Evidence for cytochrome P450 2B1/2B2 isoenzymes in freshly prepared peripheral blood lymphocytes

Cytochrome P450 2B1 and 2B2, the major hepatic drug metabolizing enzymes belonging to CYP2 family and associated constitutive androstane receptor (CAR) were found to be expressed in peripheral blood lymphocytes (PBL) isolated from rats. As observed in liver, pretreatment of phenobarbital (PB) or phenytoin were found to increase the expression of CYP2B1, CYP2B2 and associated enzyme activity in PBL. Like in liver, blood lymphocyte CYP2B1/2B2 catalyzed the activity of 7-pentoxyresorufin O-dealkylase (PROD). The present data, demonstrating similarities in the regulation of blood lymphocyte CYP2B-isoenzymes with the liver enzymes, suggests that blood lymphocyte CYP2B-isoenzymes could be used as a biomarker to monitor tissue levels.     

Expression of constitutive and inducible cytochrome P450 2E1 in rat brain

Studies initiated to investigate the expression of cytochrome P450 2E1 (CYP2E1) in rat brain demonstrated low but detectable protein and mRNA expression in control rat brain. Though mRNA and protein expression of CYP2E1 in brain was several fold lower as compared to liver, relatively high activity of N-nitrosodimethylamine demethylase (NDMA-d) was observed in control rat brain microsomes. Like liver, pretreatment with CYP2E1 inducers such as ethanol or pyrazole or acetone significantly increased the activity of brain microsomal NDMA-d. Kinetic studies also showed an increase in the Vmax and affinity (Km) of the substrate towards the brain enzyme due to increased expression of CYP2E1 in microsomes of brain isolated from ethanol pretreated rats. In vitrostudies using organic inhibitors, specific for CYP2E1 and anti-CYP2E1 significantly inhibited the brain NDMA-d activity indicating that like liver, NDMA-d activity in rat brain is catalyzed by CYP2E1. Olfactory lobes exhibited the highest CYP2E1 expression and catalytic activity in control rats. Furthermore, several fold increase in the mRNA expression and activity of CYP2E1 in cerebellum and hippocampus while a relatively small increase in the olfactory lobes and no significant change in other brain regions following ethanol pretreatment have indicated that CYP2E1 induction maybe involved in selective sensitivity of these brain areas to ethanol induced free radical damage and neuronal degeneration.     

Kinetics of bromodichloromethane metabolism by cytochrome P450 isoenzymes in human liver microsomes

The kinetic constants for the metabolism of bromodichloromethane (BDCM) by three cytochrome P450 (CYP) isoenzymes have been measured in human liver microsomes. The three CYP isoenzymes, CYP2E1, CYP1A2 and CYP3A4, have been identified previously as important in the metabolism of this compound. To measure the constants for each isoenzyme, enzyme-specific inhibitory antibodies were used to block the activities for two of the three isoenzymes. CYP2E1 was found to have the lowest K(m), 2.9 microM, and the highest catalytic activity, k(cat). The K(m) for the other isoenzymes, CYP1A2 and CYP3A4, were about 60 microM with lower values of k(cat). Apparent kinetic constants obtained from two microsomal samples that were not inhibited were consistent with these results. In addition, 11 human microsome samples characterized for 10 CYP activities were correlated with the metabolism of 9.7 microM BDCM by each sample; statistical analysis showed a correlation with CYP2E1 activity only. This result is consistent with the finding that CYP2E1 is the only isoenzyme with a K(m) lower than the BDCM concentration used. The kinetic constants obtained from the inhibited microsomes were compared to similar results from recombinant human isoenzyme preparations containing only one CYP isoenzyme. The results for CYP2E1 were very similar, while the results for CYP1A2 were somewhat less similar and there was a substantial divergence for CYP3A4 in the two systems. Possible reasons for these differences are differing levels of CYP reductase and/or differing makeup of the membrane lipid environment for the CYPs. Because of the low levels of BDCM exposure from drinking water, it appears likely that CYP2E1 will dominate hepatic CYP-mediated BDCM metabolism in humans.     

Evidence for cytochrome P450 2B1/2B2 isoenzymes in freshly prepared peripheral blood lymphocytes

Cytochrome P450 2B1 and 2B2, the major hepatic drug metabolizing enzymes belonging to CYP2 family and associated constitutive androstane receptor (CAR) were found to be expressed in peripheral blood lymphocytes (PBL) isolated from rats. As observed in liver, pretreatment of phenobarbital (PB) or phenytoin were found to increase the expression of CYP2B1, CYP2B2 and associated enzyme activity in PBL. Like in liver, blood lymphocyte CYP2B1/2B2 catalyzed the activity of 7-pentoxyresorufin O-dealkylase (PROD). The present data, demonstrating similarities in the regulation of blood lymphocyte CYP2B-isoenzymes with the liver enzymes, suggests that blood lymphocyte CYP2B-isoenzymes could be used as a biomarker to monitor tissue levels.     

An evaluation of the P450 inhibition and induction potential of daptomycin in primary human hepatocytes

Two in vitro studies assessed the potential of daptomycin (Cubicin), a newly marketed antibiotic, to affect the cytochrome P450 (CYP450) isoforms in primary cultured human hepatocytes. Both induction and inhibition of isoforms 1A2, 2A6, 2C9, 2C19, 2D6, 2E1, and 3A4 were evaluated. The highest concentrations of daptomycin used in both the induction and inhibition assays were approximately eight-fold higher than the peak total drug concentration (50-60 microg/mL), or the peak free drug concentration (estimated 5-6 microg/mL), in plasma at the clinical dose regimen of 4 mg/kg qd. Results in primary human hepatocytes indicate that daptomycin, at concentrations up to 400 microg total drug/mL, demonstrated no biologically significant induction of any of the CYP450 isoform activities in comparison with the negative control or known inducers. At daptomycin concentrations up to 40 microg free drug/mL, no biologically significant inhibition of the activities of these CYP450 isoforms was observed as compared with known inhibitors. The human hepatocyte results demonstrate that daptomycin has no effects on hepatic CYP450-mediated drug metabolism and, therefore, suggest that daptomycin is unlikely to show potential for pharmacokinetic interactions with concomitantly administered drugs that are metabolized by CYP450 isoforms.     

2-十三烷酮对棉铃虫细胞色素P450的诱导作用

将2-十三烷酮按0.005%～0.01%（重量比）的浓度加到棉铃虫人工饲料中,连续诱导3代,测定棉铃虫中肠和脂肪体中细胞色素P450(cyt-P450)含量以及与标准配基（正丁醇、吡啶、苯胺、环己烷）形成的氧化型结合光谱。2-十三烷酮诱导品系的中肠cyt-P450与CO结合光谱的最大吸收峰在449 nm处,脂肪体cyt-P450与CO结合光谱的最大吸收峰在450.7 nm处。中肠cyt-P450除了在450 nm附近存在一个吸收峰外,在通入CO后依次在414、415、418 nm附近出现吸收峰,随后该峰消失,随着时间的推移（第31次扫描）在420 nm处又开始出现一个弱吸收峰。2-十三烷酮诱导品系的中肠、脂肪体cyt-P450与4种标准配基形成的差光谱与对照相比在峰型上存在着不同程度的差异。中肠cyt-P450与正丁醇形成双峰双谷的光谱;脂肪体cyt-P450与正丁醇形成的光谱最大吸收峰在416.61 nm处,波谷在424.91 nm处;中肠cyt-P450和脂肪体cyt-P450与吡啶形成的光谱为典型的Ⅱ型光谱,而与环己烷形成的光谱为不典型Ⅰ型光谱;中肠和脂肪体的cyt-P450与苯胺形成典型的Ⅱ型光谱,最大吸收峰分别在443.30和428.92 nm处,最小吸收分别在402.30和401.00 nm处。     

Enhancement of 7-methoxyresorufin O-demethylation activity of human cytochrome P450 1A2 by molecular breeding

Alkylresorufins are model substrates for cytochrome P450 (P450) 1A2. The ability of human P450 1A2 to catalyze 7-methoxyresorufin O-demethylation was improved by screening of random mutant libraries (expressed in Escherichia coli) on the basis of 7-methoxyresorufin O-demethylation. After three rounds of mutagenesis and screening, the triple mutant E163K/V193M/K170Q yielded a kcat > five times faster than wild type P450 1A2 in steady-state kinetic analysis using either isolated membrane fractions or purified, reconstituted enzymes. The enhanced catalytic activity was not attributed to changes in substrate affinity. The kinetic hydrogen isotope effect of the triple mutant did not change from wild type enzyme and suggests that C-H bond cleavage is rate-limiting in both enzymes. Homology modeling, based on an X-ray structure of rabbit P450 2C5, suggests that the locations of mutated residues are not close to the substrate binding site and therefore that structural elements outside of this site play roles in changing the catalytic activity. This approach has potential value in understanding P450 1A2 and generating engineered enzymes with enhanced catalytic activity.     

Role of cytochrome b5 in catalysis by cytochrome P450 2B4

Cytochrome b5 has been shown to stimulate, inhibit or have no effect on catalysis by P450 cytochromes. Its action is known to depend on the isozyme of cytochrome P450, the substrate, and experimental conditions. Cytochrome P450 2B4 (CYP 2B4) has been used in our laboratory as a model isozyme to study the role of cytochrome b5 in cytochrome P450 catalysis using two substrates, methoxyflurane and benzphetamine. One substrate is the volatile anesthetic, methoxyflurane, whose metabolism is consistently markedly stimulated by cytochrome b5. The other is benzphetamine, whose metabolism is minimally modified by cytochrome b5. Determination of the stoichiometry of the metabolism of both substrates showed that the amount of product formed is the net result of the simultaneous stimulatory and inhibitory actions of cytochrome b5 on catalysis. Site-directed mutagenesis studies revealed that both cytochrome b5 and cytochrome P450 reductase interact with cytochrome P450 on its proximal surface on overlapping but non-identical binding sites. Comparison of the rate of reduction of oxyferrous CYP 2B4 and the rate of substrate oxidation by cyt b5 and reductase with stopped-flow spectrophotometric and rapid chemical quench experiments has demonstrated that although cytochrome b5 and reductase reduce oxyferrous CYP 2B4 at the same rate, substrate oxidation proceeds more slowly in the presence of the reductase.     

The interaction of microsomal cytochrome P450 2B4 with its redox partners, cytochrome P450 reductase and cytochrome b(5)

Cytochrome P450 2B4 is a microsomal protein with a multi-step reaction cycle similar to that observed in the majority of other cytochromes P450. The cytochrome P450 2B4-substrate complex is reduced from the ferric to the ferrous form by cytochrome P450 reductase. After binding oxygen, the oxyferrous protein accepts a second electron which is provided by either cytochrome P450 reductase or cytochrome b₅. In both instances, product formation occurs. When the second electron is donated by cytochrome b₅, catalysis (product formation) is ∼10- to 100-fold faster than in the presence of cytochrome P450 reductase. This allows less time for side product formation (hydrogen peroxide and superoxide) and improves by ∼15% the coupling of NADPH consumption to product formation. Cytochrome b₅ has also been shown to compete with cytochrome P450 reductase for a binding site on the proximal surface of cytochrome P450 2B4. These two different effects of cytochrome b₅ on cytochrome P450 2B4 reactivity can explain how cytochrome b₅ is able to stimulate, inhibit, or have no effect on cytochrome P450 2B4 activity. At low molar ratios (<1) of cytochrome b₅ to cytochrome P450 reductase, the more rapid catalysis results in enhanced substrate metabolism. In contrast, at high molar ratios (>1) of cytochrome b₅ to cytochrome P450 reductase, cytochrome b₅ inhibits activity by binding to the proximal surface of cytochrome P450 and preventing the reductase from reducing ferric cytochrome P450 to the ferrous protein, thereby aborting the catalytic reaction cycle. When the stimulatory and inhibitory effects of cytochrome b₅ are equal, it will appear to have no effect on the enzymatic activity. It is hypothesized that cytochrome b₅ stimulates catalysis by causing a conformational change in the active site, which allows the active oxidizing oxyferryl species of cytochrome P450 to be formed more rapidly than in the presence of reductase.     

Enzymatic and immunological evidences that phenobarbital induces cytochrome P 450 in fetal and neonatal rat liver

Some characteristics of the liver monooxygenase system were investigated in near-term, newborn and adult rats. When cytochromes P 450 were separated by chromatography on DEAE cellulose, the fraction eluted by NaCl was not significantly increased by transplacental phenobarbital treatment as it is in adult treated animals, but exhibited reconstituted enzyme activities and immunological characteristics qualitatively similar to those of phenobarbital-treated adults. This inductive effect was more acute in 5-d-old newborns and finally in adults. Thus, the mechanism responsible for the induction of cytochrome P 450 by phenobarbital is present but not very active in rat fetuses, and exhibits a rapid development after birth.     

Effects of three insecticides on the expression of cytochrome P450 CYP6B7 in Helicoverpa armigera

Cytochrome P450 genes can be induced by xenobiotics, which may contribute to insect's adaptability to the environments and resistance to insecticides. Previous studies indicated that cytochrome P450 CYP6B7 played a vital role in the resistance of Helicoverpa armigera to fenvalerate. However, effects of different insecticides on the expression of CYP6B7 in H. armigera are still unclear. In this study, resistance level of H. armigera to six insecticides was determined by topical application method, and effects of fenvalerate, phoxim and indoxacarb on the expression of CYP6B7 in susceptible (HDS) and fenvalerate-resistant (BJR) strains of H. armigera were evaluated by RT-qPCR. The results showed that BJR strain had an extremely high level of resistance to fenvalerate (1990.57-fold), and the induction of CYP6B7 in different tissues of BJR strain was significantly higher than that of HDS strain after exposure to fenvalerate for 24 and 48 hr. The highest induction level by fenvalerate was observed in the midgut, which were 13.7-fold in HDS strain and 127.9-fold in BJR strain at 24 and 48 hr, respectively. After exposure to phoxim, the expression level of CYP6B7 in HDS and BJR strains was induced by 2.3- and 316.8-fold at 24 hr, respectively. It is worth to note that CYP6B7 could be induced by phoxim at different time points in BJR strain, but only induced at 24 and 72 hr in HDS strain. After indoxacarb exposure, the expression of CYP6B7 was induced by 1.6-fold at 72 hr in BJR strain, whereas it was induced at 24 and 48 hr in HDS strain. These results demonstrated that the expression level of CYP6B7 could be induced by fenvalerate, phoxim and indoxacarb, but the induction time and levels varied; moreover, the induction in BJR strain was markedly higher than that in HDS strain after exposure to fenvalerate and phoxim.     

Spin equilibrium relaxation kinetics of cytochrome P450 LM2

The relaxation kinetics of the temperature-dependent spin equilibrium of cytochrome P450 LM2 has been resolved by means of a laser temperature-jump device. The Nd laser system in the Q-switched mode delivers 3 J/25 ns pulses which were Raman shifted to 1.89 μm by use of a high pressure H₂-gas cell. The LM2 equilibrium relaxation proceeds in the ns-range, the rate constants of the on- and off-reactions amount to about 10⁶ s^?1 in correspondence with respective processes of other hemoproteins and protein-free model compounds. Benzphetamine increases the on-rate constant (low-spin → high-spin) about 5 fold, the off-process is nearly unchanged.     

Tomato cytochrome P450 CYP734A7 functions in brassinosteroid catabolism

Several cytochrome P450 monooxygenases (P450s) catalyze essential oxidative reactions in brassinosteroid (BR) biosynthesis as well as in BR catabolism; however, only limited information exists on the P450s involved in the BR catabolic pathway. Here, we report the characterization of two P450 mRNAs, CYP734A7 and CYP734A8, from Lycopersicon esculentum. These P450s show high homology with Arabidopsis CYP734A1/BAS1 (formerly CYP72B1), which inactivates BRs via C-26 hydroxylation. Transgenic tobacco plants that constitutively overexpressed CYP734A7 showed an extreme dwarf phenotype similar to BR deficiency. Quantitative gas chromatography-mass spectrometry analysis of endogenous BRs in the transgenic plants showed that the levels of castasterone and 6-deoxocastasterone significantly decreased in comparison with those in wild-type plants. By measuring the Type I substrate-binding spectra using recombinant CYP734A7, the dissociation constants for castasterone, brassinolide, and 6-deoxocastasterone were determined to be 6.7, 12, and 12 microM, respectively. In an in vitro assay, CYP734A7 was confirmed to metabolize castasterone to 26-hydroxycastasterone. In addition, 28-norcastasterone and brassinolide were converted to the hydroxylated products. The expression of CYP734A7 and CYP734A8 genes in tomato seedlings was upregulated by exogenous application of bioactive BRs. These results indicated that CYP734A7 is a C-26 hydroxylase of BRs and is likely involved in BR catabolism in tomato. The presence of the CYP734A subfamily in various plant species suggests that oxidative inactivation of BRs by these proteins is a widespread phenomenon in plants.     

Cooperativity of cytochrome P450 1A2: interactions of 1,4-phenylene diisocyanide and 1-isopropoxy-4-nitrobenzene

Homotropic cooperativity of 1-alkoxy-4-nitrobenzene substrates and also their heterotropic cooperative binding interactions with the iron ligand 1,4-phenylene diisocyanide (Ph(NC)₂) had been demonstrated previously with rabbit cytochrome P450 (P450) 1A2 [G.P. Miller, F.P. Guengerich, Biochemistry 40 (2001) 7262-7272]. Multiphasic kinetics were observed for the binding of Ph(NC)₂ to both ferric and ferrous P450 1A2, including relatively slow steps. Ph(NC)₂ induced an apparently rapid change in the circular dichroism spectrum, consistent with a structural change, but had no effect on tryptophan fluorescence. Ph(NC)₂ binds the P450 iron in both the ferric and ferrous forms; ferric P450 1A2 was reduced rapidly in the absence of added ligands, and the rate was attenuated when Ph(NC)₂ was bound. No oxidation products of Ph(NC)₂ were detected. Docking studies with a rabbit P450 1A2 homology model based on the published structure of a human P450 1A2·α-naphthoflavone (αNF) complex indicated adequate room for a complex with either two 1-isopropoxy-4-nitrobenzene molecules or a combination of one 1-isopropoxy-4-nitrobenzene and one Ph(NC)₂; in the case of αNF no space for an extra ligand was available. The patterns of homotropic cooperativity seen with 1-alkoxy-4-nitrobenzenes (biphasic plots of v vs. S) differ from those seen with polycyclic hydrocarbons (positive cooperativity), suggesting that only with the latter does the ligand interaction produce improved catalysis. Consistent with this view, Ph(NC)₂ inhibited the oxidation of 1-isopropoxy-4-nitrobenzene and other substrates.     

Anatomical distribution of NADPH-cytochrome P450 reductase and cytochrome P4502D forms in rat brain: Effects of xenobiotics and sex steroids

Since the brain is not a homogeneous organ, but one dependent upon the well orchestrated interaction of numerous parts, pathology in one nucleus may have a large impact upon its overall function. Hence, the anatomical distribution of the P450 monoxygenase system in brain, as well as the regulation of its expression, is important in elucidating its function in that organ. In order to study these issues, female rats-both ovariectomized and not-were treated with a number of xenobiotic compounds and sex steroids. The brains from these animals were dissected into 8 discrete regions and the presence and relative level of message for P4502D and P450 reductase determined using polymerase chain reaction. Results of this investigation indicate the presence of mRNA for reductase and P4502D isoforms throughout the rat brain. In addition, quantitative PCR was utilized to demonstrate the effects of xenobiotics (phenobarbital, β-naphthoflavone, imipramine) and sex hormones (testosterone, estrogen) on the levels of these messages in the female rat brain. Significant induction of message for P4502D forms was noted with testosterone in the absence of estrogen. The level of mRNA for reductase was not significantly influenced by any of the treatments, however. These results raise the issue of a sexual dimorphism in the rat regarding P4502D expression in brain.     

Cross-linking of human cytochrome P450 2B6 to NADPH-cytochrome P450 reductase: Identification of a potential site of interaction

The site(s) of interaction between human cytochrome P450 2B6 and NADPH-cytochrome P450 reductase (P450 reductase) have yet to be identified. To investigate this, the cross-linking agent 1-ethyl-3-[3-dimethylaminopropyl]carbodiimide hydrochloride (EDC) was used to covalently link P450 2B6-P450 reductase. Following digestion with trypsin, the cross-linked peptides were identified by reconstituting the peptides in ¹⁸O-water based on the principle that the cross-linked peptides would be expected to incorporate twice as many ¹⁸O atoms as the non-cross-linked peptides. Subsequent mass spectrometric analyses of the resulting peptides led to the identification of one cross-linked peptide candidate. De novo sequencing of the peptide indicated that it is a complex between residues in the C-helix of the P450 (based upon solved X-ray crystal structures of P450 2B4) and the connecting domain of the P450 reductase. To confirm this experimentally, the P450 2B6 peptide identified through the cross-linking studies was synthesized and peptide competition studies were performed. In the presence of the synthetic peptide, P450 catalytic activity was decreased by up to 60% when compared to competition studies performed using a nonsense peptide. Taken together, these studies indicate that residues in the C-helix of P450 2B6 play a major role in the interaction with the P450 reductase.     

Measurement of immunoreactive cytochrome P450 2E1 in human leucocytes

We describe initial results on a Western blotting method, using a ployclonal antibody and chemiluminescence detection, for the measurement of cytochrome P450 2E1 in human lymphocytes. The method has been used to study the levels of 2E1 in lymphocytes isolated from 5 ml blood samples collected from a small group of well-controlled type 1 diabetics and healthy individuals. The described method offers increased sensitivity compared with a previously published method and does not need in vitro culturing of the lymphocytes prior to 2E1 measurement. The apparent molecular weight of the lymphocyte P450 2E1 was 55 kDa. There was approximately a six-fold difference in expression levels of 2E1 detected by this immunochemical technique across the study population.     

Measurement of immunoreactive cytochrome P450 2E1 in human leucocytes

We describe initial results on a Western blotting method, using a ployclonal antibody and chemiluminescence detection, for the measurement of cytochrome P450 2E1 in human lymphocytes. The method has been used to study the levels of 2E1 in lymphocytes isolated from 5 ml blood samples collected from a small group of well-controlled type 1 diabetics and healthy individuals. The described method offers increased sensitivity compared with a previously published method and does not need in vitro culturing of the lymphocytes prior to 2E1 measurement. The apparent molecular weight of the lymphocyte P450 2E1 was 55 kDa. There was approximately a six-fold difference in expression levels of 2E1 detected by this immunochemical technique across the study population.     

Synthetic peptide mimics of a predicted topographical interaction surface: the cytochrome P450 2B1 recognition domain for NADPH-cytochrome P450 reductase

In order to identify the cytochrome P450-binding domain for NADPH-cytochrome P450 reductase, synthetic peptide mimics of predicted surface regions of rat cytochrome P450 2B1 were constructed and evaluated for inhibition of the P450-reductase interaction. A peptide corresponding to residues 116–134, which includes the C helix, completely inhibited reductase-mediated benzphetamine demethylation by purified P450 2B1. Replacement of Arg-125 by Glu yielded a noninhibitory peptide, suggesting that this residue significantly contributes to the reductase-P450 interaction. Additional P450 peptides were prepared which correspond to combinations of regions distant in primary sequence, but predicted to be spatially proximate. A peptide derived from segments of the C and L helices was a more potent inhibitor than peptides derived from either segment alone. This topographically designed peptide not only inhibited P450 2B1 in its purified form, but also when membrane-bound in rat liver microsomes. The peptide also inhibited microsomal aryl hydrocarbon hydroxylase, aniline hydroxylase, and erythromycin demethylase activities derived from other P450s. These results indicate that the C and L helices contribute to a reductase-binding site common to multiple P450s, and present a peptide mimic for this region that is useful for inhibition of P450-mediated microsomal activities.     

Hepatic cytochrome P450 2B induction by ethyl/ phenyl-substituted congeners of phenobarbital in the B6C3F1 mouse

The abilities of structural congeners of phenobarbital to induce immunoreactive hepatic cytochrome P450 2B (CYP2B) protein and associated catalytic activity (benzyloxyresorufin O-dealkylation) in the male B6C3F1 mouse were examined. Interspecies differences in inducing ability were examined through comparison of the results with induction data obtained previously with the male F344/NCr rat. The congeners were administered in the diet for 2 weeks at concentrations equimolar to 500 ppm of the prototype CYP2B inducer, phenobarbital. Of the series of compounds tested, phenobarbital was the most effective inducer of benzyloxyresorufin O,-dealkylation and immunoreactive CYP2B protein, with 2-ethyl-2-phenylsuccinimide, 5-ethyl-5-phenylhydantoin, primidone, and glutethimide being only 19–42% as effective. 5-Ethyl-5-phenyloxazolidinedione and the ring-opened and decarboxylated congeners, N-(2-ethyl-2-phenylacetyl)urea and 2-ethyl-2-phenyl-malonamide, displayed minimal induction of these catalytic activities. Dose-response experiments performed with 5-ethyl-5-phenylhydantoin indicated that the intrinsic CYP2B-inducing activity of this congener was as great as that of phenobarbital in the mouse, although a fourfold greater dietary concentration of this hydantoin (2000 ppm) was required to elicit a response equivalent to that caused by 500 ppm phenobarbital. When extent of induction was related to serum total xenobiotic concentration rather than to administered dietary concentration, the potencies of the two congeners were determined to be more similar (58 vs. ≥78 μ M for phenobarbital and 5-ethyl-5-phenylhydantoin, respectively).