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A Novel Epitope Quality-Based Immune Escape Mechanism Reveals Patient’s Suitability for Immune Checkpoint Inhibition

by Kollmeier, Jens , Mairinger, Thomas , Blum, Torsten G , Bauer, Torsten , Stephan-Falkenau, Susann , Borchert, Sabrina , Schmid, Kurt W , Walter, Robert FH , Streubel, Anna , Griff, Sergej , Mairinger, Elena , Werner, Robert , Mairinger, Fabian D , Eberhardt, Wilfried EE , Wessolly, Michael

in Amino acids / Biomarkers / Cancer therapies / Cytotoxicity / deep learning / Deoxyribonucleic acid / DNA / epitope / Genomes / Immune system / Immunotherapy / Lung cancer / massive parallel sequencing / Monoclonal antibodies / Mutation / nsclc / Original Research / Patients / Peptides / processing escape / Proteins / Targeted cancer therapy / Tumors / Viral infections

2020

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A Novel Epitope Quality-Based Immune Escape Mechanism Reveals Patient’s Suitability for Immune Checkpoint Inhibition

2020

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2020

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Journal Article

A Novel Epitope Quality-Based Immune Escape Mechanism Reveals Patient’s Suitability for Immune Checkpoint Inhibition

Kollmeier, Jens,

Mairinger, Thomas,

Blum, Torsten G,

Bauer, Torsten,

Stephan-Falkenau, Susann,

Borchert, Sabrina,

Schmid, Kurt W,

Walter, Robert FH,

Streubel, Anna,

Griff, Sergej,

Mairinger, Elena,

Werner, Robert,

Mairinger, Fabian D,

Eberhardt, Wilfried EE,

Wessolly, Michael

2020

Overview

Immune checkpoint inhibition, especially the blockade of PD-1 and PD-L1, has become one of the most thriving therapeutic approaches in modern oncology. Immune evasion caused by altered tumor epitope processing (so-called processing escapes) may be one way to explain immune checkpoint inhibition therapy failure. In the present study, we aim to demonstrate the effects of processing escapes on immunotherapy outcome in NSCLC patients. Whole exome sequencing data of 400 NSCLC patients (AdC and SCC) were extracted from the TCGA database. The ICB cohort was composed of primary tumor probes from 48 NSCLC patients treated with nivolumab. Mutations were identified by targeted amplicon-based sequencing including hotspots and whole exomes of 22 genes. The effect of mutations on proteasomal processing was evaluated by deep learning methods previously trained on 1260 known MHC-I ligands. Cox regression modelling was used to determine the influence on overall survival. In the TCGA cohort, processing escapes were associated with decreased overall survival (p= 0.0140). In the ICB cohort, patients showing processing escapes in combination with high levels of PD-L1 (n=8/48) also showed significantly decreased overall survival, independently of mutational load or PD-L1 status. The concept of altered epitope processing may help to understand immunotherapy failure. Especially when combined with PD-L1 status, this method can be used as a biomarker to identify patients not suitable for immunotherapy.

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Publisher

Taylor & Francis Ltd,Dove,Dove Medical Press

Subject

/ Deoxyribonucleic acid

/ DNA