Genetic diversity of tumors with mismatch repair deficiency influences anti–PD-1 immunotherapy response | Zendy

Rajarsi Mandal | Zendy; Robert M. Samstein | Zendy; Ken-Wing Lee | Zendy; Jonathan J. Havel | Zendy; Hao Wang | Zendy; Chirag Krishna | Zendy; Erich Sabio | Zendy; Vladimir Makarov | Zendy; Fengshen Kuo | Zendy; Pedro Blecua | Zendy; Apoorva T. Ramaswamy | Zendy; Jennifer N. Durham | Zendy; Bjarne R. Bartlett | Zendy; Xiaoxiao Ma | Zendy; Raghvendra M. Srivastava | Zendy; Sumit Middha | Zendy; Ahmet Zehir | Zendy; Jaclyn F. Hechtman | Zendy; Luc G.T. Morris | Zendy; Nils Weinhold | Zendy; Nadeem Riaz | Zendy; Dung T. Le | Zendy; Luis A. Díaz | Zendy; Timothy A. Chan | Zendy

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Genetic diversity of tumors with mismatch repair deficiency influences anti–PD-1 immunotherapy response

Author(s) -

Rajarsi Mandal,

Robert M. Samstein,

Ken-Wing Lee,

Jonathan J. Havel,

Hao Wang,

Chirag Krishna,

Erich Sabio,

Vladimir Makarov,

Fengshen Kuo,

Pedro Blecua,

Apoorva T. Ramaswamy,

Jennifer N. Durham,

Bjarne R. Bartlett,

Xiaoxiao Ma,

Raghvendra M. Srivastava,

Sumit Middha,

Ahmet Zehir,

Jaclyn F. Hechtman,

Luc G.T. Morris,

Nils Weinhold,

Nadeem Riaz,

Dung T. Le,

Luis A. Díaz,

Timothy A. Chan

Publication year - 2019

Publication title -

science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 12.556

H-Index - 1186

eISSN - 1095-9203

pISSN - 0036-8075

DOI - 10.1126/science.aau0447

Subject(s) - indel , dna mismatch repair , immunotherapy , microsatellite instability , immunogenicity , cancer research , blockade , biology , immune checkpoint , mutation , immune system , immunology , genetics , dna repair , microsatellite , gene , genotype , receptor , single nucleotide polymorphism , allele

Tumors with mismatch repair deficiency (MMR-d) are characterized by sequence alterations in microsatellites and can accumulate thousands of mutations. This high mutational burden renders tumors immunogenic and sensitive to programmed cell death-1 (PD-1) immune checkpoint inhibitors. Yet, despite their tumor immunogenicity, patients with MMR-deficient tumors experience highly variable responses, and roughly half are refractory to treatment. We present experimental and clinical evidence showing that the degree of microsatellite instability (MSI) and resultant mutational load, in part, underlies the variable response to PD-1 blockade immunotherapy in MMR-d human and mouse tumors. The extent of response is particularly associated with the accumulation of insertion-deletion (indel) mutational load. This study provides a rationale for the genome-wide characterization of MSI intensity and mutational load to better profile responses to anti-PD-1 immunotherapy across MMR-deficient human cancers.

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