Alpha 2.0
Login Register
» Articles » PMID: 17562736

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

Overview
Journal Toxicol Sci
Publisher Oxford University Press
Specialty Toxicology
Date 2007 Jun 15
PMID 17562736
Citations 27
Authors
Richard P Beyer
Rebecca C Fry
Michael R Lasarev
Lisa A McConnachie
Lisiane B Meira
Valerie S Palmer
Christine L Powell
Pamela K Ross
Theo K Bammler
Blair U Bradford
Alex B Cranson
Michael L Cunningham
Rickie D Fannin
Gregory M Higgins
Patrick Hurban
Robert J Kayton
Kathleen F Kerr
Oksana Kosyk
Edward K Lobenhofer
Stella O Sieber
Portia A Vliet
Brenda K Weis
Russel Wolfinger
Courtney G Woods
Jonathan H Freedman
Elwood Linney
William K Kaufmann
Terrance J Kavanagh
Richard S Paules
Ivan Rusyn
Leona D Samson
Peter S Spencer
William Suk
Raymond J Tennant
Helmut Zarbl
Affiliations
Soon will be listed here.
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.

Citing Articles

Epitranscriptomic Reprogramming Is Required to Prevent Stress and Damage from Acetaminophen.

Evke S, Lin Q, Melendez J, Begley T Genes (Basel). 2022; 13(3).

PMID: 35327975 PMC: 8955276. DOI: 10.3390/genes13030421.

N-Acetyl Cysteine Overdose Inducing Hepatic Steatosis and Systemic Inflammation in Both Propacetamol-Induced Hepatotoxic and Normal Mice.

Liou G, Hsieh C, Lee Y, Li P, Tsai M, Li C Antioxidants (Basel). 2021; 10(3).

PMID: 33809388 PMC: 8000488. DOI: 10.3390/antiox10030442.

Mechanistic identification of biofluid metabolite changes as markers of acetaminophen-induced liver toxicity in rats.

Pannala V, Vinnakota K, Rawls K, Estes S, OBrien T, Printz R Toxicol Appl Pharmacol. 2019; 372:19-32.

PMID: 30974156 PMC: 6599641. DOI: 10.1016/j.taap.2019.04.001.

Transcriptomics in toxicology.

Joseph P Food Chem Toxicol. 2017; 109(Pt 1):650-662.

PMID: 28720289 PMC: 6419952. DOI: 10.1016/j.fct.2017.07.031.

DTNI: a novel toxicogenomics data analysis tool for identifying the molecular mechanisms underlying the adverse effects of toxic compounds.

Hendrickx D, Souza T, Jennen D, Kleinjans J Arch Toxicol. 2016; 91(6):2343-2352.

PMID: 28032149 PMC: 5429357. DOI: 10.1007/s00204-016-1922-5.