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Characterizing the cancer genome in lung adenocarcinoma

Barbara A. Weir,Michele S. Woo,Gad Getz,Sven Perner,Ding Li,Rameen Beroukhim,William M. Lin,Michael A. Province,Aldi T. Kraja,Laura A. Johnson,Kinjal Shah,Mitsuo Sato,Roman K. Thomas,Justine A. Barletta,Ingrid B. Borecki,Stephen Broderick,Andrew C. Chang,Derek Y. Chiang,Lucian R. Chirieac,Jeonghee Cho,Yoshitaka Fujii,Adi F. Gazdar,Thomas J. Giordano,Heidi Greulich,Megan Hanna,Bruce E. Johnson,Mark G. Kris,Alex E. Lash,Gang Li,Neal I. Lindeman,Elaine R. Mardis,John Douglas Mcpherson,John D. Minna,Margaret Morgan,Mark Nadel,Mark B. Orringer,John R. Osborne,Brad Ozenberger,Alex H. Ramos,James T. Robinson,Jack A. Roth,Valerie W. Rusch,Hidefumi Sasaki,Frances A. Shepherd,Carrie Sougnez,Margaret R. Spitz,Ming‐Sound Tsao,David Twomey,Roel G.W. Verhaak,George M. Weinstock,David A. Wheeler,Wendy Winckler,Akihiko Yoshizawa,Shiu Yeh Yu,Maureen F. Zakowski,Qunyuan Zhang,David G. Beer,Ignacio I. Wistuba,Mark A. Watson,Levi A. Garraway,Marc Ladanyi,William D. Travis,William Pao,Mark A. Rubin,Stacey Gabriel,Richard A. Gibbs,Harold Varmus,Richard K. Wilson,Eric S. Lander,Matthew Meyerson

Biology

Adenocarcinoma

Genome

2007

Somatic alterations in cellular DNA underlie almost all human cancers. The prospect of targeted therapies and the development of high-resolution, genome-wide approaches are now spurring systematic efforts to characterize cancer genomes. Here we report a large-scale project to characterize copy-number alterations in primary lung adenocarcinomas. By analysis of a large collection of tumours (n = 371) using dense single nucleotide polymorphism arrays, we identify a total of 57 significantly recurrent events. We find that 26 of 39 autosomal chromosome arms show consistent large-scale copy-number gain or loss, of which only a handful have been linked to a specific gene. We also identify 31 recurrent focal events, including 24 amplifications and 7 homozygous deletions. Only six of these focal events are currently associated with known mutations in lung carcinomas. The most common event, amplification of chromosome 14q13.3, is found in approximately 12% of samples. On the basis of genomic and functional analyses, we identify NKX2-1 (NK2 homeobox 1, also called TITF1), which lies in the minimal 14q13.3 amplification interval and encodes a lineage-specific transcription factor, as a novel candidate proto-oncogene involved in a significant fraction of lung adenocarcinomas. More generally, our results indicate that many of the genes that are involved in lung adenocarcinoma remain to be discovered.

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“Characterizing the cancer genome in lung adenocarcinoma” is a paper by Barbara A. Weir Michele S. Woo Gad Getz Sven Perner Ding Li Rameen Beroukhim William M. Lin Michael A. Province Aldi T. Kraja Laura A. Johnson Kinjal Shah Mitsuo Sato Roman K. Thomas Justine A. Barletta Ingrid B. Borecki Stephen Broderick Andrew C. Chang Derek Y. Chiang Lucian R. Chirieac Jeonghee Cho Yoshitaka Fujii Adi F. Gazdar Thomas J. Giordano Heidi Greulich Megan Hanna Bruce E. Johnson Mark G. Kris Alex E. Lash Gang Li Neal I. Lindeman Elaine R. Mardis John Douglas Mcpherson John D. Minna Margaret Morgan Mark Nadel Mark B. Orringer John R. Osborne Brad Ozenberger Alex H. Ramos James T. Robinson Jack A. Roth Valerie W. Rusch Hidefumi Sasaki Frances A. Shepherd Carrie Sougnez Margaret R. Spitz Ming‐Sound Tsao David Twomey Roel G.W. Verhaak George M. Weinstock David A. Wheeler Wendy Winckler Akihiko Yoshizawa Shiu Yeh Yu Maureen F. Zakowski Qunyuan Zhang David G. Beer Ignacio I. Wistuba Mark A. Watson Levi A. Garraway Marc Ladanyi William D. Travis William Pao Mark A. Rubin Stacey Gabriel Richard A. Gibbs Harold Varmus Richard K. Wilson Eric S. Lander Matthew Meyerson published in 2007. It has an Open Access status of “hybrid”. You can read and download a PDF Full Text of this paper here.