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Research ArticleArticle

Dexamethasone Differentially Regulates Expression of Carboxylesterase Genes in Humans and Rats

Weizhu Zhu, Li Song, He Zhang, Lynn Matoney, Edward LeCluyse and Bingfang Yan
Drug Metabolism and Disposition February 2000, 28 (2) 186-191;
Weizhu Zhu
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Li Song
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He Zhang
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Lynn Matoney
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Edward LeCluyse
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Bingfang Yan
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Abstract

Carboxylesterases play important roles in the metabolism of endogenous and foreign compounds, therefore, xenobiotic regulation of carboxylesterase gene expression has both physiological and pharmacological significance. We previously reported that liver microsomal esterase activity was significantly decreased in rats treated with dexamethasone accompanied by a decrease in immunoreactive proteins of rat hydrolase A, B, and C. The aim of this study was to determine whether the suppressed expression of these enzymes was linked to the change of the mRNA levels, and whether cultured hepatocytes responded similar to whole animals to this chemical. Northern blotting analyses demonstrated that the levels of the corresponding mRNA were markedly decreased in rats treated with dexamethasone, suggesting that the suppressed expression is achieved throughtrans-suppression and/or increased degradation of the transcripts. Exposure of cultured rat hepatocytes to nanomolar levels of dexamethasone markedly decreased the levels of immunoreactive proteins of hydrolase A, B, and C. In contrast, exposure of cultured human hepatocytes to dexamethasone caused a slight increase in HCE-1 and HCE-2, two major forms of human liver microsomal carboxylesterases. The inductive effects in human hepatocytes were observed only when micromolar concentrations of dexamethasone were used. These results suggest that a major species difference exists regarding the regulation of carboxylesterase gene expression by dexamethasone. Both the glucocorticoid receptor and the pregnane X receptor are known to mediate dexamethasone action. Differential concentrations required suggest that suppression of rat hydrolases is mediated by the glucocorticoid receptor, whereas the induction of human carboxylesterases is mediated by the pregnane X receptor.

Footnotes

  • Send reprint requests to: Dr. Bingfang Yan, Department of Biomedical Sciences, University of Rhode Island, Kingston, RI 02881. E-mail: byan{at}uri.edu

  • ↵1 Equal contributions were made by these authors.

  • ↵2 Present address: Department of Drug Delivery and Disposition, School of Pharmacy, University of North Carolina at Chapel Hill, Chapel Hill, NC 27599.

  • This work was partially supported by National Institute of Environmental Health Sciences (NIEHS) Grant ES07965 and a New Investigator Award from the American Association of Colleges of Pharmacy.

  • Abbreviations used are::
    CYP
    cytochrome P-450
    DMEM
    Dulbecco's modified Eagle's medium
    GR
    glucocorticoid receptor
    PCR
    polymerase chain reaction
    PXR
    pregnane X receptor
    PAGE
    polyacrylamide gel electrophoresis
    TNM-FH
    Trichoplusia ni Medium-Formulation Hink
    • Received July 12, 1999.
    • Accepted October 13, 1999.
  • The American Society for Pharmacology and Experimental Therapeutics
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Drug Metabolism and Disposition: 28 (2)
Drug Metabolism and Disposition
Vol. 28, Issue 2
1 Feb 2000
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Research ArticleArticle

Dexamethasone Differentially Regulates Expression of Carboxylesterase Genes in Humans and Rats

Weizhu Zhu, Li Song, He Zhang, Lynn Matoney, Edward LeCluyse and Bingfang Yan
Drug Metabolism and Disposition February 1, 2000, 28 (2) 186-191;

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Research ArticleArticle

Dexamethasone Differentially Regulates Expression of Carboxylesterase Genes in Humans and Rats

Weizhu Zhu, Li Song, He Zhang, Lynn Matoney, Edward LeCluyse and Bingfang Yan
Drug Metabolism and Disposition February 1, 2000, 28 (2) 186-191;
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