Modeling of Corticosteroid Pharmacogenomics in Rat Liver Using Gene Microarrays

doi:10.1124/jpet.103.053256

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First published on June 13, 2003; DOI: 10.1124/jpet.103.053256

0022-3565/03/3071-93-109$20.00
JPET 307:93-109, 2003

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INFLAMMATION AND IMMUNOPHARMACOLOGY

Modeling of Corticosteroid Pharmacogenomics in Rat Liver Using Gene Microarrays

Jin Y. Jin, Richard R. Almon, Debra C. DuBois, and William J. Jusko

Department of Pharmaceutical Sciences, School of Pharmacy and Pharmaceutical Sciences (J.Y.J., R.R.A., D.C.D., W.J.J.), and Department of Biological Sciences (R.R.A., D.C.D.), State University of New York at Buffalo, Buffalo, New York

Corticosteroid (CS) pharmacogenomics was studied using genemicroarrays in rat liver. Methylprednisolone (MPL) was administeredintravenously at 50 mg/kg. Rats were sacrificed and liver excisedat 17 time points over 72 h. RNAs from individual livers wereused to query Affymetrix GeneChips that contain sequences for8000 genes. Cluster analysis revealed six temporal patternsconsisting of 197 CS-responsive probes representing 143 genes.Based on our fifth-generation model of CS pharmacokinetics/pharmacodynamics(PK/PD), mechanistic models were developed to describe the timepattern for each CS-responsive gene. Two clusters showed increasedexpression with different effect duration. PK/PD models assumingCS stimulation of mRNA synthesis were applied. Another two clustersshowed an initial decline followed by delayed increase, suggestingtwo mechanisms might be involved jointly. The initial suppressionwas captured by CS inhibition of mRNA synthesis or stimulationof degradation. CS may also stimulate the production of a biosignal(transcription factors or other hormones), which can cause secondaryinduction of the target mRNA. One cluster showed a very abruptincrease in message followed by rapid decrease. These geneswere lymphocytic in origin and were modeled combining the fastgene induction effect of CS in lymphoid cells and its directlymphocyte trafficking effect. Another cluster showed reductionpersisting for 18 h, which was described by CS inhibition ofmRNA synthesis. Our results reveal the marked diversity of genesregulated by CS via a limited array of mechanisms. These PK/PDmodels provide quantitation of CS pharmacogenomics and new hypothesesregarding understanding of diverse mechanisms of CS receptor-genemediated action.

Received April 18, 2003; accepted June 3, 2003.

Address correspondence to: Dr. William J. Jusko, Department of Pharmaceutical Sciences, School of Pharmacy and Pharmaceutical Sciences, 565 Hochstetter Hall, State University of New York at Buffalo, Buffalo, NY 14260. E-mail: wjjusko{at}buffalo.edu

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