Evolution of late-stage metastatic melanoma is dominated by aneuploidy and whole genome doubling

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作者
Ismael A. Vergara
Christopher P. Mintoff
Shahneen Sandhu
Lachlan McIntosh
Richard J. Young
Stephen Q. Wong
Andrew Colebatch
Daniel L. Cameron
Julia Lai Kwon
Rory Wolfe
Angela Peng
Jason Ellul
Xuelin Dou
Clare Fedele
Samantha Boyle
Gisela Mir Arnau
Jeanette Raleigh
Athena Hatzimihalis
Pacman Szeto
Jennifer Mooi
Daniel S. Widmer
Phil F. Cheng
Valerie Amann
Reinhard Dummer
Nicholas Hayward
James Wilmott
Richard A. Scolyer
Raymond J. Cho
David Bowtell
Heather Thorne
Kathryn Alsop
Stephen Cordner
Noel Woodford
Jodie Leditschke
Patricia O’Brien
Sarah-Jane Dawson
Grant A. McArthur
Graham J. Mann
Mitchell P. Levesque
Anthony T. Papenfuss
Mark Shackleton
机构
[1] Walter and Eliza Hall Institute of Medical Research,Bioinformatics Division
[2] Peter MacCallum Cancer Centre,Department of Mathematics and Statistics
[3] Melanoma Institute of Australia,Department of Medical Biology
[4] The University of Melbourne,School of Public Health and Preventive Medicine
[5] The University of Melbourne,Central Clinical School, Faculty of Medicine
[6] Monash University,Department of Dermatology
[7] Nursing and Health Sciences,Tissue Pathology and Diagnostic Oncology
[8] Monash University,Sydney Medical School
[9] University of Zürich Hospital,Department of Dermatology
[10] QIMR Berghofer Medical Research Institute,Sir Peter MacCallum Department of Oncology
[11] Royal Prince Alfred Hospital,Centre of Cancer Research
[12] The University of Sydney,Centre for Cancer Research, Westmead Institute for Medical Research
[13] University of California,Department of Oncology
[14] The University of Melbourne,undefined
[15] The Victorian Institute of Forensic Medicine,undefined
[16] The University of Melbourne,undefined
[17] University of Sydney,undefined
[18] Alfred Health,undefined
来源
Nature Communications | / 12卷
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摘要
Although melanoma is initiated by acquisition of point mutations and limited focal copy number alterations in melanocytes-of-origin, the nature of genetic changes that characterise lethal metastatic disease is poorly understood. Here, we analyze the evolution of human melanoma progressing from early to late disease in 13 patients by sampling their tumours at multiple sites and times. Whole exome and genome sequencing data from 88 tumour samples reveals only limited gain of point mutations generally, with net mutational loss in some metastases. In contrast, melanoma evolution is dominated by whole genome doubling and large-scale aneuploidy, in which widespread loss of heterozygosity sculpts the burden of point mutations, neoantigens and structural variants even in treatment-naïve and primary cutaneous melanomas in some patients. These results imply that dysregulation of genomic integrity is a key driver of selective clonal advantage during melanoma progression.
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