Author
Listed:
- David Liu
(Dana-Farber Cancer Institute
Broad Institute of Harvard and MIT)
- Philip Abbosh
(Fox Chase Cancer Center)
- Daniel Keliher
(Dana-Farber Cancer Institute
Broad Institute of Harvard and MIT)
- Brendan Reardon
(Dana-Farber Cancer Institute
Broad Institute of Harvard and MIT)
- Diana Miao
(Dana-Farber Cancer Institute
Broad Institute of Harvard and MIT)
- Kent Mouw
(Dana-Farber Cancer Institute)
- Amaro Weiner-Taylor
(Broad Institute of Harvard and MIT)
- Stephanie Wankowicz
(Dana-Farber Cancer Institute
Broad Institute of Harvard and MIT)
- Garam Han
(Dana-Farber Cancer Institute
Broad Institute of Harvard and MIT)
- Min Yuen Teo
(Memorial Sloan Kettering Cancer Center)
- Catharine Cipolla
(Memorial Sloan Kettering Cancer Center)
- Jaegil Kim
(Broad Institute of Harvard and MIT)
- Gopa Iyer
(Memorial Sloan Kettering Cancer Center)
- Hikmat Al-Ahmadie
(Memorial Sloan Kettering Cancer Center)
- Essel Dulaimi
(Fox Chase Cancer Center)
- David Y. T. Chen
(Fox Chase Cancer Center)
- R. Katherine Alpaugh
(Fox Chase Cancer Center)
- Jean Hoffman-Censits
(Thomas Jefferson University Hospital)
- Levi A. Garraway
(Dana-Farber Cancer Institute
Broad Institute of Harvard and MIT)
- Gad Getz
(Broad Institute of Harvard and MIT)
- Scott L. Carter
(Dana-Farber Cancer Institute
Broad Institute of Harvard and MIT)
- Joaquim Bellmunt
(Dana-Farber Cancer Institute
Broad Institute of Harvard and MIT)
- Elizabeth R. Plimack
(Fox Chase Cancer Center)
- Jonathan E. Rosenberg
(Memorial Sloan Kettering Cancer Center)
- Eliezer M. Van Allen
(Dana-Farber Cancer Institute
Broad Institute of Harvard and MIT)
Abstract
Despite continued widespread use, the genomic effects of cisplatin-based chemotherapy and implications for subsequent treatment are incompletely characterized. Here, we analyze whole exome sequencing of matched pre- and post-neoadjuvant cisplatin-based chemotherapy primary bladder tumor samples from 30 muscle-invasive bladder cancer patients. We observe no overall increase in tumor mutational burden post-chemotherapy, though a significant proportion of subclonal mutations are unique to the matched pre- or post-treatment tumor, suggesting chemotherapy-induced and/or spatial heterogeneity. We subsequently identify and validate a novel mutational signature in post-treatment tumors consistent with known characteristics of cisplatin damage and repair. We find that post-treatment tumor heterogeneity predicts worse overall survival, and further observe alterations in cell-cycle and immune checkpoint regulation genes in post-treatment tumors. These results provide insight into the clinical and genomic dynamics of tumor evolution with cisplatin-based chemotherapy, suggest mechanisms of clinical resistance, and inform development of clinically relevant biomarkers and trials of combination therapies.
Suggested Citation
David Liu & Philip Abbosh & Daniel Keliher & Brendan Reardon & Diana Miao & Kent Mouw & Amaro Weiner-Taylor & Stephanie Wankowicz & Garam Han & Min Yuen Teo & Catharine Cipolla & Jaegil Kim & Gopa Iye, 2017.
"Mutational patterns in chemotherapy resistant muscle-invasive bladder cancer,"
Nature Communications, Nature, vol. 8(1), pages 1-11, December.
Handle:
RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-02320-7
DOI: 10.1038/s41467-017-02320-7
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