Integrated molecular analysis of tumor biopsies on sequential CTLA-4 and PD-1 blockade reveals markers of response and resistance

Whijae Roh; Pei-Ling Chen; Alexandre Reuben; Christine N. Spencer; Peter A. Prieto; John P. Miller; Vancheswaran Gopalakrishnan; Feng Wang; Zachary A. Cooper; Sangeetha M. Reddy; Curtis Gumbs; Latasha Little; Qing Chang; Wei-Shen Chen; Khalida Wani; Mariana Petaccia de Macêdo; Eveline Chen; Jacob L. Austin-Breneman; Hong Jiang; Jason Roszik; Michael T. Tetzlaff; Michael A. Davies; Jeffrey E. Gershenwald; Hussein A. Tawbi; Alexander J. Lazar; Patrick Hwu; Wen-Jen Hwu; Adi Diab; Isabella C. Glitza; Sapna P. Patel; Scott E. Woodman; Rodabe N. Amaria; Víctor G. Prieto; Jianhua Hu; Padmanee Sharma; James P. Allison; Lynda Chin; Jianhua Zhang; Jennifer A. Wargo; P. Andrew Futreal

doi:10.1126/scitranslmed.aah3560

Integrated molecular analysis of tumor biopsies on sequential CTLA-4 and PD-1 blockade reveals markers of response and resistance

Whijae Roh(The University of Texas MD Anderson Cancer Center), Pei-Ling Chen(The University of Texas MD Anderson Cancer Center), Alexandre Reuben(The University of Texas MD Anderson Cancer Center), Christine N. Spencer(The University of Texas MD Anderson Cancer Center), Peter A. Prieto(The University of Texas MD Anderson Cancer Center), John P. Miller(The University of Texas MD Anderson Cancer Center), Vancheswaran Gopalakrishnan(The University of Texas MD Anderson Cancer Center), Feng Wang(The University of Texas MD Anderson Cancer Center), Zachary A. Cooper(The University of Texas MD Anderson Cancer Center), Sangeetha M. Reddy(The University of Texas MD Anderson Cancer Center), Curtis Gumbs(The University of Texas MD Anderson Cancer Center), Latasha Little(The University of Texas MD Anderson Cancer Center), Qing Chang(The University of Texas MD Anderson Cancer Center), Wei-Shen Chen(The University of Texas MD Anderson Cancer Center), Khalida Wani(The University of Texas MD Anderson Cancer Center), Mariana Petaccia de Macêdo(The University of Texas MD Anderson Cancer Center), Eveline Chen(The University of Texas MD Anderson Cancer Center), Jacob L. Austin-Breneman(The University of Texas MD Anderson Cancer Center), Hong Jiang(The University of Texas MD Anderson Cancer Center), Jason Roszik(The University of Texas MD Anderson Cancer Center), Michael T. Tetzlaff(The University of Texas MD Anderson Cancer Center), Michael A. Davies(The University of Texas MD Anderson Cancer Center), Jeffrey E. Gershenwald(The University of Texas MD Anderson Cancer Center), Hussein A. Tawbi(The University of Texas MD Anderson Cancer Center), Alexander J. Lazar(The University of Texas MD Anderson Cancer Center), Patrick Hwu(The University of Texas MD Anderson Cancer Center), Wen-Jen Hwu(The University of Texas MD Anderson Cancer Center), Adi Diab(The University of Texas MD Anderson Cancer Center), Isabella C. Glitza(The University of Texas MD Anderson Cancer Center), Sapna P. Patel(The University of Texas MD Anderson Cancer Center), Scott E. Woodman(The University of Texas MD Anderson Cancer Center), Rodabe N. Amaria(The University of Texas MD Anderson Cancer Center), Víctor G. Prieto(The University of Texas MD Anderson Cancer Center), Jianhua Hu(The University of Texas MD Anderson Cancer Center), Padmanee Sharma(The University of Texas MD Anderson Cancer Center), James P. Allison(The University of Texas MD Anderson Cancer Center), Lynda Chin(The University of Texas System), Jianhua Zhang(The University of Texas MD Anderson Cancer Center), Jennifer A. Wargo(The University of Texas MD Anderson Cancer Center), P. Andrew Futreal(The University of Texas MD Anderson Cancer Center)

Science Translational Medicine

March 1, 2017

10.1126/scitranslmed.aah3560

Cited by 916Open Access

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Abstract

Immune checkpoint blockade produces clinical benefit in many patients. However, better biomarkers of response are still needed, and mechanisms of resistance remain incompletely understood. To address this, we recently studied a cohort of melanoma patients treated with sequential checkpoint blockade against cytotoxic T lymphocyte antigen-4 (CTLA-4) followed by programmed death receptor-1 (PD-1) and identified immune markers of response and resistance. Building on these studies, we performed deep molecular profiling including T cell receptor sequencing and whole-exome sequencing within the same cohort and demonstrated that a more clonal T cell repertoire was predictive of response to PD-1 but not CTLA-4 blockade. Analysis of CNAs identified a higher burden of copy number loss in nonresponders to CTLA-4 and PD-1 blockade and found that it was associated with decreased expression of genes in immune-related pathways. The effect of mutational load and burden of copy number loss on response was nonredundant, suggesting the potential utility of a combinatorial biomarker to optimize patient care with checkpoint blockade therapy.

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