Impact of curcumin-induced changes in P-glycoprotein and CYP3A expression on the pharmacokinetics of peroral celiprolol and midazolam in rats

The aim of this study was to evaluate whether curcumin could modulate P-glycoprotein (P-gp) and CYP3A expression, and in turn modify the pharmacokinetic profiles of P-gp and CYP3A substrates in male Sprague-Dawley rats. Intragastric gavage of the rats with 60 mg/kg curcumin for 4 consecutive days led to a down-regulation of the intestinal P-gp level. There was a concomitant upregulation of hepatic P-gp level, but the renal P-gp level was unaffected. Curcumin also attenuated the CYP3A level in the small intestine but induced CYP3A expression in the liver and kidney. Regular curcumin consumption also caused the C(max) and area under the concentration-time curve (AUC(0-8) and total AUC) of peroral celiprolol (a P-gp substrate with negligible cytochrome P450 metabolism) at 30 mg/kg to increase, but the apparent oral clearance (CL(oral)) of the drug was reduced. Similarly, rats treated with curcumin for 4 consecutive days showed higher AUC (AUC(0-4) and total AUC) and lower CL(oral) for peroral midazolam (a CYP3A substrate that does not interact with the P-gp) at 20 mg/kg in comparison with vehicle-treated rats. In contrast, curcumin administered 30 min before the respective drug treatments did not significantly modify the pharmacokinetic parameters of the drugs. Analysis of the data suggests that the changes in the pharmacokinetic profiles of peroral celiprolol and midazolam in the rat model were contributed mainly by the curcumin-mediated down-regulation of intestinal P-gp and CYP3A protein levels, respectively.

Orange juice substantially reduces the bioavailability of the β-adrenergic–blocking agent celiprolol

BACKGROUND

Grapefruit juice was recently found to decrease plasma concentrations of the beta-adrenergic receptor-blocking agent celiprolol. Our objective was to investigate the effect of orange juice on the pharmacokinetics of celiprolol in healthy subjects.

METHODS

In a randomized crossover study with 2 phases and a washout of 2 weeks, 10 healthy volunteers ingested either 200 mL normal-strength orange juice or water 3 times a day for 2 days. On the morning of day 3, 1 hour after ingestion of 200 mL orange juice or water, each subject ingested 100 mg celiprolol with either 200 mL orange juice or water. In addition, 200 mL orange juice or water was ingested at 4, 10, 22, and 27 hours after celiprolol intake. The concentrations of celiprolol in plasma and its excretion into urine were measured up to 33 hours after its dosing. Systolic and diastolic blood pressures and heart rate were recorded up to 10 hours.

RESULTS

Orange juice reduced the mean peak plasma concentration of celiprolol by 89% (P <.01) and the mean area under the plasma celiprolol concentration-time curve by 83% (P <.01). The time to peak concentration of celiprolol increased from 4 to 6 hours (P <.05), and the half-life was prolonged from 4.6 to 10.8 hours (P =.05) after ingestion of orange juice. Orange juice reduced the urinary excretion of celiprolol by 77% (P <.01). No significant differences were observed in the hemodynamic variables between the phases.

CONCLUSIONS

Orange juice substantially reduces the bioavailability of celiprolol, but the mechanism of this interaction remains to be resolved. For example, modulation of intestinal pH and of function of transporters implicated in the absorption of celiprolol may be involved. Because of the great extent of the orange juice-celiprolol interaction and a wide use of orange juice, this interaction is likely to have clinical importance in some patients, although hemodynamic consequences were not seen in young healthy subjects.

Simultaneous determination of the acid/base antihypertensive drugs celiprolol, bisoprolol and irbesartan in human plasma by liquid chromatography

A simple, rapid method for the simultaneous determination of cardiovascular drugs: celiprolol, bisoprolol and irbesartan in human plasma is described. The two main features of the proposed method deal first, with a simultaneous solid phase extraction of weakly basic beta-blockers derivatives and irbesartan which exhibit weak acidic properties; second with an absorbance monitoring using diode array detection in order to insure an improved selectivity. The separation is performed on a C(18) Kromasil 4.6 mm x 150 mm column using a linear gradient to achieve an entire separation of the four species in less than 20 min. The full analytical validation is performed according to guidance for industry for bioanalytical method validation. Linearity of the response was demonstrated for each drug for a range fulfilling the reported plasma levels, that is 10-500, 5-250 and 20-1000 ng l(-1) for celiprolol, bisoprolol and irbesartan respectively. Intra- and inter-day relative standard deviations for all compounds were, in any case, lower than 11% and the method exhibits a convenient accuracy (percentage of relative error lower than 6% for each drug). In each case, the LOD were sufficient to detect post dose trough concentrations for checking patient's observance. Moreover, selectivity towards either endogenous species or co-administered drugs was demonstrated by combination of the use of the solid phase extraction process, gradient elution and diode array detection facilities, making thus, the proposed technique especially suitable for routine drug monitoring of resistant hypertensive patients.

Rifampicin reduces plasma concentrations of celiprolol

OBJECTIVE

The beta-adrenoceptor-blocking agent celiprolol undergoes negligible metabolism, but is a substrate for P-glycoprotein. Our objective was to investigate the effects of rifampicin on the pharmacokinetics of celiprolol in healthy subjects.

METHODS

In a randomized cross-over study with two phases and a washout of 4 weeks, ten healthy volunteers received a 5-day pretreatment with rifampicin (600 mg daily) or placebo. On day 6, a single 200-mg dose of celiprolol was administered orally. The plasma concentrations of celiprolol and the excretion of celiprolol into urine were measured up to 33 h after its dosing. Systolic and diastolic blood pressures and heart rate were recorded in a sitting position before the administration of celiprolol and 2, 4, 6, and 10 h later. MDR1 (P-glycoprotein) genotype was assessed with respect to polymorphisms in exon 21 (G2677T/A) and in exon 26 (C3435T).

RESULTS

Rifampicin pretreatment reduced the median area under the plasma celiprolol concentration-time curve AUC(0-33 h) to 0.44-fold [90% confidence interval (CI), 0.27-0.86], relative to the placebo. The median peak plasma concentration, the time of peak concentration, and the elimination half-life of celiprolol were not significantly changed by rifampicin. During the rifampicin phase, the median amount of celiprolol excreted into urine was decreased by 47% ( P<0.05) and celiprolol renal clearance increased by 19% ( P<0.05) compared with the placebo phase. There were great inter-individual differences in the extent of rifampicin-celiprolol interaction. However, no association was found between the MDR1 polymorphisms and the degree of interaction between rifampicin and celiprolol. No significant differences were observed in hemodynamic parameters between the phases.

CONCLUSION

Rifampicin pretreatment reduces plasma celiprolol concentrations, possibly by induction of the efflux transporter P-glycoprotein, particularly in the intestinal wall, which leads to decreased absorption of celiprolol.

Itraconazole increases but grapefruit juice greatly decreases plasma concentrations of celiprolol

OBJECTIVES

Our objective was to evaluate the effects of itraconazole and grapefruit juice on the pharmacokinetics of the beta-adrenergic receptor-blocking agent celiprolol in healthy volunteers.

METHODS

In a randomized 3-phase crossover study, 12 healthy volunteers took itraconazole 200 mg orally or placebo twice a day or 200 mL grapefruit juice 3 times a day for 2 days. On the morning of day 3, 1 hour after ingestion of itraconazole, placebo, or grapefruit juice, each subject ingested 100 mg celiprolol with 200 mL of water (placebo and itraconazole phases) or grapefruit juice. In addition, 200 mL of water or grapefruit juice was ingested 4 and 10 hours after celiprolol intake. The plasma concentrations of celiprolol, itraconazole, and hydroxyitraconazole and the excretion of celiprolol into urine were measured up to 33 hours after dosing. Systolic and diastolic blood pressures and heart rate were recorded with subjects in a sitting position before the administration of celiprolol and 2, 4, 6, and 10 hours later.

RESULTS

During the itraconazole phase, the mean area under the plasma concentration-time curve from 0 to 33 hours [AUC(0-33)] of celiprolol was 80% greater (P <.05) than in the placebo phase. During the grapefruit juice phase, the mean AUC(0-33) and peak plasma concentration values of celiprolol were reduced to about 13% (P <.001) and 5% (P <.001) of the respective placebo phase values. The cumulative excretion into urine of celiprolol was increased by 59% by itraconazole (P <.05) and decreased by 85% by grapefruit juice (P <.001). Hemodynamic variables did not differ between the phases.

CONCLUSIONS

Itraconazole almost doubles but grapefruit juice greatly reduces plasma concentrations of celiprolol. The itraconazole-celiprolol interaction most likely resulted from increased absorption of celiprolol possibly as a result of P-glycoprotein inhibition in the intestine. The reduced celiprolol concentrations during the grapefruit juice phase were probably caused by physicochemical factors that interfered with celiprolol absorption, although other mechanisms cannot be excluded. The grapefruit juice-celiprolol interaction is probably of clinical relevance.

Plasma analysis of celiprolol by HPTLC: a useful technique for pharmacokinetic studies

A rapid and sensitive high performance, thin-layer chromatographic (HPTLC) method has been developed for the measurement of celiprolol in human plasma and its use in pharmacokinetic studies has been evaluated. Detection and quantitation were performed without using an internal standard. A simple extraction procedure was followed for extracting celiprolol from plasma and a known amount of the extract was spotted on precoated silica gel 60 F254 plates using a Camag Linomat IV autosampler. Celiprolol was quantitated using a Camag TLC Scanner 3. The average recovery of authentic analytes (20 to 200 ng/mL) added to plasma was 72.06 +/- 2.8% and the lowest amount of celiprolol that could be detected was 10 ng/mL. The method provides a direct estimate of the amount of celiprolol present in plasma. Pharmacokinetic parameters of 2 marketed preparations have also been determined after oral administration to 12 healthy human volunteers.

Determination of celiprolol and oxprenolol in human plasma by high-performance liquid chromatography and the analytical error function

Two reversed-phase HPLC methods with UV detection to quantify celiprolol and oxprenolol in human plasma are described. The analytical methods for the determination of both drugs used the same reversed-phase HPLC column, mobile phase and extraction procedure. Linearity was obtained in the ranges 15.63-1000 and 25-800 ng/ml for celiprolol and oxprenolol, respectively. Intra-day and inter-day variation was lower than 14%. After validation of the methods, analytical error functions were established as S.D. (ng/ml)=3.096+0.041C for celiprolol and S.D. (ng/ml)=8.906+8.075x10(-8)C3 for oxprenolol.

Celiprolol, a beta-adrenoceptor antagonist with vasodilator effect, improves hemodynamic response to catecholamine, spontaneous locomotor activity, and survival in cardiomyopathic hamsters with advanced heart failure

To assess the effects of celiprolol, which is a selective beta1-antagonist with vasodilating properties, on chronic heart failure in the cardiomyopathic hamster UM-X7.1 (CMH), we studied survival in treated CMH (celiprolol, 100 mg/kg/day) and untreated CMH. We also measured the hamsters' locomotor activity (by using an Automex system), in vivo left ventricular (LV) pressure with or without dobutamine infusion, and the myocardial beta-adrenergic-receptor density (Bmax), all at the age of approximately 210 days. Survival was significantly improved in the treated group compared with untreated group by 33.4% at the age of 210 days, and the median probabilities of survival were age 252 days in the treated group and 203 days in the untreated group (p < 0.01). The locomotor activity count was significantly higher in the treated group (14,945+/-6,895) than in the untreated group (8,264+/-2,945 counts/day; p < 0.05). The response of LV peak +/-dP/dt to dobutamine was significantly improved in the treated group by 22.9 and 34.8%, respectively, at 18 microg/kg/min. Bmax was also higher in the treated group than in the untreated group (80.1+/-15.1 vs. 65.2+/-10.6 fmol/mg; p < 0.05). This study suggests that long-term treatment with celiprolol could improve both survival and the hemodynamic responses to dobutamine, associated with the upregulation of beta-receptors, and increased locomotor activity.

Thin-layer chromatographic analysis of some beta-blocking drugs in plasma

beta-receptor blockers--atenolol, celiprolol, metoprolol, propafenone, propranolol and talinolol--extracted from plasma, were separated by TLC method on silica gel by ascending technique. Isolation of drugs was performed by using liquid-liquid extraction after alkalization of blood plasma. Suitable conditions for separation were established using ethyl acetate-acetone-ammonia (5:4:1) as the mobile phase. The substances were identified by UV irradiation (254 nm) or by reactions with a variety of reagents. The visual limits of determination of named beta-blockers, after reaction with indicators, are between 100-300 ng; celiprolol and talinolol are the most sensitively detectable of investigated substances.

Validated assay for the determination of celiprolol in plasma using high-performance liquid chromatography and a silanol deactivated reversed-phase support

Previously reported methods for the determination of celiprolol in plasma could not be satisfactorily employed due to interference from plasma components. Thus, an improved, convenient and efficient method for the determination of the plasma concentration of celiprolol was developed using a simple solvent extraction step followed by high-performance liquid chromatography on a silanol deactivated C18 column with fluorescence detection. The plasma interference was resolved from celiprolol and the typical trailing of basic compounds on reversed-phase HPLC was eliminated. The peak-area ratio versus plasma concentration was linear over the range of 5-1000 ng/ml and the detection limit was 5 ng/ml.

Liquid chromatographic determination of total celiprolol or (S)-celiprolol and (R)-celiprolol simultaneously in human plasma

A method has been developed for the determination of total celiprolol (sum of enantiomers) or the enantiomers (R)-celiprolol and (S)-celiprolol in plasma by high-performance liquid chromatography with UV and fluorescence detection. After extraction from alkalinized plasma with methyl-tert.-butyl ether and back-extraction into 0.01 M HCl (for total celiprolol determination) or after evaporation of the organic phase and derivatisation with R(-)-1-(1-naphthyl)ethyl isocyanate (enantiomer determination), total celiprolol or its diastereomeric derivatives were chromatographed on a reversed-phase HPLC column with a mixture of acetonitrile and phosphate buffer pH 3.5 (+0.05% triethylamine). Acebutolol was used as internal standard. Linearity was obtained in the range of 5 to 2000 ng/ml for total and 2.5 to 500 ng/ml for enantiomer determination. Intra-day and inter-day variation was lower than 10%. The method can be applied for analysis of plasma samples obtained from patients treated with oral racemic celiprolol doses.

Celiprolol double-peak occurrence and gastric motility: nonlinear mixed effects modeling of bioavailability data obtained in dogs

Investigation of the underlying mechanism leading to inter- and intrasubject variations in the plasma concentration-time profiles of drugs (1) can considerably benefit rational drug therapy. The significant effect of gastric emptying on the rate and extent of celiprolol absorption and its role with respect to double-peak formation was demonstrated in the present study. In four dogs racemic celiprolol was dosed perorally in a crossover design during four different phases of the fasted-state gastric cycle and gastric motility was recorded simultaneously using a manometric measurement system. Intravenous doses were also given to obtain disposition and bioavailability parameters. The blood samples were assayed by a stereoselective HPLC method (2). The time to onset of the active phase of the gastric cycle showed an excellent correlation with the time to celiprolol peak concentration. Furthermore, bioavailability was increased when celiprolol was administered during the active phase. Double peaks were observed when the first active phase was relatively short, suggesting that a portion of the drug remained in the stomach until the next active phase. Population pharmacokinetic modeling of the data with a two-compartment open model with two lag times incorporating the motility data confirmed the effect of time to gastric emptying on the variability of the oral pharmacokinetics of celiprolol. The fasted-state motility phases determine the rate and extent of celiprolol absorption and influence the occurrence of double peaks. Peak plasma levels of celiprolol exhibit less variability if lag times, and therefore gastric emptying times, are taken into consideration.

Simultaneous determination of verapamil and celiprolol in human plasma

A simple and reproducible method for the simultaneous determination of the beta 1-selective adrenergic blocker, celiprolol, and the calcium antagonist, verapamil, in human plasma is described. It involves a two-step liquid-liquid extraction and separation using a C18 column with ultraviolet detection at 237 nm. Deacetyldiltiazem is used as the internal standard. Within-day and between-day coefficients of variation are less than 10%. The lower limits of detection are 4, 2, and 4 ng/mL for celiprolol, deacetyldiltiazem, and verapamil, respectively. The assay has clinical applicability.