Effect of decursinol angelate on the pharmacokinetics of theophylline and its metabolites in rats

Herb-drug interactions represent a serious problem as herbal medicine is used extensively in the modern world. This study investigated the effects of decursinol angelate on the pharmacokinetics of theophylline, a typical substrate of the cytochrome P450 1A2 enzyme, in rats. After 3 days of decursinol angelate pretreatment, on the fourth day, rats were administered decursinol angelate and theophylline concomitantly. Blood theophylline and its major metabolite [1-methylxanthine (1-MX), 3-methylxanthine (3-MX), 1-methyluric acid (1-MU), and 1,3-dimethyluric acid (1,3-DMU)] levels were monitored by liquid chromatography-tandem mass spectroscopy. The results indicated that theophylline clearance significantly decreased and the area under the concentration–time curve (AUC) increased in decursinol angelate (25 mg/kg)-pretreated rats administered theophylline (10 mg/kg). The elimination half-life (t1/2) of theophylline was increased by 20%. In the presence of decursinol angelate (25 mg/kg), the pharmacokinetic parameters of three metabolites (1-MX, 1,3-DMU, and 1-MU) were significantly altered (half-life for 1-MU, and AUC24 h for 1-MX, 1,3-DMU, and 1-MU). Our results suggest that patients receiving CYP1A2-metabolized drugs, such as caffeine and theophylline, should be advised of the potential herb-drug interaction to reduce the risk of therapeutic failure or increased toxicity of conventional drug therapy.     

Effect of fluconazole on theophylline disposition in humans

The effect of fluconazole, an antimycotic that inhibits cytochrome P-450-mediated drug metabolism, on theophylline kinetics and the production of its metabolites were compared with those of enoxacin in 5 healthy subjects. All subjects received a single oral dose of 240 mg theophylline (aminophylline, 300 mg) after they had been given oral fluconazole 100 mg every 12 h or enoxacin 200 mg every 8 h for three consecutive days.Pretreatment with enoxacin decreased the total clearance (CL_T) and elimination rate constant (K_el) of theophylline by 50% and 46%, respectively, without changing the volume of distribution (V_d), but there were no significant change in any pharmacokinetic parameter when fluconazole was administered. Enoxacin led to a 50% reduction in the metabolic clearance (CL_M) of theophylline and to decreases of 69%, 59% and 38% in the formation clearance of the three theophylline metabolites, 3-methylxanthine (3-MX), 1-methyluric acid (1-MU), and 1,3-dimethyluric acid (1,3-DMU), respectively, accompanied by significant changes in the urinary recovery of theophylline and its metabolites. In contrast, treatment with fluconazole led only to a slight decrease in the CL_M of theophylline (16%) and in the formation clearance of its metabolites (15%–18%), and there was no change in the renal clearance (CL_R) of theophylline.The results indicate that fluconazole is a minor inhibitor of theophylline disposition compared with enoxacin, and they suggest that the inhibitory action of fluconazole is selective for certain cytochrome P-450 isozymes, but not for the cytochrome P-4501A involved in theophylline metabolism.     

Renal clearance of theophylline and its major metabolites: Age and urine flow dependency in paediatric patients

Summary The renal clearance of theophylline (TH) and its metabolites 1,3-dimethyluric acid (1,3-DMU), 3-methylxanthine (3-MX), and 1-methyluric acid (1-MU) has been studied in 10 children aged 8 months to 14 years. Individual renal clearances were calculated from serum levels and amounts excreted in urine after i.v. administration of the parent drug. The clearance of 1,3-DMU was found to depend both upon urine flow rate and age, which are interrelated. An effect of urinary pH was expected, but was not studied. Consistent age-dependent changes in the relative quantities of metabolites excreted were not observed.     

Theophylline steady state pharmacokinetics is not altered by omeprazole

Summary The effect of omeprazole treatment on theophylline pharmacokinetics was studied in eight, non-smoking healthy male volunteers during repeated administration of a slow release formulation of theophylline. In a randomized double-blind cross-over study, the subjects received theophylline 5 mg·kg^–1 per day with omeprazole 20 mg per day or identical placebo during two periods, each of 7 days, separated by a washout period of 7 days.The oral clearance of theophylline remained unchanged whether it was administered alone or with omeprazole (54.2 ml·min^–1). The average urinary excretion of theophylline and its metabolites, 1,3 dimethyluric acid (1,3-DMU), 3-methylxanthine (3-MX), 1-methyluric acid (1-MU) amounted to 9%, 32%, 12% and 22% of the administered dose, respectively, and no significant change occured during concomitant treatment with omeprazole.Thus, the formation and clearance of the metabolites was not altered by omeprazole. Consequently, omeprazole in the recommended dose of 20 mg daily can safely be administered to patients on theophylline therapy.     

Theophylline metabolism by human, rabbit and rat liver microsomes and by purified forms of cytochrome P450

The capacity of human, rabbit and rat liver microsomes and purified isozymes of cytochrome P450 to metabolize theophylline has been assessed. In all three species the 8-hydroxylation of theophylline to 1,3-dimethyluric acid (1,3-DMU) was the major pathway. In human, control rabbit and rat liver microsomes this metabolite accounted for 59, 77 and 94%, respectively, of the total metabolites formed. In both human and control rabbit liver microsomes the N-demethylation of theophylline to 1-methylxanthine (1-MX) accounted for 20% of the total metabolites formed. N-demethylation of theophylline to 3-methylxanthine (3-MX) accounted for 21% of theophylline metabolism in human microsomes but was a minor pathway in control rabbit and rat microsomes. Acetone and phenobarbitone pretreatment markedly increased the formation of 1,3-DMU by rabbit liver microsomes. Rifampicin and 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) administration caused a slight but significant increase in this pathway. In general the N-demethylation pathways in rabbit liver microsomes were refractory to induction. In the rat, the metabolism of theophylline to 1-MX, 3-MX and 1,3-DMU were all significantly increased in Aroclor 1254, dexamethasone, phenobarbitone and 3-methylcholanthrene-treated microsomes. In reconstitution experiments the polycyclic hydrocarbon inducible rabbit cytochrome P450 Forms 4 and 6 and the constitutive Form 3b all metabolized theophylline to its three metabolites. In human liver microsomes from four subjects anti-rabbit cytochrome P450 Form 4 IgG inhibited the metabolism of theophylline to 1-MX, 3-MX and 1,3-DMU by approximately 30%. These data indicate that theophylline is metabolized by multiple forms of cytochrome P450 in human, rabbit and rat liver microsomes.     

Correlation Between In Vivo Antipyrine Metabolite Formation and Theophylline Metabolism in Rats

Two model substrates for oxidative hepatic enzyme activity, viz. antipyrine (A) and theophylline (T), were given simultaneously to rats by iv administration. Blood concentrations of A and T were measured by a high-performance liquid chromatographic (HPLC) method. Urinary excretions of A, T, and the major metabolites arising from A—4-hydroxyantipyrine (OHA), norantipyrine (NORA), 3-hydroxymethylantipyrine (HMA), and 4,4-dihydroxyantipyrine (DOHA)—and from T—1-methyluric acid (1-MU) and 1,3-dimethyluric acid (1,3-DMU)—were also determined by HPLC. It was found that the pharmacokinetic parameters obtained after the simultaneous administration of A and T at relatively low dose levels (A, 5.0 mg; and T, 1.3 mg) were not different from those obtained after the separate administration of A or T at the same dose level. In order to investigate whether the metabolic pathways of A and T are mediated by the same or closely related forms of the cytochrome P-450 system, metabolic clearances of A (CL_A,M) and T (CL_T,M) and the clearances for production of their various metabolites, obtained in untreated rats and in rats pretreated with 3-methylcholanthrene (MC) or with MC followed by 9-hydroxyellipticine (E), were correlated. These two compounds are a selective cytochrome P-448 inducer and inhibitor, respectively. Strong correlations were found between CL_T,M and the clearances for production of OHA, NORA, and DOHA but not HMA. The best correlation, however, was observed between CL_T,M and CL_OHA, not only when all data points were taken into account (r = 0.99), but also in separate pretreatment groups (r ranging from 0.87 to 0.92). Moreover, the slopes of these correlation lines varied only slightly among groups, while the intercepts were not significantly different from zero. In the separate pretreatment groups, the correlation coefficients for the correlations between CL_T,M and the clearance for production of the other metabolites of A were considerably lower, while the slopes of the correlation lines varied substantially. Clearances for production of the metabolites of T were strongly correlated with each other (r = 0.99) and with CL_OHA (r = 0.95). It can be concluded that theophylline metabolism and formation of OHA are mediated by the same or very similar forms of cytochrome P-450, whereas formation of the other major metabolites of A is not or only partly. The study of the various pathways of metabolism after simultaneous administration of drugs is a powerful tool in the study of correlations in drug metabolism in vivo.     

Dose dependent pharmacokinetics of theophylline: Michaelis-Menten parameters for its major metabolic pathways.

Dose Dependency for pharmacokinetics of theophylline and the formation of its major metabolites, 3-methylxanthine (3-MX); 1-methyluric acid (1-MU); 1,3-dimethyluric acid (DMU), were examined by administering three single oral doses (250, 375, 500 mg) of theophylline to six healthy adult volunteers. The serum and urine concentrations of theophylline and the metabolites in serum and urine were determined by high-performance liquid chromatography. Total clearance of theophylline decreased and its half life increased over the range of doses administered (p<0.01). There was a significant dose related decrease in the fractional recovery of 3-MX and 1-MU (p<0.001) and a dose related increase in fractional excretion of DMU and unchanged theophylline (p<0.01 and p<0.001 respectively). No significant dose related changes were observed in the renal clearance of 3-MX, 1-MU and DMU, indicating linear urinary excretion kinetics of the metabolites. Theophylline metabolic clearance to 3-MX as well as to 1-MU decreased with increasing dose but clearance to DMU remained unnaffected by the size of dose. The individual Michaelis-Menten parameters Km and Vmax were estimated for six subjects receiving three different single doses. The Km values for theophylline metabolism to 3-MX, 1-MU and DMU were 2.4+/-0.6, 5.1+/-1.8+/- and 112.3+/-36.8 mg/L respectively and the Vmax values were 3.5+/-0.7, 7.5+/-2.6 and 112.3+/-36.8 mg/hr respectively. The Km values for the N-demethylation pathways (3MX and 1-MU) were lower corresponding to therapeutic serum concentrations of drug. These results suggest that the elimination kinetics of theophylline is nonlinear in the human in the therapeutic range of serum concenntrations and can be explained by saturable formation kinetics of 3-MX and 1-MU. In contrast to previous studies we didn't find obvious indication for nonlinear formation of DMU at therapeutic concentration range.     

反相HPLC法同时测定人尿中茶碱及其两种代谢产物

目的:建立一种同时测定人尿中茶碱及其1,3-二甲基尿酸(1,3-DMU)和3-甲基噻嗪(3-MX)代谢产物的HPLC方法.方法:尿样用异丙醇/二氯甲烷(2/8)混合液提取,有机相在空气吹干,用流动相复溶后进行HPLC分析.色谱柱为Diamonsil ODS C_(18)5 μm,150 mm×4.6 mm I.D),流动相由0.1%甲酸液和乙腈(95:5)组成,流速1.0 mL/min,测定波长280 nm.测定12名受试者单剂量和多剂量口服茶碱后24 h内尿中茶碱及其代谢物累计排泄量.结果:尿中茶碱及其代谢物1,3 DMU和3-MX的线性范围分别为0.312～40.0、0.156～20.0、0.078～10.μg/mL,最低可定量浓度分别为0.312、0.156、0.078μg/mL.批间和批内的变异小于15%,回收率大于70%.结论:该方法的特异性、灵敏度能够满足临床上对人尿中茶碱及其代谢产物同时测定的要求.     

Characterization of human liver cytochromes P-450 involved in theophylline metabolism.

Theophylline is metabolized in the liver by one or more cytochrome P-450 enzymes. To assess the amounts and types of these human cytochromes P-450, we incubated theophylline with microsomes prepared from 22 different human livers in the presence of NADPH, and measured simultaneous rates of 1- and 3-N-demethylations to 3-methylxanthine (3-MX) and 1-methylxanthine (1-MX), respectively; and 8-hydroxylation to 1,3-dimethyluric acid (1,3-DMU). Under optimal conditions, 3-MX, 1-MX, and 1,3-DMU formation proceeded with mean Km values of 2.05, 1.93, and 5.34 mM and Vmax values of 2.28, 2.48, and 23.4 pmol/mg/min, respectively. Formation of 3-MX and 1-MX correlated best with amounts of the immunoreactive protein HLd (P-450IA2) (p less than 0.05), whereas formation of 1,3-DMU correlated with the microsomal content of HLp (P-450IIIA3) and HLj (P-450IIE1). In immunoinhibition experiments, incubations conducted with a polyclonal anti-rat P-450c/d antibody, the formation of all the three theophylline metabolites (p less than 0.05) was significantly inhibited. However, addition of isoform-specific anti-rat-P-450d antibodies to the microsomal mixture significantly inhibited 1-N-demethylation, selectively, with little (if any) inhibition of 3-N-demethylation or 8-hydroxylation. Nonspecific cytochrome P-450 inhibition was ruled out by showing that erythromycin N-demethylation, an activity catalyzed by HLp, was unaffected by either anti-P-450c/d (P-450IA1/IA2) or anti-P-450d. Anti-rat-P-450p antibodies failed to block formation of theophylline metabolism, but did inhibit erythromycin N-demethylase.(ABSTRACT TRUNCATED AT 250 WORDS)     

Determination of theophylline and its metabolites in human urine by high-performance liquid chromatography

High-performance liquid chromatographic method with UV detection was developed for the determination of theophylline and its metabolites, in human urine using β-hydroxyethyl theophylline (β-HET) as an internal standard. For extraction of urine sample, quality control sample and xanthine-free blank urine were mixed with decylamine (ion-paring reagent) and β-HET. After saturation with ammonium sulfate, the mixture was then extracted with organic solvent at pH values of 4.0∼4.5. All separations were performed with ion-pair chromatography using decylamine as an ion-pairing reagent and 3 mM sodium acetate buffered mobile phase (pH 4.0) containing 1% (v/v) acetonitrile and 0.75 mM decylamine. The detection limits of theophylline, 1,3-DMU, 1-MU, 3-MX and 1-MX in human urine were 0.17, 0.17, 0.39, 0.19 and 0.19 μg/ml, based on a signal-to-noise ratios of 3.0. The mean intraday coefficients of variation (C.V.s) of each compound on nine replicates were lower than 2.0%, while mean interday C.V.s on three days were lower than 1.6%. All separations were finished within 40 minutes.     

Associations between CYP2E1 promoter polymorphisms and plasma 1,3-dimethyluric acid/theophylline ratios

Objective Theophylline is metabolized to 1,3-dimethyluric acid (1,3-DMU), 3-methylxanthine, and 1-methylxanthine by CYP1A2 and partly by CYP2E1. Because 1,3-DMU is the major metabolite of theophylline, the 1,3-DMU/theophylline ratio is viewed as a good indicator of theophylline metabolic clearance. Here, we investigated the associations between 1,3-DMU/theophylline ratios and genetic polymorphisms of CYP2E1 and CYP1A2.Methods Polymerase chain reaction (PCR) and direct sequencing or PCR-restriction fragment length polymorphism (RFLP) were performed to analyze CYP2E1 and CYP1A2 promoter polymorphisms in 62 Korean asthma patients. Plasma theophylline and 1,3-DMU levels were measured by liquid chromatography-tandem mass spectrometry.Results Eleven polymorphisms including Ins₉₆, −1566 T>A, −1515 T>G, −1414 C>T, −1295 G>C, −1055 C>T, −1027 T>C, −930 A>G, −807 T>C, −352 A>G, and −333 T>A were detected in the 5′ flanking region of the CYP2E1 gene (numbering according to GenBank Accession number NT_017795). Of these, five single nucleotide polymorphisms (SNPs) (−1566 T>A, −1295 G>C, −1055 C>T, −1027 T>C, and −807 T>C) were closely linked. Another three polymorphisms (Ins_96, −930 A>G, and −352 A>G) and two polymorphisms (−1515 T>G and −333 T>A) were also closely linked. The five closely linked polymorphisms were associated with significantly different 1,3-DMU/theophylline ratios between heterozygotes plus homozygotes of a rare allele (n=23, 0.0368±0.0171) and common allelic homozygotes (n=39, 0.0533±0.0343) (p=0.024 by Mann-Whitney U test). In the CYP1A2 gene, the −2964G>A polymorphisms exhibited a significant difference in 1,3-DMU/theophylline levels between heterozygotes plus homozygotes of a rare allele (n=30, 0.0406±0.0272) and homozygotes of a common allele (n=32, 0.0534±0.0316) (p=0.032).Conclusion We confirm that hydroxylation at the 8 position of theophylline (1,3-DMU) is significantly affected by genetic polymorphism in CYP2E1 in addition to CYP1A2.     

Effects of enoxacin, ofloxacin and norfloxacin on theophylline disposition in humans

Summary The effect of three new fluoroquinolones on theophylline kinetics and the urinary excretion of metabolites was studied in 5 healthy subjects (3 male, 2 female).All subjects received serial, single i.v. infusions of theophylline (aminophylline, 250 mg) over 60 min after 200 mg doses of a quinolone (enoxacin, ofloxacin, norfloxacin) every 8 h for 3 consecutive days, the quinolone being administered up to the day following theophylline administration.Pretreatment with ofloxacin and norfloxacin did not influence theophylline disposition, but theophylline clearance fell from 0.054 to 0.027 l·h^–1·kg^–1 in the presence of enoxacin, without a change in the apparent volume of distribution. Enoxacin, too, was the sole compound to increase the urinary excretion of theophylline (33.2 vs 43.9 mg, before vs after treatment), and significantly to decrease the excretion of 3-methylxanthine (3-MX), 1-methyluric acid (1-MU) and 1,3-dimethyluric acid (1,3-DMU) in 24-h urine samples (from 19.8 to 7.16 mg, from 28.3 to 10.3 mg and from 68.8 to 49.5 mg, respectively). The effect of the quinolones on hepatic drug metabolizing enzyme activity was investigated in each subject using the ratios of 6-hydroxycortisol to total 17-hydroxycorticosteroids and to free cortisol in 24-h urines as an index of the hepatic P-450-dependent enzyme system. No significant difference in ratio was observed between control and other treatments. It is concluded that the theophylline-enoxacin interaction was largely due to inhibition of a metabolic system other than the common hepatic P-450 system.     

Kinetics of hepatic transport of 4-methylumbelliferone in rats. Analysis by multiple indicator dilution method

Hepatic elimination of 4-methylumbelliferone (4MU), which has been used as a model compound for conjugative metabolism, was studied by means of a multiple indicator dilution (MID) method in the isolated perfused rat liver. Using this method, three intrinsic hepatic clearances, CL _int,inf , CL _{int,eff, and} CL _{int,seq, which represent the influx, efflux, and sequestration processes, respectively, were obtained. When the dose was increased from a low dose (50 g/rat liver) to a high dose (3000 g/rat liver), the hepatic availability of 4MU increased from 0.11 to 0.73. With increasing dose, the} CL _{int,eff value increased approximately two times, while the} CL _{int,seq value decreased to approximately one-third. The remarkable dose dependence of hepatic availability was due to nonlinearity in both} CL _{int,eff and} CL _{int,seq values. However, the} CL_int,inf value was almost independent of dose. The dose-dependent change in CL_int,seq might be explained by the saturation of conjugative metabolism of 4-MU, while the increase in the CL _{int,eff value with increasing dose might be partly explained by the nonlinear tissue binding of 4-MU, since the tissue unbound fraction determined by an ultrafiltration method using liver homogenate increased approximately 1.5 times at higher concentration of 4-MU compared to that at lower concentrations. In addition, based on a comparison of the individual intrinsic clearances, i.e.}, CL _int,inf , CL _{int,eff, and} CL _{int,seq, the major determining process of the apparent hepatic intrinsic clearance of 4MU is thought to be the sequestration process at the high dose. However, at the low dose, the membrane transport process (influx and efflux processes) as well as the sequestration process also determine the apparent hepatic intrinsic clearance}.     

Nonlinear metabolic disposition of theophylline

Eleven healthy volunteers were given maintenance treatment with oral theophylline in increasing doses (210-1,260 mg/day). Seven subjects took four different doses, three subjects took three doses and one subject discontinued treatment after only two doses. Plasma and urine were collected during a dose interval at steady state. Theophylline in plasma and urine and metabolites in urine (1-methyluric acid, 1-MU; 3-methylxanthine, 3-MX; 1,3-dimethyluric acid, DMU) were determined by high-performance liquid chromatography. Total clearance of theophylline as well as clearances to all three metabolic products (but not theophylline renal clearance) decreased with increasing dose. The individual Michaelis-Menten parameters Km and Vmax could be estimated for six subjects who took all four doses. Considerable interindividual variability in these parameters and particularly Km:s was found. The Km for overall elimination averaged 133 mumol/L (range 55-213 mumol/L) and the Vmax 611 mumol/h (2,640 mg/day; range 452-813 mumol/h). With regard to individual metabolic routes, the Km for theophylline metabolism to 1-MU was 88 +/- 41 (mean +/- SD) mumol/L and the Vmax was 110 +/- 15 mumol/h; the Km for metabolism to 3-MX was 90 +/- 37 mumol/L and the Vmax was 78 +/- 13 mumol/h; the Km for metabolism to DMU was 179 +/- 92 mumol/L and the Vmax was 357 +/- 122 mumol/h. The Km values for the N-demethylation pathways (1-MU and 3-MX) were significantly correlated (r = 0.95; p less than 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of water deprivation on the pharmacokinetics of theophylline and one of its metabolites, 1,3-dimethyluric acid, after intravenous and oral administration of aminophylline to rats

It has been reported that the expressions of hepatic microsomal cytochrome P450 (CYP) 1A1/2, 2B1/2 and 3A1/2 were not changed in rats with water deprivation for 72 h (rat model of dehydration) compared with the controls. It has been also reported that 1,3-dimethyluric acid (1,3-DMU) was formed from theophylline via CYP1A1/2 in rats. Hence, it could be expected that the formation of 1,3-DMU could be comparable between the two groups of rats. As expected, after both intravenous and oral administration of theophylline at a dose of 5 mg/kg to the rat model of dehydration, the AUC of 1,3-DMU was comparable to the controls. After both intravenous and oral administration of theophylline to the rat model of dehydration, the Cl(r) of both theophylline and 1,3-DMU was significantly slower than the controls. This could be due to significantly smaller urinary excretions of both theophylline and 1,3-DMU since the AUC of both theophylline and 1,3-DMU were comparable between the two groups of rats. The smaller urinary excretion of both theophylline and 1,3-DMU could be due to urine flow rate-dependent timed-interval renal clearance of both theophylline and 1,3-DMU in rats.     

Stereoselective degradation of metalaxyl and its enantiomers in rat and rabbit hepatic microsomes in vitro

1. The stereoselective degradations of racemate metalaxyl (rac-MX) and its single enantiomers in rat and rabbit hepatic microsomes were assayed by a chiral high-performance liquid chromatography method.

2. The t_1/2 of (+)-S-MX in rat liver microsomes was between 7–8?min tested by rac-MX and the individual (+)-S-enantiomer, respectively, and that for (?)-R-MX was 15–16?min. In contrast, t_1/2 in rabbit liver microsomes was much longer and showed great difference when using racemate and single enantiomer, which was similar to the results of in vivo study.

3. The enantioselectivity in rat hepatic microsomes was more evident and the degradations of MX enantiomers in rat and rabbit hepatic microsomes were Nicotinamide adenine dinucleotide phosphate-dependent.

4. Michaelis constant (K_m) and intrinsic metabolic clearance (CL_int) of (+)-S-MX were larger than that of (?)-R-MX and there was no chiral inversion from (+)-S-MX to (?)-R-MX or vice versa in both rat and rabbit hepatic microsomes.

     

Identification and relative contributions of human cytochrome P450 isoforms involved in the metabolism of glibenclamide and lansoprazole: evaluation of an approach based on the in vitro substrate disappearance rate

1.?The identification and relative contributions of human cytochrome P450 (CYP) enzymes involved in the metabolism of glibenclamide and lansoprazole in human liver microsomes were investigated using an approach based on the in vitro disappearance rate of unchanged drug.

2.?Recombinant CYP2C19 and CYP3A4 catalysed a significant disappearance of both drugs. When the contribution of CYPs to the intrinsic clearance (CL_int) of drugs in pooled human microsomes was estimated by relative activity factors, contributions of CYP2C19 and CYP3A4 were determined to be 4.6 and 96.4% for glibenclamide, and 75.1 and 35.6% for lansoprazole, respectively.

3.?CL_int of glibenclamide correlated very well with CYP3A4 marker activity, whereas the CL_int of lansoprazole significantly correlated with CYP2C19 and CYP3A4 marker activities in human liver microsomes from 12 separate individuals. Effects of CYP-specific inhibitors and anti-CYP3A serum on the CL_int of drugs in pooled human liver microsomes reflected the relative contributions of CYP2C19 and CYP3A4.

4.?The results suggest that glibenclamide is mainly metabolized by CYP3A4, whereas lansoprazole is metabolized by both CYP2C19 and CYP3A4 in human liver microsomes. This approach, based on the in vitro drug disappearance rate, is useful for estimating CYP identification and their contribution to drug discovery.     

Use of uptake intrinsic clearance from attached rat hepatocytes to predict hepatic clearance for poorly permeable compounds

1. We previously reported that the accuracy of clearance (CL) prediction could be differentiated by permeability. CL was drastically under-predicted by in vitro metabolic intrinsic clearance (CL_int) for compounds with low permeability (<5?×?10^?6 cm/s).

2. We determined apparent uptake CL_int by measuring initial disappearance from medium using attached rat hepatocytes and metabolic CL_int by measuring parent depletion in suspended rat hepatocytes (cells and medium).

3. Uptake and metabolic CL_int were comparable for highly permeable metabolic marker compounds. In contrast, uptake CL_int was 3- to 40-fold higher than metabolic CL_int for rosuvastatin, bosentan, and 15 proprietary compounds, which had low permeability, suggesting that uptake could be a rate-determining step in hepatic elimination for these poorly permeable compounds.

4. The prediction of hepatic CL was improved significantly when using uptake CL_int for the compounds with low permeability. The average fold error was 2.2 and 6, as opposed to >11 and >47 by metabolic CL_int, with and without applying a scaling factor of 4, respectively.

5. Uptake CL_int from attached hepatocytes can be used as an alternative approach to predict hepatic clearance and to understand the significance of hepatic uptake in elimination in an early drug discovery setting.

     

Characterizing the in vitro species differences in N-glucuronidation of a potent pan-PIM inhibitor GNE-924 containing a 3,5-substituted 6-azaindazole

1. Glucuronidation of amines has been shown to exhibit large species differences, where the activity is typically more pronounced in human than in many preclinical species such as rat, mouse, dog and monkey. The purpose of this work was to characterize the in vitro glucuronidation of GNE-924, a potent pan-PIM inhibitor, to form M1 using liver microsomes (LM) and intestinal microsomes (IM).

2. M1 formation kinetics varied highly across species and between liver and intestinal microsomes. In LM incubations, rat exhibited the highest rate of M1 formation (CL_int,app) at 140?±?10?µL/min/mg protein, which was approximately 30-fold higher than human. In IM incubations, mouse exhibited the highest CL_int,app at 484?±?40?µL/min/mg protein, which was >1000-fold higher than human. In addition, CL_int,app in LM was markedly higher than IM in human and monkey. In contrast, CL_int,app in IM was markedly higher than LM in dog and mouse.

3. Reaction phenotyping indicated that UGT1A1, UGT1A3, UGT1A9, UGT2B4 and the intestine-specific UGT1A10 contributed to the formation of M1.

4. This is one of the first reports showing that N-glucuronidation activity is significantly greater in multiple preclinical species than in humans, and suggests that extensive intestinal N-glucuronidation may limit the oral exposure of GNE-924.     

Comparison of intrinsic metabolic clearance in fresh and cryopreserved human hepatocytes

1. We compared the intrinsic clearance (CL_int) of a number of substrates in suspensions of fresh and cryopreserved human hepatocytes from seven donors.

2. CL_int values for a cocktail incubation of phenacetin, diclofenac, diazepam, bufuralol, midazolam, and hydroxycoumarin were 4.9?±?3.4, 18?±?7.2, 5.1?±?4.9, 6.3?±?3.3, 9.8?±?5.8 and 22?±?14?μl min^?1/10⁶ cells, respectively, and they correlated well with corresponding CL_int values using cryopreserved hepatocytes from 25 different donors.

3. CL_int values of each cocktail substrate and 20 AstraZeneca new chemical entities were compared in fresh and cryopreserved hepatocytes from the same three donors. There was a statistically significant correlation between CL_int in fresh and cryopreserved hepatocytes for each of the three livers (p?int values was 1.03.

4. In conclusion, the results add further support to the use of cryopreserved human hepatocytes as a screening model for the intrinsic clearance of new chemical entities.