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The Impact of Cytochrome P450 2E1‐Dependent Metabolic Variance on a Risk‐Relevant Pharmacokinetic Outcome in Humans

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  • John C. Lipscomb
  • Linda K. Teuschler
  • Jeff Swartout
  • Doug Popken
  • Tony Cox
  • Gregory L. Kedderis

Abstract

Risk assessments include assumptions about sensitive subpopulations, such as the fraction of the general population that is sensitive and the extent that biochemical or physiological attributes influence sensitivity. Uncertainty factors (UF) account for both pharmacokinetic (PK) and pharmacodynamic (PD) components, allowing the inclusion of risk‐relevant information to replace default assumptions about PK and PD variance (uncertainty). Large numbers of human organ donor samples and recent advances in methods to extrapolate in vitro enzyme expression and activity data to the intact human enable the investigation of the impact of PK variability on human susceptibility. The hepatotoxicity of trichloroethylene (TCE) is mediated by acid metabolites formed by cytochrome P450 2E1 (CYP2E1) oxidation, and differences in the CYP2E1 expression are hypothesized to affect susceptibility to TCE's liver injury. This study was designed specifically to examine the contribution of statistically quantified variance in enzyme content and activity on the risk of hepatotoxic injury among adult humans. We combined data sets describing (1) the microsomal protein content of human liver, (2) the CYP2E1 content of human liver microsomal protein, and (3) the in vitro Vmax for TCE oxidation by humans. The 5th and 95th percentiles of the resulting distribution (TCE oxidized per minute per gram liver) differed by approximately sixfold. These values were converted to mg TCE oxidized/h/kg body mass and incorporated in a human PBPK model. Simulations of 8‐hour inhalation exposure to 50 ppm and oral exposure to 5 µg TCE/L in 2 L drinking water showed that the amount of TCE oxidized in the liver differs by 2% or less under extreme values of CYP2E1 expression and activity (here, selected as the 5th and 95th percentiles of the resulting distribution). This indicates that differences in enzyme expression and TCE oxidation among the central 90% of the adult human population account for approximately 2% of the difference in production of the risk‐relevant PK outcome for TCE‐mediated liver injury. Integration of in vitro metabolism information into physiological models may reduce the uncertainties associated with risk contributions of differences in enzyme expression and the UF that represent PK variability.

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  • John C. Lipscomb & Linda K. Teuschler & Jeff Swartout & Doug Popken & Tony Cox & Gregory L. Kedderis, 2003. "The Impact of Cytochrome P450 2E1‐Dependent Metabolic Variance on a Risk‐Relevant Pharmacokinetic Outcome in Humans," Risk Analysis, John Wiley & Sons, vol. 23(6), pages 1221-1238, December.
  • Handle: RePEc:wly:riskan:v:23:y:2003:i:6:p:1221-1238
    DOI: 10.1111/j.0272-4332.2003.00397.x
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    References listed on IDEAS

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    1. Bruce C. Allen & Jeffrey W. Fisher, 1993. "Pharmacokinetic Modeling of Trichloroethylene and Trichloroacetic Acid in Humans," Risk Analysis, John Wiley & Sons, vol. 13(1), pages 71-86, February.
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    Cited by:

    1. Joyce S. Tsuji & Michael R. Garry, 2009. "Advances in Toxicity Testing Herald Improvements and Challenges for Risk Assessment," Risk Analysis, John Wiley & Sons, vol. 29(4), pages 490-491, April.
    2. Jeffrey S. Knutsen & Brent D. Kerger & Brent Finley & Dennis J. Paustenbach, 2013. "A Calibrated Human PBPK Model for Benzene Inhalation with Urinary Bladder and Bone Marrow Compartments," Risk Analysis, John Wiley & Sons, vol. 33(7), pages 1237-1251, July.

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    2. Jeffrey W. Fisher & Bruce C. Allen, 1993. "Evaluating the Risk of Liver Cancer in Humans Exposed to Trichloroethylene Using Physiological Models," Risk Analysis, John Wiley & Sons, vol. 13(1), pages 87-95, February.

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