Copy number analysis indicates monoclonal origin of lethal metastatic prostate cancer

W Liu, S Laitinen, S Khan, M Vihinen, J Kowalski… - Nature medicine, 2009 - nature.com
W Liu, S Laitinen, S Khan, M Vihinen, J Kowalski, G Yu, L Chen, CM Ewing, MA Eisenberger
Nature medicine, 2009nature.com
Many studies have shown that primary prostate cancers are multifocal,, and are composed
of multiple genetically distinct cancer cell clones,,. Whether or not multiclonal primary
prostate cancers typically give rise to multiclonal or monoclonal prostate cancer metastases
is largely unknown, although studies at single chromosomal loci are consistent with the latter
case. Here we show through a high-resolution genome-wide single nucleotide
polymorphism and copy number survey that most, if not all, metastatic prostate cancers have …
Abstract
Many studies have shown that primary prostate cancers are multifocal,, and are composed of multiple genetically distinct cancer cell clones,,. Whether or not multiclonal primary prostate cancers typically give rise to multiclonal or monoclonal prostate cancer metastases is largely unknown, although studies at single chromosomal loci are consistent with the latter case. Here we show through a high-resolution genome-wide single nucleotide polymorphism and copy number survey that most, if not all, metastatic prostate cancers have monoclonal origins and maintain a unique signature copy number pattern of the parent cancer cell while also accumulating a variable number of separate subclonally sustained changes. We find no relationship between anatomic site of metastasis and genomic copy number change pattern. Taken together with past animal and cytogenetic studies of metastasis and recent single-locus genetic data in prostate and other metastatic cancers,,, these data indicate that despite common genomic heterogeneity in primary cancers, most metastatic cancers arise from a single precursor cancer cell. This study establishes that genomic archeology of multiple anatomically separate metastatic cancers in individuals can be used to define the salient genomic features of a parent cancer clone of proven lethal metastatic phenotype.
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