Litcius/Paper detail

Determinants of Response and Intrinsic Resistance to PD-1 Blockade in Microsatellite Instability–High Gastric Cancer

Minsuk Kwon, Minae An, Samuel J. Klempner, Hyuk Lee, Kyoung‐Mee Kim, K. Jason, Hee Jin Cho, Jung Yong Hong, Taehyang Lee, Yang Won Min, Tae Jun Kim, Byung‐Hoon Min, Woong‐Yang Park, Won Ki Kang, Kyu‐Tae Kim, Seung Tae Kim, Jeeyun Lee

2021Cancer Discovery241 citationsDOI

Abstract

Abstract Sequence alterations in microsatellites and an elevated mutational burden are observed in 20% of gastric cancers and associated with clinical response to anti–PD-1 antibodies. However, 50% of microsatellite instability–high (MSI-H) cancers are intrinsically resistant to PD-1 therapies. We conducted a phase II trial of pembrolizumab in patients with advanced MSI-H gastric cancer and included serial and multi-region tissue samples in addition to serial peripheral blood analyses. The number of whole-exome sequencing (WES)–derived nonsynonymous mutations correlated with antitumor activity and prolonged progression-free survival (PFS). Coupling WES to single-cell RNA sequencing, we identified dynamic tumor evolution with greater on-treatment collapse of mutational architecture in responders. Diverse T-cell receptor repertoire was associated with longer PFS to pembrolizumab. In addition, an increase in PD-1+ CD8+ T cells correlated with durable clinical benefit. Our findings highlight the genomic, immunologic, and clinical outcome heterogeneity within MSI-H gastric cancer and may inform development of strategies to enhance responsiveness. Significance: This study highlights response heterogeneity within MSI-H gastric cancer treated with pembrolizumab monotherapy and underscores the potential for extended baseline and early on-treatment biomarker analyses to identify responders. The observed markers of intrinsic resistance have implications for patient stratification to inform novel combinations among patients with intrinsically resistant features. See related commentary by Fontana and Smyth, p. 2126. This article is highlighted in the In This Issue feature, p. 2113

Topics & Concepts

PembrolizumabMicrosatellite instabilityCancerExome sequencingBiologyImmune checkpointOncologyNonsynonymous substitutionInternal medicineMedicineImmunotherapyMutationMicrosatelliteGeneticsGeneGenomeAlleleCancer Genomics and DiagnosticsGenetic factors in colorectal cancerCancer Immunotherapy and Biomarkers
Determinants of Response and Intrinsic Resistance to PD-1 Blockade in Microsatellite Instability–High Gastric Cancer | Litcius