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The genomic complexity of primary human prostate cancer

2011; Nature Portfolio; Volume: 470; Issue: 7333 Linguagem: Inglês

10.1038/nature09744

1476-4687

Michael F. Berger, Michael S. Lawrence, Francesca Demichelis, Yotam Drier, Kristian Cibulskis, Andrey Sivachenko, Andrea Sboner, Raquel Esgueva, Dorothee Pflueger, Carrie Sougnez, Robert C. Onofrio, Scott L. Carter, Kyung Park, Lukas Habegger, Lauren Ambrogio, Timothy R. Fennell, Melissa Parkin, Gordon Saksena, Douglas Voet, Alex H. Ramos, Trevor J. Pugh, Jane Wilkinson, Sheila Fisher, Wendy Winckler, Scott Mahan, Kristin Ardlie, Jennifer N. Baldwin, Jonathan W. Simons, Naoki Kitabayashi, Theresa Y. MacDonald, Philip W. Kantoff, Lynda Chin, Stacey Gabriel, Mark Gerstein, Todd R. Golub, Matthew Meyerson, Ashutosh Tewari, Eric S. Lander, Gad Getz, Mark A. Rubin, Levi A. Garraway,

Cancer Genomics and Diagnostics

Prostate cancer is the second most common cause of male cancer deaths in the United States. However, the full range of prostate cancer genomic alterations is incompletely characterized. Here we present the complete sequence of seven primary human prostate cancers and their paired normal counterparts. Several tumours contained complex chains of balanced (that is, 'copy-neutral') rearrangements that occurred within or adjacent to known cancer genes. Rearrangement breakpoints were enriched near open chromatin, androgen receptor and ERG DNA binding sites in the setting of the ETS gene fusion TMPRSS2–ERG, but inversely correlated with these regions in tumours lacking ETS fusions. This observation suggests a link between chromatin or transcriptional regulation and the genesis of genomic aberrations. Three tumours contained rearrangements that disrupted CADM2, and four harboured events disrupting either PTEN (unbalanced events), a prostate tumour suppressor, or MAGI2 (balanced events), a PTEN interacting protein not previously implicated in prostate tumorigenesis. Thus, genomic rearrangements may arise from transcriptional or chromatin aberrancies and engage prostate tumorigenic mechanisms. Prostate cancer is a common cause of male cancer-related deaths. Complete genome sequencing of seven 'high-risk' primary prostate cancers and their paired normal counterparts now reveals previously unknown balanced rearrangements, at which multiple intra- and inter-chromosomal loci exchange their breakpoint arms without any loss of genetic material. The anomalies seem to arise through errors in transcription or abnormal chromatin structure, and genes affected include the known prostate tumour suppressor PTEN as well as MAG12, a gene not previously implicated in prostate tumorigenesis. Prostate cancer is a common cause of male cancer-related deaths. Complete sequencing of prostate cancer genomes now reveals previously unknown balanced rearrangements. Single-nucleotide resolution afforded by sequencing indicates that complex rearrangements may arise from transcriptional or chromatin aberrancies and engage prostate tumorigenic mechanisms.