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Merck

Melanoma genome sequencing reveals frequent PREX2 mutations.

Nature (2012-05-25)
Michael F Berger, Eran Hodis, Timothy P Heffernan, Yonathan Lissanu Deribe, Michael S Lawrence, Alexei Protopopov, Elena Ivanova, Ian R Watson, Elizabeth Nickerson, Papia Ghosh, Hailei Zhang, Rhamy Zeid, Xiaojia Ren, Kristian Cibulskis, Andrey Y Sivachenko, Nikhil Wagle, Antje Sucker, Carrie Sougnez, Robert Onofrio, Lauren Ambrogio, Daniel Auclair, Timothy Fennell, Scott L Carter, Yotam Drier, Petar Stojanov, Meredith A Singer, Douglas Voet, Rui Jing, Gordon Saksena, Jordi Barretina, Alex H Ramos, Trevor J Pugh, Nicolas Stransky, Melissa Parkin, Wendy Winckler, Scott Mahan, Kristin Ardlie, Jennifer Baldwin, Jennifer Wargo, Dirk Schadendorf, Matthew Meyerson, Stacey B Gabriel, Todd R Golub, Stephan N Wagner, Eric S Lander, Gad Getz, Lynda Chin, Levi A Garraway
RESUMEN

Melanoma is notable for its metastatic propensity, lethality in the advanced setting and association with ultraviolet exposure early in life. To obtain a comprehensive genomic view of melanoma in humans, we sequenced the genomes of 25 metastatic melanomas and matched germline DNA. A wide range of point mutation rates was observed: lowest in melanomas whose primaries arose on non-ultraviolet-exposed hairless skin of the extremities (3 and 14 per megabase (Mb) of genome), intermediate in those originating from hair-bearing skin of the trunk (5-55 per Mb), and highest in a patient with a documented history of chronic sun exposure (111 per Mb). Analysis of whole-genome sequence data identified PREX2 (phosphatidylinositol-3,4,5-trisphosphate-dependent Rac exchange factor 2)--a PTEN-interacting protein and negative regulator of PTEN in breast cancer--as a significantly mutated gene with a mutation frequency of approximately 14% in an independent extension cohort of 107 human melanomas. PREX2 mutations are biologically relevant, as ectopic expression of mutant PREX2 accelerated tumour formation of immortalized human melanocytes in vivo. Thus, whole-genome sequencing of human melanoma tumours revealed genomic evidence of ultraviolet pathogenesis and discovered a new recurrently mutated gene in melanoma.