       Date:  2020-05-21

Review 4.  Systems immunology: just getting started.

Authors:  Mark M Davis; Cristina M Tato; David Furman
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Review 5.  A Cancer Biologist's Primer on Machine Learning Applications in High-Dimensional Cytometry.

Authors:  Timothy J Keyes; Pablo Domizi; Yu-Chen Lo; Garry P Nolan; Kara L Davis
Journal:  Cytometry A       Date:  2020-06-30       Impact factor: 4.355

Review 6.  Advancing systems immunology through data-driven statistical analysis.

Authors:  Linda E Fong; Andrés R Muñoz-Rojas; Kathryn Miller-Jensen
Journal:  Curr Opin Biotechnol       Date:  2018-04-12       Impact factor: 9.740

7.  Interactions between the tumor and the blood systemic response of breast cancer patients.

Authors:  Vanessa Dumeaux; Bjørn Fjukstad; Hans E Fjosne; Jan-Ole Frantzen; Marit Muri Holmen; Enno Rodegerdts; Ellen Schlichting; Anne-Lise Børresen-Dale; Lars Ailo Bongo; Eiliv Lund; Michael Hallett
Journal:  PLoS Comput Biol       Date:  2017-09-28       Impact factor: 4.475

8.  Expanding the Scope of Antibody Rebridging with New Pyridazinedione-TCO Constructs.

Authors:  Angela N Marquard; Jonathan C T Carlson; Ralph Weissleder
Journal:  Bioconjug Chem       Date:  2020-04-28       Impact factor: 4.774

9.  Atlas of the Immune Cell Repertoire in Mouse Atherosclerosis Defined by Single-Cell RNA-Sequencing and Mass Cytometry.

Authors:  Holger Winkels; Erik Ehinger; Melanie Vassallo; Konrad Buscher; Huy Q Dinh; Kouji Kobiyama; Anouk A J Hamers; Clément Cochain; Ehsan Vafadarnejad; Antoine-Emmanuel Saliba; Alma Zernecke; Akula Bala Pramod; Amlan K Ghosh; Nathaly Anto Michel; Natalie Hoppe; Ingo Hilgendorf; Andreas Zirlik; Catherine C Hedrick; Klaus Ley; Dennis Wolf
Journal:  Circ Res       Date:  2018-03-15       Impact factor: 17.367

Review 10.  Tumour heterogeneity and metastasis at single-cell resolution.

Authors:  Devon A Lawson; Kai Kessenbrock; Ryan T Davis; Nicholas Pervolarakis; Zena Werb
Journal:  Nat Cell Biol       Date:  2018-11-26       Impact factor: 28.824
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