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Network Modeling Links Breast Cancer Susceptibility and Centrosome Dysfunction

Overview
Journal Nat Genet
Specialty Genetics
Date 2007 Oct 9
PMID 17922014
Citations 317
Authors
Miguel Angel Pujana
Jing-Dong J Han
Lea M Starita
Kristen N Stevens
Muneesh Tewari
Jin Sook Ahn
Gad Rennert
Victor Moreno
Tomas Kirchhoff
Bert Gold
Volker Assmann
Wael M ElShamy
Jean-Francois Rual
Douglas Levine
Laura S Rozek
Rebecca S Gelman
Kristin C Gunsalus
Roger A Greenberg
Bijan Sobhian
Nicolas Bertin
Kavitha Venkatesan
Nono Ayivi-Guedehoussou
Xavier Sole
Pilar Hernandez
Conxi Lazaro
Katherine L Nathanson
Barbara L Weber
Michael E Cusick
David E Hill
Kenneth Offit
David M Livingston
Stephen B Gruber
Jeffrey D Parvin
Marc Vidal
Affiliations
Soon will be listed here.
Abstract

Many cancer-associated genes remain to be identified to clarify the underlying molecular mechanisms of cancer susceptibility and progression. Better understanding is also required of how mutations in cancer genes affect their products in the context of complex cellular networks. Here we have used a network modeling strategy to identify genes potentially associated with higher risk of breast cancer. Starting with four known genes encoding tumor suppressors of breast cancer, we combined gene expression profiling with functional genomic and proteomic (or 'omic') data from various species to generate a network containing 118 genes linked by 866 potential functional associations. This network shows higher connectivity than expected by chance, suggesting that its components function in biologically related pathways. One of the components of the network is HMMR, encoding a centrosome subunit, for which we demonstrate previously unknown functional associations with the breast cancer-associated gene BRCA1. Two case-control studies of incident breast cancer indicate that the HMMR locus is associated with higher risk of breast cancer in humans. Our network modeling strategy should be useful for the discovery of additional cancer-associated genes.

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