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OX40 Agonism Enhances Efficacy of PD-L1 Checkpoint Blockade by Shifting the Cytotoxic T Cell Differentiation Spectrum

47 Pages Posted: 15 Feb 2022 Publication Status: Published

See all articles by Guillaume Beyrend

Guillaume Beyrend

Leiden University - Department of Immunology

Tetje van der Sluis

Leiden University - Department of Immunology

Esmé van der Gracht

Leiden University - Department of Immunology

Tamim Abdelaal

Delft University of Technology - Pattern Recognition and Bioinformatics

Simon Jochems

Leiden University - Department of Parasitology

Robert Belderbos

Erasmus University Rotterdam (EUR) - Department of Pulmonary Diseases

Thomas Wesselink

Leiden University - Department of Immunology

Suzanne van Duikeren

Leiden University - Department of Immunology

Floortje van Haften

Leiden University - Department of Immunology

Anke Redeker

Leiden University - Department of Immunology

Elham Beyranvand Nejad

Leiden University - Department of Immunology

Marcel G.M. Camps

Leiden University - Department of Immunology

Kees Franken

Leiden University - Department of Infectious Diseases

Margot Linssen

Leiden University - Central Animal and Transgenic Facility

Peter Hohenstein

Leiden University - Department of Human Genetics; Leiden University - Central Animal and Transgenic Facility

Noel F. C. C. de Miranda

Leiden University, Medical Center (LUMC), Department of Pathology

Hailiang Mei

Leiden University - Sequencing Analysis Support Core; Leiden University - Department of Biomedical Data Sciences

Adriaan Bins

University of Amsterdam - Department of Internal Medicine

John Haanen

Netherlands Cancer Institute - Division of Molecular Oncology and Immunology

Joachim G. Aerts

Erasmus University Rotterdam (EUR) - Department of Pulmonary Diseases

Ferry A. Ossendorp

Leiden University - Department of Immunology

Ramon Arens

Leiden University - Department of Parasitology; Leiden University - Department of Immunology

More...

Abstract

Immune checkpoint therapy (ICT) has the potency to eradicate cancer but the mechanisms that determine effective versus non-effective therapy-induced immune responses are not fully understood. Here, using high-dimensional single-cell profiling we examined whether T cell states in the blood circulation could predict responsiveness to a combined ICT, sequentially targeting OX40 costimulatory and PD-1 inhibitory pathways, which effectively eradicated syngeneic mouse tumors. Unbiased assessment of transcriptomic alterations by single-cell RNA sequencing and profiling of cell-surface protein expression by mass cytometry revealed unique activation states for therapy-responsive CD4+ and CD8+ T cells. Effective ICT elicited T cells with dynamic expression of distinct NK cell and chemokine receptors, and these cells were systemically present in lymphoid tissues and in the tumor. Moreover, NK cell receptor-expressing CD8+ T cells were also present in the peripheral blood of immunotherapy-responsive cancer patients. Targeting of the NK cell and chemokine receptors in tumor-bearing mice showed their functional importance for therapy-induced anti-tumor immunity. These findings provide a better understanding of ICT and highlight the use of dynamic biomarkers on effector CD4+ and CD8+ T cells to improve cancer immunotherapy.

Suggested Citation

Beyrend, Guillaume and van der Sluis, Tetje and van der Gracht, Esmé and Abdelaal, Tamim and Jochems, Simon and Belderbos, Robert and Wesselink, Thomas and van Duikeren, Suzanne and van Haften, Floortje and Redeker, Anke and Beyranvand Nejad, Elham and Camps, Marcel G.M. and Franken, Kees and Linssen, Margot and Hohenstein, Peter and de Miranda, Noel F. C. C. and Mei, Hailiang and Bins, Adriaan and Haanen, John and Aerts, Joachim G. and Ossendorp, Ferry A. and Arens, Ramon, OX40 Agonism Enhances Efficacy of PD-L1 Checkpoint Blockade by Shifting the Cytotoxic T Cell Differentiation Spectrum. Available at SSRN: https://ssrn.com/abstract=4035850 or http://dx.doi.org/10.2139/ssrn.4035850
This version of the paper has not been formally peer reviewed.

Guillaume Beyrend

Leiden University - Department of Immunology ( email )

Netherlands

Tetje Van der Sluis

Leiden University - Department of Immunology ( email )

Netherlands

Esmé Van der Gracht

Leiden University - Department of Immunology ( email )

Netherlands

Tamim Abdelaal

Delft University of Technology - Pattern Recognition and Bioinformatics ( email )

Delft
Netherlands

Simon Jochems

Leiden University - Department of Parasitology ( email )

Leiden
Netherlands

Robert Belderbos

Erasmus University Rotterdam (EUR) - Department of Pulmonary Diseases ( email )

Rotterdam
Netherlands

Thomas Wesselink

Leiden University - Department of Immunology ( email )

Netherlands

Suzanne Van Duikeren

Leiden University - Department of Immunology ( email )

Netherlands

Floortje Van Haften

Leiden University - Department of Immunology ( email )

Netherlands

Anke Redeker

Leiden University - Department of Immunology ( email )

Netherlands

Elham Beyranvand Nejad

Leiden University - Department of Immunology ( email )

Netherlands

Marcel G.M. Camps

Leiden University - Department of Immunology ( email )

Netherlands

Kees Franken

Leiden University - Department of Infectious Diseases ( email )

Margot Linssen

Leiden University - Central Animal and Transgenic Facility ( email )

Leiden
Netherlands

Peter Hohenstein

Leiden University - Department of Human Genetics ( email )

Leiden University - Central Animal and Transgenic Facility ( email )

Leiden
Netherlands

Noel F. C. C. De Miranda

Leiden University, Medical Center (LUMC), Department of Pathology ( email )

Leiden
Netherlands

Hailiang Mei

Leiden University - Sequencing Analysis Support Core ( email )

Leiden University - Department of Biomedical Data Sciences ( email )

Leiden
Netherlands

Adriaan Bins

University of Amsterdam - Department of Internal Medicine ( email )

Amsterdam, 1105 AZ
Netherlands

John Haanen

Netherlands Cancer Institute - Division of Molecular Oncology and Immunology ( email )

Amsterdam
Netherlands

Joachim G. Aerts

Erasmus University Rotterdam (EUR) - Department of Pulmonary Diseases ( email )

Rotterdam
Netherlands

Ferry A. Ossendorp

Leiden University - Department of Immunology ( email )

Netherlands

Ramon Arens (Contact Author)

Leiden University - Department of Parasitology ( email )

Leiden
Netherlands

Leiden University - Department of Immunology ( email )

Netherlands

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