Evolution of Neoantigen Landscape during Immune Checkpoint Blockade in Non–Small Cell Lung Cancer

Valsamo Anagnostou , Kellie N. Smith , Patrick M. Forde , Valsamo Anagnostou , Kellie N. Smith , Patrick M. Forde , Noushin Niknafs , Rohit Bhattacharya , James R. White , Theresa Zhang , Vilmos Adleff , Jillian Phallen , Neha Wali , Carolyn Hruban , Violeta Beleva Guthrie , Kristen Rodgers , Jarushka Naidoo , Hyunseok Kang , William H. Sharfman , Christos Georgiades , Franco Verde , Peter B. Illei , Qing Kay Li , Edward Gabrielson , Malcolm V. Brock , Cynthia A. Zahnow , Stephen B. Baylin , Robert B. Scharpf , Julie R. Brahmer , Rachel Karchin , Drew M. Pardoll , Victor E. Velculescu
2016 Cancer Discovery 853 citations

Abstract

Abstract Immune checkpoint inhibitors have shown significant therapeutic responses against tumors containing increased mutation-associated neoantigen load. We have examined the evolving landscape of tumor neoantigens during the emergence of acquired resistance in patients with non–small cell lung cancer after initial response to immune checkpoint blockade with anti–PD-1 or anti–PD-1/anti–CTLA-4 antibodies. Analyses of matched pretreatment and resistant tumors identified genomic changes resulting in loss of 7 to 18 putative mutation-associated neoantigens in resistant clones. Peptides generated from the eliminated neoantigens elicited clonal T-cell expansion in autologous T-cell cultures, suggesting that they generated functional immune responses. Neoantigen loss occurred through elimination of tumor subclones or through deletion of chromosomal regions containing truncal alterations, and was associated with changes in T-cell receptor clonality. These analyses provide insight into the dynamics of mutational landscapes during immune checkpoint blockade and have implications for the development of immune therapies that target tumor neoantigens. Significance: Acquired resistance to immune checkpoint therapy is being recognized more commonly. This work demonstrates for the first time that acquired resistance to immune checkpoint blockade can arise in association with the evolving landscape of mutations, some of which encode tumor neoantigens recognizable by T cells. These observations imply that widening the breadth of neoantigen reactivity may mitigate the development of acquired resistance. Cancer Discov; 7(3); 264–76. ©2017 AACR. See related commentary by Yang, p. 250. This article is highlighted in the In This Issue feature, p. 235

Keywords

BlockadeImmune checkpointImmune systemCancer researchCancerBiologyImmunologyImmunotherapyGeneticsReceptor

MeSH Terms

AdultAntibodiesMonoclonalAntigensNeoplasmAntineoplastic AgentsImmunologicalCTLA-4 AntigenCarcinomaNon-Small-Cell LungCell Cycle CheckpointsCohort StudiesDrug ResistanceNeoplasmFemaleHumansImmunotherapyIpilimumabJanus Kinase 1Janus Kinase 2Lung NeoplasmsMaleMiddle AgedMutationNivolumabProgrammed Cell Death 1 ReceptorReceptorsAntigenT-Cell

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Publication Info

Year
2016
Type
article
Volume
7
Issue
3
Pages
264-276
Citations
853
Access
Closed

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Valsamo Anagnostou, Kellie N. Smith, Patrick M. Forde et al. (2016). Evolution of Neoantigen Landscape during Immune Checkpoint Blockade in Non–Small Cell Lung Cancer. Cancer Discovery , 7 (3) , 264-276. https://doi.org/10.1158/2159-8290.cd-16-0828

Identifiers

DOI
10.1158/2159-8290.cd-16-0828
PMID
28031159
PMCID
PMC5733805

Data Quality

Data completeness: 86%