Targeting the Innate Immunoreceptor RIG-I Overcomes Melanoma-intrinsic Resistance to T Cell Immunotherapy

Overview

Journal J Clin Invest

Specialty General Medicine

Date 2020 May 20

PMID 32427578

Citations 32

Authors

Lina Such

Fang Zhao

Derek Liu

Beatrice Thier

Vu Thuy Khanh Le-Trilling

Antje Sucker

Christoph Coch

Natalia Pieper

Sebastian Howe

Hilal Bhat

Halime Kalkavan

Cathrin Ritter

Robin Brinkhaus

Selma Ugurel

Johannes Koster

Ulrike Seifert

Ulf Dittmer

Martin Schuler

Karl S Lang

Thomas A Kufer

Gunther Hartmann

Jurgen C Becker

Susanne Horn

Soldano Ferrone

David Liu

Eliezer M Van Allen

Dirk Schadendorf

Klaus Griewank

Mirko Trilling

Annette Paschen

Affiliations

Soon will be listed here.

Abstract

Understanding tumor resistance to T cell immunotherapies is critical to improve patient outcomes. Our study revealed a role for transcriptional suppression of the tumor-intrinsic HLA class I (HLA-I) antigen processing and presentation machinery (APM) in therapy resistance. Low HLA-I APM mRNA levels in melanoma metastases before immune checkpoint blockade (ICB) correlated with nonresponsiveness to therapy and poor clinical outcome. Patient-derived melanoma cells with silenced HLA-I APM escaped recognition by autologous CD8+ T cells. However, targeted activation of the innate immunoreceptor RIG-I initiated de novo HLA-I APM transcription, thereby overcoming T cell resistance. Antigen presentation was restored in interferon-sensitive (IFN-sensitive) but also immunoedited IFN-resistant melanoma models through RIG-I-dependent stimulation of an IFN-independent salvage pathway involving IRF1 and IRF3. Likewise, enhanced HLA-I APM expression was detected in RIG-Ihi (DDX58hi) melanoma biopsies, correlating with improved patient survival. Induction of HLA-I APM by RIG-I synergized with antibodies blocking PD-1 and TIGIT inhibitory checkpoints in boosting the antitumor T cell activity of ICB nonresponders. Overall, the herein-identified IFN-independent effect of RIG-I on tumor antigen presentation and T cell recognition proposes innate immunoreceptor targeting as a strategy to overcome intrinsic T cell resistance of IFN-sensitive and IFN-resistant melanomas and improve clinical outcomes in immunotherapy.

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