Predictive Genes in Adjacent Normal Tissue Are Preferentially Altered by SCNV During Tumorigenesis in Liver Cancer and May Rate Limiting

Overview

Journal PLoS One

Specialties General Medicine
Science

Date 2011 Jul 14

PMID 21750698

Citations 47

Authors

John R Lamb

Chunsheng Zhang

Tao Xie

Kai Wang

Bin Zhang

Ke Hao

Eugene Chudin

Hunter B Fraser

Joshua Millstein

Mark Ferguson

Christine Suver

Irena Ivanovska

Martin Scott

Ulrike Philippar

Dimple Bansal

Zhan Zhang

Julja Burchard

Ryan Smith

Danielle Greenawalt

Michele Cleary

Jonathan Derry

Andrey Loboda

James Watters

Ronnie T P Poon

Sheung T Fan

Chun Yeung

Nikki P Y Lee

Justin Guinney

Cliona Molony

Valur Emilsson

Carolyn Buser-Doepner

Jun Zhu

Stephen Friend

Mao Mao

Peter M Shaw

Hongyue Dai

John M Luk

Eric E Schadt

Affiliations

Soon will be listed here.

Abstract

Background: In hepatocellular carcinoma (HCC) genes predictive of survival have been found in both adjacent normal (AN) and tumor (TU) tissues. The relationships between these two sets of predictive genes and the general process of tumorigenesis and disease progression remains unclear.

Methodology/principal Findings: Here we have investigated HCC tumorigenesis by comparing gene expression, DNA copy number variation and survival using ∼250 AN and TU samples representing, respectively, the pre-cancer state, and the result of tumorigenesis. Genes that participate in tumorigenesis were defined using a gene-gene correlation meta-analysis procedure that compared AN versus TU tissues. Genes predictive of survival in AN (AN-survival genes) were found to be enriched in the differential gene-gene correlation gene set indicating that they directly participate in the process of tumorigenesis. Additionally the AN-survival genes were mostly not predictive after tumorigenesis in TU tissue and this transition was associated with and could largely be explained by the effect of somatic DNA copy number variation (sCNV) in cis and in trans. The data was consistent with the variance of AN-survival genes being rate-limiting steps in tumorigenesis and this was confirmed using a treatment that promotes HCC tumorigenesis that selectively altered AN-survival genes and genes differentially correlated between AN and TU.

Conclusions/significance: This suggests that the process of tumor evolution involves rate-limiting steps related to the background from which the tumor evolved where these were frequently predictive of clinical outcome. Additionally treatments that alter the likelihood of tumorigenesis occurring may act by altering AN-survival genes, suggesting that the process can be manipulated. Further sCNV explains a substantial fraction of tumor specific expression and may therefore be a causal driver of tumor evolution in HCC and perhaps many solid tumor types.

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