Genomic correlates of response to immune checkpoint blockade in microsatellite-stable solid tumors

Diana Miao; Claire A. Margolis; Natalie I. Vokes; David Liu; Amaro Taylor-Weiner; Stephanie M. Wankowicz; Dennis Adeegbe; Daniel Keliher; Bastian Schilling; Adam Tracy; Michael Manos; Nicole G. Chau; Glenn J. Hanna; Paz Polak; Scott J. Rodig; Sabina Signoretti; Lynette M. Sholl; Jeffrey A. Engelman; Gad Getz; Pasi A. Jänne; Robert I. Haddad; Toni K. Choueiri; David A. Barbie; Rizwan Haq; Mark M. Awad; Dirk Schadendorf; F. Stephen Hodi; Joaquim Bellmunt; Kwok Kin Wong; Peter Hammerman; Eliezer M. Van Allen

doi:10.1038/s41588-018-0200-2

Genomic correlates of response to immune checkpoint blockade in microsatellite-stable solid tumors

Diana Miao
, Claire A. Margolis
, Natalie I. Vokes
, David Liu
, Amaro Taylor-Weiner
, Stephanie M. Wankowicz
, Dennis Adeegbe
, Daniel Keliher
, Bastian Schilling
, Adam Tracy
, Michael Manos
, Nicole G. Chau
, Glenn J. Hanna
, Paz Polak
, Scott J. Rodig
, Sabina Signoretti
, Lynette M. Sholl
, Jeffrey A. Engelman
, Gad Getz
, Pasi A. Jänne

Robert I. Haddad, Toni K. Choueiri, David A. Barbie, Rizwan Haq, Mark M. Awad, Dirk Schadendorf, F. Stephen Hodi, Joaquim Bellmunt, Kwok Kin Wong, Peter Hammerman, Eliezer M. Van Allen

Research output: Contribution to journal › Article › peer-review

451 Scopus citations

Abstract

Tumor mutational burden correlates with response to immune checkpoint blockade in multiple solid tumors, although in microsatellite-stable tumors this association is of uncertain clinical utility. Here we uniformly analyzed whole-exome sequencing (WES) of 249 tumors and matched normal tissue from patients with clinically annotated outcomes to immune checkpoint therapy, including radiographic response, across multiple cancer types to examine additional tumor genomic features that contribute to selective response. Our analyses identified genomic correlates of response beyond mutational burden, including somatic events in individual driver genes, certain global mutational signatures, and specific HLA-restricted neoantigens. However, these features were often interrelated, highlighting the complexity of identifying genetic driver events that generate an immunoresponsive tumor environment. This study lays a path forward in analyzing large clinical cohorts in an integrated and multifaceted manner to enhance the ability to discover clinically meaningful predictive features of response to immune checkpoint blockade.

Original language	English
Pages (from-to)	1271-1281
Number of pages	11
Journal	Nature Genetics
Volume	50
Issue number	9
DOIs	https://doi.org/10.1038/s41588-018-0200-2
State	Published - 1 Sep 2018
Externally published	Yes

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Miao, D., Margolis, C. A., Vokes, N. I., Liu, D., Taylor-Weiner, A., Wankowicz, S. M., Adeegbe, D., Keliher, D., Schilling, B., Tracy, A., Manos, M., Chau, N. G., Hanna, G. J., Polak, P., Rodig, S. J., Signoretti, S., Sholl, L. M., Engelman, J. A., Getz, G., ... Van Allen, E. M. (2018). Genomic correlates of response to immune checkpoint blockade in microsatellite-stable solid tumors. Nature Genetics, 50(9), 1271-1281. https://doi.org/10.1038/s41588-018-0200-2

@article{88dd37c92d9a4617aa4e901070fb1839,

title = "Genomic correlates of response to immune checkpoint blockade in microsatellite-stable solid tumors",

abstract = "Tumor mutational burden correlates with response to immune checkpoint blockade in multiple solid tumors, although in microsatellite-stable tumors this association is of uncertain clinical utility. Here we uniformly analyzed whole-exome sequencing (WES) of 249 tumors and matched normal tissue from patients with clinically annotated outcomes to immune checkpoint therapy, including radiographic response, across multiple cancer types to examine additional tumor genomic features that contribute to selective response. Our analyses identified genomic correlates of response beyond mutational burden, including somatic events in individual driver genes, certain global mutational signatures, and specific HLA-restricted neoantigens. However, these features were often interrelated, highlighting the complexity of identifying genetic driver events that generate an immunoresponsive tumor environment. This study lays a path forward in analyzing large clinical cohorts in an integrated and multifaceted manner to enhance the ability to discover clinically meaningful predictive features of response to immune checkpoint blockade.",

author = "Diana Miao and Margolis, \{Claire A.\} and Vokes, \{Natalie I.\} and David Liu and Amaro Taylor-Weiner and Wankowicz, \{Stephanie M.\} and Dennis Adeegbe and Daniel Keliher and Bastian Schilling and Adam Tracy and Michael Manos and Chau, \{Nicole G.\} and Hanna, \{Glenn J.\} and Paz Polak and Rodig, \{Scott J.\} and Sabina Signoretti and Sholl, \{Lynette M.\} and Engelman, \{Jeffrey A.\} and Gad Getz and J{\"a}nne, \{Pasi A.\} and Haddad, \{Robert I.\} and Choueiri, \{Toni K.\} and Barbie, \{David A.\} and Rizwan Haq and Awad, \{Mark M.\} and Dirk Schadendorf and Hodi, \{F. Stephen\} and Joaquim Bellmunt and Wong, \{Kwok Kin\} and Peter Hammerman and \{Van Allen\}, \{Eliezer M.\}",

note = "Publisher Copyright: {\textcopyright} 2018, The Author(s).",

year = "2018",

month = sep,

day = "1",

doi = "10.1038/s41588-018-0200-2",

language = "English",

volume = "50",

pages = "1271--1281",

journal = "Nature Genetics",

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Miao, D, Margolis, CA, Vokes, NI, Liu, D, Taylor-Weiner, A, Wankowicz, SM, Adeegbe, D, Keliher, D, Schilling, B, Tracy, A, Manos, M, Chau, NG, Hanna, GJ, Polak, P, Rodig, SJ, Signoretti, S, Sholl, LM, Engelman, JA, Getz, G, Jänne, PA, Haddad, RI, Choueiri, TK, Barbie, DA, Haq, R, Awad, MM, Schadendorf, D, Hodi, FS, Bellmunt, J, Wong, KK, Hammerman, P & Van Allen, EM 2018, 'Genomic correlates of response to immune checkpoint blockade in microsatellite-stable solid tumors', Nature Genetics, vol. 50, no. 9, pp. 1271-1281. https://doi.org/10.1038/s41588-018-0200-2

TY - JOUR

T1 - Genomic correlates of response to immune checkpoint blockade in microsatellite-stable solid tumors

AU - Miao, Diana

AU - Margolis, Claire A.

AU - Vokes, Natalie I.

AU - Liu, David

AU - Taylor-Weiner, Amaro

AU - Wankowicz, Stephanie M.

AU - Adeegbe, Dennis

AU - Keliher, Daniel

AU - Schilling, Bastian

AU - Tracy, Adam

AU - Manos, Michael

AU - Chau, Nicole G.

AU - Hanna, Glenn J.

AU - Polak, Paz

AU - Rodig, Scott J.

AU - Signoretti, Sabina

AU - Sholl, Lynette M.

AU - Engelman, Jeffrey A.

AU - Getz, Gad

AU - Jänne, Pasi A.

AU - Haddad, Robert I.

AU - Choueiri, Toni K.

AU - Barbie, David A.

AU - Haq, Rizwan

AU - Awad, Mark M.

AU - Schadendorf, Dirk

AU - Hodi, F. Stephen

AU - Bellmunt, Joaquim

AU - Wong, Kwok Kin

AU - Hammerman, Peter

AU - Van Allen, Eliezer M.

PY - 2018/9/1

Y1 - 2018/9/1

N2 - Tumor mutational burden correlates with response to immune checkpoint blockade in multiple solid tumors, although in microsatellite-stable tumors this association is of uncertain clinical utility. Here we uniformly analyzed whole-exome sequencing (WES) of 249 tumors and matched normal tissue from patients with clinically annotated outcomes to immune checkpoint therapy, including radiographic response, across multiple cancer types to examine additional tumor genomic features that contribute to selective response. Our analyses identified genomic correlates of response beyond mutational burden, including somatic events in individual driver genes, certain global mutational signatures, and specific HLA-restricted neoantigens. However, these features were often interrelated, highlighting the complexity of identifying genetic driver events that generate an immunoresponsive tumor environment. This study lays a path forward in analyzing large clinical cohorts in an integrated and multifaceted manner to enhance the ability to discover clinically meaningful predictive features of response to immune checkpoint blockade.

AB - Tumor mutational burden correlates with response to immune checkpoint blockade in multiple solid tumors, although in microsatellite-stable tumors this association is of uncertain clinical utility. Here we uniformly analyzed whole-exome sequencing (WES) of 249 tumors and matched normal tissue from patients with clinically annotated outcomes to immune checkpoint therapy, including radiographic response, across multiple cancer types to examine additional tumor genomic features that contribute to selective response. Our analyses identified genomic correlates of response beyond mutational burden, including somatic events in individual driver genes, certain global mutational signatures, and specific HLA-restricted neoantigens. However, these features were often interrelated, highlighting the complexity of identifying genetic driver events that generate an immunoresponsive tumor environment. This study lays a path forward in analyzing large clinical cohorts in an integrated and multifaceted manner to enhance the ability to discover clinically meaningful predictive features of response to immune checkpoint blockade.

UR - https://www.scopus.com/pages/publications/85052712350

U2 - 10.1038/s41588-018-0200-2

DO - 10.1038/s41588-018-0200-2

M3 - Article

C2 - 30150660

AN - SCOPUS:85052712350

SN - 1061-4036

VL - 50

SP - 1271

EP - 1281

JO - Nature Genetics

JF - Nature Genetics

IS - 9

ER -

Genomic correlates of response to immune checkpoint blockade in microsatellite-stable solid tumors

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