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The CD58:CD2 axis is co-regulated with PD-L1 via CMTM6 and governs anti-tumor immunity

Authors :
Patricia Ho
Johannes C. Melms
Meri Rogava
Chris J. Frangieh
Shivem B. Shah
Zachary Walsh
Oleksandr Kyrysyuk
Amit Dipak Amin
Lindsay Caprio
Benjamin T. Fullerton
Rajesh Soni
Casey R. Ager
Jana Biermann
Yiping Wang
Michael Mu
Hijab Fatima
Emily K. Moore
Neil Vasan
Samuel F. Bakhoum
Steven L. Reiner
Chantale Bernatchez
Emily M. Mace
Kai W. Wucherpfennig
Dirk Schadendorf
Gary K. Schwartz
Benjamin Izar
Publication Year :
2022
Publisher :
Cold Spring Harbor Laboratory, 2022.

Abstract

The cell autonomous balance of immune-inhibitory and -stimulatory signals is a critical yet poorly understood process in cancer immune evasion. Using patient-derived co-culture models and humanized mouse models, we show that an intact CD58:CD2 interaction is necessary for anti-tumor immunity. Defects in this axis lead to multi-faceted immune evasion through impaired CD2-dependent T cell polyfunctionality, T cell exclusion, impaired intra-tumoral proliferation, and concurrent protein stabilization of PD-L1. We performed genome-scale CRISPR-Cas9 and CD58 coimmunoprecipitation mass spectrometry screens identifying CMTM6 as a key stabilizer of CD58, and show that CMTM6 is required for concurrent upregulation of PD-L1 in CD58 loss. Single-cell RNA-seq analysis of patient melanoma samples demonstrates that most TILs lack expression of primary costimulatory signals required for response to PD-1 blockade (e.g. CD28), but maintain strong CD2 expression, thus providing an opportunity to mobilize a so far therapeutically untapped pool of TILs for anti-tumor immunity. We identify two potential therapeutic avenues, including rescued activation of human CD2-expressing TILs using recombinant CD58 protein, and targeted disruption of PD-L1/CMTM6 interactions. Our work identifies an underappreciated yet critical axis at the nexus of cancer immunity and evasion, uncovers a fundamental mechanism of co-inhibitory and -stimulatory signal balancing, and provides new approaches to improving cancer immunotherapies.

Details

Database :
OpenAIRE
Accession number :
edsair.doi...........247a8c3317edc795cbabee19eee97416
Full Text :
https://doi.org/10.1101/2022.03.21.485049