Network modeling of the transcriptional effects of copy number aberrations in glioblastoma
Journal article, 2011
DNA copy number aberrations (CNAs) are a hallmark of cancer genomes. However, little is known about how such changes affect global gene expression. We develop a modeling framework, EPoC (Endogenous Perturbation analysis of Cancer), to (1) detect disease-driving CNAs and their effect on target mRNA expression, and to (2) stratify cancer patients into long- and short-term survivors. Our method constructs causal network models of gene expression by combining genome-wide DNA- and RNA-level data. Prognostic scores are obtained from a singular value decomposition of the networks. By applying EPoC to glioblastoma data from The Cancer Genome Atlas consortium, we demonstrate that the resulting network models contain known disease-relevant hub genes, reveal interesting candidate hubs, and uncover predictors of patient survival. Targeted validations in four glioblastoma cell lines support selected predictions, and implicate the p53-interacting protein Necdin in suppressing glioblastoma cell growth. We conclude that large-scale network modeling of the effects of CNAs on gene expression may provide insights into the biology of human cancer. Free software in MATLAB and R is provided.
mortality
metabolism
Glioblastoma
Prognosis
Chromosome Aberrations
pathology
genetics
Genome-Wide Association Study
Gene Dosage
Tumor
Factual
Models
metabolism
metabolism
Gene Regulatory Networks
genetics
Transcriptional Activation
Cell Line
Databases
Genetic
pathology
metabolism
Gene Expression Regulation
Gene Expression Profiling
Neoplastic
mortality
genetics
genetics
Nervous System Neoplasms
Software
genetics
Nuclear Proteins
Genome
Human
Nerve Tissue Proteins
metabolism
genetics
Humans
Tumor Suppressor Protein p53
Author
Rebecka Jörnsten
University of Gothenburg
Chalmers, Mathematical Sciences, Mathematical Statistics
Tobias Abenius
University of Gothenburg
Chalmers, Mathematical Sciences, Mathematical Statistics
Teresia Kling
University of Gothenburg
Linnéa Schmidt
University of Gothenburg
Erik Johansson
University of Gothenburg
Torbjörn E M Nordling
The Royal Institute of Technology (KTH)
Bodil Nordlander
University of Gothenburg
Chris Sander
Memorial Sloan-Kettering Cancer Center
Peter Gennemark
Chalmers, Mathematical Sciences
University of Gothenburg
Keiko Funa
Goteborgs Universitet
Goteborgs universitet, Institutionen for biomedicin
Björn Nilsson
Lunds Universitet
Linda Lindahl
University of Gothenburg
Sven Nelander
University of Gothenburg
Molecular Systems Biology
1744-4292 (ISSN)
Vol. 7 486- 486Subject Categories (SSIF 2011)
Cell and Molecular Biology
Other Biological Topics
Bioinformatics and Systems Biology
Probability Theory and Statistics
DOI
10.1038/msb.2011.17
PubMed
21525872