Essential Gene Profiles in Breast, Pancreatic, and Ovarian Cancer Cells

Richard Marcotte(Ontario Institute for Cancer Research), Kevin R. Brown(Ontario Institute for Cancer Research), Fernando Suárez(Ontario Institute for Cancer Research), Azin Sayad(Ontario Institute for Cancer Research), Konstantina Karamboulas(Ontario Institute for Cancer Research), Paul M. Krzyzanowski(Ontario Institute for Cancer Research), Fabrice Sircoulomb(Ontario Institute for Cancer Research), Mauricio Medrano(Ontario Institute for Cancer Research), Yaroslav Fedyshyn(Ontario Institute for Cancer Research), Judice L.Y. Koh(Ontario Institute for Cancer Research), Dewald van Dyk(Ontario Institute for Cancer Research), Bohdana Fedyshyn(Ontario Institute for Cancer Research), Marianna Luhova(Ontario Institute for Cancer Research), Glauber C. Brito(Ontario Institute for Cancer Research), Franco J. Vizeacoumar(Ontario Institute for Cancer Research), Frederick S. Vizeacoumar(Ontario Institute for Cancer Research), Alessandro Datti(Ontario Institute for Cancer Research), Dahlia Kasimer(Ontario Institute for Cancer Research), Alla Buzina(Ontario Institute for Cancer Research), Patricia Mero(Ontario Institute for Cancer Research), Christine Misquitta(Ontario Institute for Cancer Research), Josée Normand(Ontario Institute for Cancer Research), Maliha Haider(Ontario Institute for Cancer Research), Troy Ketela(Ontario Institute for Cancer Research), Jeffrey L. Wrana(Ontario Institute for Cancer Research), Robert Rottapel(Ontario Institute for Cancer Research), Benjamin G. Neel(Ontario Institute for Cancer Research), Jason Moffat(Ontario Institute for Cancer Research)
Cancer Discovery
December 29, 2011
10.1158/2159-8290.cd-11-0224
Cited by 320Open Access
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Abstract

UNLABELLED: Genomic analyses are yielding a host of new information on the multiple genetic abnormalities associated with specific types of cancer. A comprehensive description of cancer-associated genetic abnormalities can improve our ability to classify tumors into clinically relevant subgroups and, on occasion, identify mutant genes that drive the cancer phenotype ("drivers"). More often, though, the functional significance of cancer-associated mutations is difficult to discern. Genome-wide pooled short hairpin RNA (shRNA) screens enable global identification of the genes essential for cancer cell survival and proliferation, providing a "functional genomic" map of human cancer to complement genomic studies. Using a lentiviral shRNA library targeting ~16,000 genes and a newly developed, dynamic scoring approach, we identified essential gene profiles in 72 breast, pancreatic, and ovarian cancer cell lines. Integrating our results with current and future genomic data should facilitate the systematic identification of drivers, unanticipated synthetic lethal relationships, and functional vulnerabilities of these tumor types. SIGNIFICANCE: This study presents a resource of genome-scale, pooled shRNA screens for 72 breast, pancreatic, and ovarian cancer cell lines that will serve as a functional complement to genomics data, facilitate construction of essential gene profiles, help uncover synthetic lethal relationships, and identify uncharacterized genetic vulnerabilities in these tumor types. SIGNIFICANCE: This study presents a resource of genome-scale, pooled shRNA screens for 72 breast, pancreatic, and ovarian cancer cell lines that will serve as a functional complement to genomics data, facilitate construction of essential gene profiles, help uncover synthetic lethal relationships, and identify uncharacterized genetic vulnerabilities in these tumor types.

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