Current Industrial Practices in Assessing CYP450 Enzyme Induction: Preclinical and Clinical

Induction of drug metabolizing enzymes, such as the cytochromes P450 (CYP) is known to cause drug-drug interactions due to increased elimination of co-administered drugs. This increased elimination may lead to significant reduction or complete loss of efficacy of the co-administered drug. Due to the significance of such drug interactions, many pharmaceutical companies employ screening and characterization models which predict CYP enzyme induction to avoid or attenuate the potential for drug interactions with new drug candidates. The most common mechanism of CYP induction is transcriptional gene activation. Activation is mediated by nuclear receptors, such as AhR, CAR, and PXR that function as transcription factors. Early high throughput screening models utilize these nuclear hormone receptors in ligand binding or cell-based transactivation/reporter assays. In addition, immortalized hepatocyte cell lines can be used to assess enzyme induction of specific drug metabolizing enzymes. Cultured primary human hepatocytes, the best established in vitro model for predicting enzyme induction and most accepted by regulatory agencies, is the predominant assay used to evaluate induction of a wide variety of drug metabolizing enzymes. These in vitro models are able to appropriately predict enzyme induction in patients when compared to clinical drug-drug interactions. Finally, transgenic animal models and the cynomolgus monkey have also been shown to recapitulate human enzyme induction and may be appropriate in vivo animal models for predicting human drug interactions.

[1]  W. Schoonen,et al.  Cytochrome P450 enzyme levels in HepG2 cells and cryopreserved primary human hepatocytes and their induction in HepG2 cells. , 2007, Toxicology in vitro : an international journal published in association with BIBRA.

[2]  T. Kocarek,et al.  Regulation of sulfotransferases by xenobiotic receptors. , 2005, Current drug metabolism.

[3]  Christoph Handschin,et al.  In silico approaches, and in vitro and in vivo experiments to predict induction of drug metabolism. , 2003, Drug news & perspectives.

[4]  C. Koike,et al.  Nuclear Receptors CAR and PXR Cross Talk with FOXO1 To Regulate Genes That Encode Drug-Metabolizing and Gluconeogenic Enzymes , 2004, Molecular and Cellular Biology.

[5]  M. Fielden,et al.  Induction of Cyp1a1 Is a Nonspecific Biomarker of Aryl Hydrocarbon Receptor Activation: Results of Large Scale Screening of Pharmaceuticals and Toxicants in Vivo and in Vitro , 2007, Molecular Pharmacology.

[6]  J. Lasker,et al.  Regulation of CYP2E1 by ethanol and palmitic acid and CYP4A11 by clofibrate in primary cultures of human hepatocytes. , 2004, Toxicological sciences : an official journal of the Society of Toxicology.

[7]  R. Evers,et al.  Attenuating pregnane X receptor (PXR) activation: A molecular modelling approach , 2007, Xenobiotica; the fate of foreign compounds in biological systems.

[8]  V. Madison,et al.  Insights from a three-dimensional model into ligand binding to constitutive active receptor. , 2002, Drug metabolism and disposition: the biological fate of chemicals.

[9]  J. Miller,et al.  The metabolism of methylated aminoazo dyes. VI. Intracellular distribution and properties of the demethylase system. , 1957, Cancer research.

[10]  T. Maurer,et al.  Use of Immortalized Human Hepatocytes to Predict the Magnitude of Clinical Drug-Drug Interactions Caused by CYP3A4 Induction , 2006, Drug Metabolism and Disposition.

[11]  B. Neuschwander‐Tetri,et al.  Humanized xenobiotic response in mice expressing nuclear receptor SXR , 2000, Nature.

[12]  Ji-Young Park,et al.  Effect of Rifampin on the Pharmacokinetics of Rosiglitazone in Healthy Subjects , 2004, Clinical pharmacology and therapeutics.

[13]  P. Maurel,et al.  Omeprazole, an inducer of human CYP1A1 and 1A2, is not a ligand for the Ah receptor. , 1992, Biochemical and biophysical research communications.

[14]  G. Hamilton,et al.  Isolation and culture of primary human hepatocytes. , 2005, Methods in molecular biology.

[15]  Shiew-Mei Huang,et al.  Optimizing drug development: Strategies to assess drug metabolism/transporter interaction potential‐toward a consensus , 2001 .

[16]  M. Ashton,et al.  Artemisinin autoinduction is caused by involvement of cytochrome P450 2B6 but not 2C9 , 2003, Clinical pharmacology and therapeutics.

[17]  Hao Li,et al.  Activated Pregnenolone X-Receptor Is a Target for Ketoconazole and Its Analogs , 2007, Clinical Cancer Research.

[18]  T. Asahara,et al.  Near completely humanized liver in mice shows human-type metabolic responses to drugs. , 2004, The American journal of pathology.

[19]  F. Gonzalez The 2006 Bernard B . Brodie Award Lecture CYP 2 E 1 , 2006 .

[20]  A. D. Rodrigues,et al.  Evaluation of 170 xenobiotics as transactivators of human pregnane X receptor (hPXR) and correlation to known CYP3A4 drug interactions. , 2006, Current drug metabolism.

[21]  K. Yoshizato,et al.  Induction of human CYP1A2 and CYP3A4 in primary culture of hepatocytes from chimeric mice with humanized liver. , 2005, Drug metabolism and pharmacokinetics.

[22]  M. Medvedovic,et al.  The transcriptional signature of dioxin in human hepatoma HepG2 cells. , 2000, Biochemical pharmacology.

[23]  K. Yoshizato,et al.  IN VIVO INDUCTION OF HUMAN CYTOCHROME P450 ENZYMES EXPRESSED IN CHIMERIC MICE WITH HUMANIZED LIVER , 2005, Drug Metabolism and Disposition.

[24]  W. Xie,et al.  Xenobiotic nuclear receptor-mediated regulation of UDP-glucuronosyl-transferases. , 2005, Current drug metabolism.

[25]  D. Kazierad,et al.  Comparison of midazolam and simvastatin as cytochrome P450 3A probes , 2006, Clinical pharmacology and therapeutics.

[26]  K. Yoshizato,et al.  In vivo induction of human cytochrome P450 3A4 by rifabutin in chimeric mice with humanized liver , 2005, Xenobiotica; the fate of foreign compounds in biological systems.

[27]  B. Bilir,et al.  Species differences in hepatocyte induction of CYP1A1 and CYP1A2 by omeprazole , 1999, Human & experimental toxicology.

[28]  J. Miller,et al.  The metabolism of methylated aminoazo dyes. IV. Dietary factors enhancing demethylation in vitro. , 1954, The Journal of biological chemistry.

[29]  Programmierbarer Thermoblock,et al.  From industry , 1991 .

[30]  M. Ingelman-Sundberg,et al.  Regulation of aryl hydrocarbon receptor signal transduction by protein tyrosine kinases. , 2005, Cellular signalling.

[31]  T. Kronbach,et al.  Oxidation of midazolam and triazolam by human liver cytochrome P450IIIA4. , 1989, Molecular pharmacology.

[32]  A. Conney Pharmacological implications of microsomal enzyme induction. , 1967, Pharmacological reviews.

[33]  J. Sahi,et al.  Metabolism and transporter-mediated drug-drug interactions of the endothelin-A receptor antagonist CI-1034. , 2006, Chemico-biological interactions.

[34]  Kathy Carroll,et al.  Expression and regulation of cytochrome P450 enzymes in primary cultures of human hepatocytes , 2000, Journal of biochemical and molecular toxicology.

[35]  J. Raucy,et al.  HIGH VOLUME BIOASSAYS TO ASSESS CYP3A4-MEDIATED DRUG INTERACTIONS: INDUCTION AND INHIBITION IN A SINGLE CELL LINE , 2005, Drug Metabolism and Disposition.

[36]  W. Cui,et al.  Direct differentiation of human embryonic stem cells to hepatocyte-like cells exhibiting functional activities. , 2007, Cloning and stem cells.

[37]  S. Strom,et al.  Expression and Induction of CYP2C P450 Enzymes in Primary Cultures of Human Hepatocytes , 2002, Journal of Pharmacology and Experimental Therapeutics.

[38]  U Klotz,et al.  Lack of drug interaction between omeprazole, lansoprazole, pantoprazole and theophylline. , 1999, British journal of clinical pharmacology.

[39]  D. Roymans,et al.  EXPRESSION AND INDUCTION POTENTIAL OF CYTOCHROMES P450 IN HUMAN CRYOPRESERVED HEPATOCYTES , 2005, Drug Metabolism and Disposition.

[40]  Zhengrong Zhu,et al.  Correlation of High-Throughput Pregnane X Receptor (PXR) Transactivation and Binding Assays , 2004, Journal of biomolecular screening.

[41]  G. Kundt,et al.  The extent of induction of CYP3A by St. John’s wort varies among products and is linked to hyperforin dose , 2005, European Journal of Clinical Pharmacology.

[42]  J. Raucy Regulation of CYP3A4 expression in human hepatocytes by pharmaceuticals and natural products. , 2003, Drug metabolism and disposition: the biological fate of chemicals.

[43]  J. Hengstler,et al.  Human Monocyte-Derived Neohepatocytes: A Promising Alternative to Primary Human Hepatocytes for Autologous Cell Therapy , 2005, Transplantation.

[44]  K. Nakata,et al.  Nuclear receptor-mediated transcriptional regulation in Phase I, II, and III xenobiotic metabolizing systems. , 2006, Drug metabolism and pharmacokinetics.

[45]  S D Hall,et al.  Regioselective biotransformation of midazolam by members of the human cytochrome P450 3A (CYP3A) subfamily. , 1994, Biochemical pharmacology.

[46]  M. Ingelman-Sundberg,et al.  Expression of drug metabolizing enzymes in hepatocyte-like cells derived from human embryonic stem cells. , 2007, Biochemical pharmacology.

[47]  I. Poggesi,et al.  Computational approaches for predicting CYP-related metabolism properties in the screening of new drugs. , 2006, European journal of medicinal chemistry.

[48]  J. Schellens,et al.  The role of nuclear receptors in pharmacokinetic drug-drug interactions in oncology. , 2007, Cancer treatment reviews.

[49]  L J Lesko,et al.  Drug Interaction Studies: Study Design, Data Analysis, and Implications for Dosing and Labeling , 2007, Clinical pharmacology and therapeutics.

[50]  F. Gonzalez CYP2E1 , 2006, Drug Metabolism and Disposition.

[51]  P. Mandal Dioxin: a review of its environmental effects and its aryl hydrocarbon receptor biology , 2005, Journal of Comparative Physiology B.

[52]  Michael Rowley,et al.  Potent inhibitors of subgenomic hepatitis C virus RNA replication through optimization of indole-N-acetamide allosteric inhibitors of the viral NS5B polymerase. , 2005 .

[53]  Sean Ekins,et al.  Human Pregnane X Receptor Antagonists and Agonists Define Molecular Requirements for Different Binding Sites , 2007, Molecular Pharmacology.

[54]  T. Sueyoshi,et al.  Drug-activated nuclear receptors CAR and PXR , 2003, Annals of medicine.

[55]  Jonathan L. Linehan,et al.  Defined conditions for development of functional hepatic cells from human embryonic stem cells. , 2005, Stem cells and development.

[56]  C. Smith,et al.  Differential Regulation of Hepatic CYP2B6 and CYP3A4 Genes by Constitutive Androstane Receptor but Not Pregnane X Receptor , 2006, Journal of Pharmacology and Experimental Therapeutics.

[57]  Hongbing Wang,et al.  Role of Orphan Nuclear Receptors in the Regulation of Drug-Metabolising Enzymes , 2003, Clinical pharmacokinetics.

[58]  R. Kim,et al.  Nuclear receptors and drug disposition gene regulation. , 2005, Journal of pharmaceutical sciences.

[59]  André Guillouzo,et al.  EXPRESSION OF CYTOCHROMES P450, CONJUGATING ENZYMES AND NUCLEAR RECEPTORS IN HUMAN HEPATOMA HepaRG CELLS , 2006, Drug Metabolism and Disposition.

[60]  A. D. Rodrigues,et al.  Characterization of the Rhesus Monkey CYP3A64 Enzyme: Species Comparisons of CYP3A Substrate Specificity and Kinetics Using Baculovirus-Expressed Recombinant Enzymes , 2006, Drug Metabolism and Disposition.

[61]  L. Bertilsson,et al.  Autoinduction of carbamazepine metabolism in children examined by a stable isotope technique , 1980, Clinical pharmacology and therapeutics.

[62]  G. Michalopoulos,et al.  Recent advances in human hepatocyte culture systems. , 2000, Biochemical and biophysical research communications.

[63]  Nicola J Hewitt,et al.  Induction of drug metabolizing enzymes: a survey of in vitro methodologies and interpretations used in the pharmaceutical industry--do they comply with FDA recommendations? , 2007, Chemico-biological interactions.

[64]  L. Moore,et al.  The Human Nuclear Xenobiotic Receptor PXR: Structural Determinants of Directed Promiscuity , 2001, Science.

[65]  D. Moore,et al.  CAR, the continuously advancing receptor, in drug metabolism and disease. , 2005, Current drug metabolism.

[66]  C. Handschin,et al.  Induction of drug metabolism: the role of nuclear receptors. , 2008, Pharmacological reviews.

[67]  O. Hankinson,et al.  Identification of a novel dioxin-inducible cytochrome P450. , 2002, Molecular pharmacology.

[68]  André Guillouzo,et al.  The human hepatoma HepaRG cells: a highly differentiated model for studies of liver metabolism and toxicity of xenobiotics. , 2007, Chemico-biological interactions.

[69]  Hayley S. Brown,et al.  Primary Hepatocytes: Current Understanding of the Regulation of Metabolic Enzymes and Transporter Proteins, and Pharmaceutical Practice for the Use of Hepatocytes in Metabolism, Enzyme Induction, Transporter, Clearance, and Hepatotoxicity Studies , 2007, Drug metabolism reviews.

[70]  L. Lesko,et al.  Effect of troglitazone on cytochrome P450 enzymes in primary cultures of human and rat hepatocytes , 2000, Xenobiotica; the fate of foreign compounds in biological systems.

[71]  J. Westendorf,et al.  UDS induction by an array of standard carcinogens in human and rodent hepatocytes: effect of cryopreservation. , 2000, Toxicology.

[72]  N. Ledirac,et al.  The role of protein tyrosine kinases in CYP1A1 induction by omeprazole and thiabendazole in rat hepatocytes. , 2004, Life sciences.

[73]  J. Raucy,et al.  Cell-based high-throughput bioassays to assess induction and inhibition of CYP1A enzymes. , 2005, Toxicology in vitro : an international journal published in association with BIBRA.

[74]  C. Guguen-Guillouzo,et al.  Expression and induction of a large set of drug-metabolizing enzymes by the highly differentiated human hepatoma cell line BC2. , 2001, European journal of biochemistry.

[75]  Virginie Nahoum,et al.  Discovery of a Highly Active Ligand of Human Pregnane X Receptor: A Case Study from Pharmacophore Modeling and Virtual Screening to “In Vivo” Biological Activity , 2007, Molecular Pharmacology.

[76]  T. Imai,et al.  Effects of NO-1886 (Ibrolipim), a lipoprotein lipase-promoting agent, on gene induction of cytochrome P450s, carboxylesterases, and sulfotransferases in primary cultures of human hepatocytes. , 2004, Drug metabolism and pharmacokinetics.

[77]  M. Ashton,et al.  Artemisinin antimalarials moderately affect cytochrome P450 enzyme activity in healthy subjects , 2007, Fundamental & clinical pharmacology.

[78]  Timothy M Willson,et al.  Pregnane X receptor (PXR), constitutive androstane receptor (CAR), and benzoate X receptor (BXR) define three pharmacologically distinct classes of nuclear receptors. , 2002, Molecular endocrinology.

[79]  Pratima Kundu,et al.  Generation of Hepatocyte-Like Cells from Human Embryonic Stem Cells , 2003, Cell transplantation.

[80]  J. Gugenheim,et al.  Comparative effects of rifabutin and rifampicin on cytochromes P450 and UDP-glucuronosyl-transferases expression in fresh and cryopreserved human hepatocytes. , 1999, Chemico-biological interactions.

[81]  J. Sahi,et al.  Induction of Drug Metabolism Enzymes and MDR1 Using a Novel Human Hepatocyte Cell Line , 2004, Journal of Pharmacology and Experimental Therapeutics.

[82]  B. Carr,et al.  In Vitro and in Vivo CYP3A64 Induction and Inhibition Studies in Rhesus Monkeys: A Preclinical Approach for CYP3A-Mediated Drug Interaction Studies , 2006, Drug Metabolism and Disposition.