Multicenter Study of Acetaminophen Hepatotoxicity Reveals the Importance of Biological Endpoints in Genomic Analyses

Richard P. Beyer(University of Washington), Rebecca C. Fry(Massachusetts Institute of Technology), Michael Lasarev(Oregon Health & Science University), Lisa A. McConnachie(University of Washington), Lisiane B. Meira(Massachusetts Institute of Technology), Valerie S. Palmer(Oregon Health & Science University), Christine L. Powell(University of North Carolina at Chapel Hill), Pamela K. Ross(University of North Carolina at Chapel Hill), Theo K. Bammler(University of Washington), Blair U. Bradford(University of North Carolina at Chapel Hill), Alex B. Cranson(Oregon Health & Science University), Michael L. Cunningham(National Institute of Environmental Health Sciences), Rickie D. Fannin(National Institute of Environmental Health Sciences), Gregory Higgins(Oregon Health & Science University), Patrick Hurban, Robert J. Kayton(Oregon Health & Science University), Kathleen F. Kerr(University of Washington), Oksana Kosyk(University of North Carolina at Chapel Hill), Edward K. Lobenhofer, Stella O. Sieber(National Institute of Environmental Health Sciences), Portia A. Vliet(University of Washington), Brenda K. Weis(National Institute of Environmental Health Sciences), Russel D. Wolfinger(SAS Institute (United States)), Courtney G. Woods(University of North Carolina at Chapel Hill), Jonathan H. Freedman(Duke Medical Center), Elwood Linney(Duke Medical Center), William K. Kaufmann(University of North Carolina at Chapel Hill), Terrance J. Kavanagh(University of Washington), Richard S. Paules(National Institute of Environmental Health Sciences), Ivan Rusyn(University of North Carolina at Chapel Hill), Leona D. Samson(Massachusetts Institute of Technology), Peter S. Spencer(Oregon Health & Science University), William A. Suk(National Institute of Environmental Health Sciences), Raymond Tennant(National Institute of Environmental Health Sciences), Helmut Zarbl(Fred Hutch Cancer Center)
Toxicological Sciences
June 11, 2007
10.1093/toxsci/kfm150
Cited by 80Open Access
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Abstract

Gene expression profiling is a widely used technique with data from the majority of published microarray studies being publicly available. These data are being used for meta-analyses and in silico discovery; however, the comparability of toxicogenomic data generated in multiple laboratories has not been critically evaluated. Using the power of prospective multilaboratory investigations, seven centers individually conducted a common toxicogenomics experiment designed to advance understanding of molecular pathways perturbed in liver by an acute toxic dose of N-acetyl-p-aminophenol (APAP) and to uncover reproducible genomic signatures of APAP-induced toxicity. The nonhepatotoxic APAP isomer N-acetyl-m-aminophenol was used to identify gene expression changes unique to APAP. Our data show that c-Myc is induced by APAP and that c-Myc-centered interactomes are the most significant networks of proteins associated with liver injury. Furthermore, sources of error and data variability among Centers and methods to accommodate this variability were identified by coupling gene expression with extensive toxicological evaluation of the toxic responses. We show that phenotypic anchoring of gene expression data is required for biologically meaningful analysis of toxicogenomic experiments.

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