Genetic polymorphisms and the impact of a higher clopidogrel dose regimen on active metabolite exposure and antiplatelet response in healthy subjects

A double-blind crossover study was conducted in four CYP2C19 genotype-defined metabolizer groups to assess whether increase in clopidogrel dosing can overcome reduced pharmacodynamic response in CYP2C19 poor metabolizers (PMs). Ten healthy subjects in each of four metabolizer groups were randomized to a clopidogrel regimen of a 300-mg loading dose (LD) and a 75-mg/day maintenance dose (MD) for 4 days followed by 600-mg LD and 150 mg/day MD, or vice versa. The exposure levels of clopidogrel's active metabolite H4 (clopi-H4) in PMs were 71% lower on the 75-mg/day regimen and 64% lower on the 150-mg/day regimen than the corresponding exposure levels in extensive metabolizers (EMs). In PMs, the maximal platelet aggregation (MPA) induced by adenosine diphosphate (ADP) 5 μmol/l was 10.5% lower on the 75-mg/day regimen and 7.9% lower on the 150-mg/day regimen than the corresponding values in EMs. PMs who were on the clopidogrel regimen of 600-mg LD/150 mg/day MD showed clopi-H4 exposure and MPA levels similar to those in EMs who were on the regimen of 300-mg LD/75 mg/day MD. In a pooled analysis evaluating CYP1A2, CYP2B6, CYP2C9, CYP2C19, CYP3A5, CYP2D6, ABCB1, and P2RY12 polymorphisms (N = 396 healthy subjects), only CYP2C19 had a significant impact on antiplatelet response. In healthy CYP2C19 PMs, a clopidogrel regimen of 600-mg LD/150 mg/day MD largely overcomes diminished clopi-H4 exposure and antiplatelet response, as assessed by MPA levels.     

Differential impacts of CYP2C19 gene polymorphisms on the antiplatelet effects of clopidogrel and ticlopidine

We examined the influence of CYP2C19 polymorphisms on the antiplatelet effects of clopidogrel and ticlopidine. The platelet aggregation induced by 20 μmol/l adenosine diphosphate (ADP) and CYP2C19 single-nucleotide polymorphisms (*2 and *3) was determined in patients with coronary artery disease (CAD) who were taking aspirin alone (n = 21), aspirin plus clopidogrel (n = 97), or aspirin plus ticlopidine (n = 47). The degree of platelet aggregation in the clopidogrel group, although not in the ticlopidine group, depended on the CYP2C19 polymorphism, and the maximal platelet aggregation in poor metabolizers (PMs) taking clopidogrel was equivalent to that in the group taking aspirin alone. After being switched from clopidogrel to ticlopidine, all seven of the PMs showed markedly lower platelet aggregation. These results suggest that CYP2C19 polymorphisms have a profound impact on the antiplatelet effect of clopidogrel but not on that of ticlopidine. Ticlopidine may be an effective therapeutic option for CYP2C19 PMs.     

The effect of CYP2C19 genotypes on the pharmacokinetics of warfarin enantiomers

The aim of this study was to elucidate the pharmacokinetics and pharmacodynamics of warfarin enantiomers in relation to cytochrome P450 2C19 (CYP2C19) genotypes. Fourteen subjects, of whom seven were homozygous extensive metabolizers (hmEMs) and seven were poor metabolizers (PMs) for CYP2C19, were enrolled. After a single oral 10 mg dose of racemic warfarin, the plasma concentrations of the warfarin enantiomers and prothrombin time expressed as international normalized ratio (PT-INR) were measured over the course of 120 h. The mean plasma concentrations and elimination half-life of (R)-warfarin of all the subjects were about 2-fold greater than those of (S)-warfarin. Additionally, the area under the plasma concentration-time curve from zero to infinity (AUC(0-infinity)) and the elimination half-life of (R)-warfarin in PMs were significantly greater than those in hmEMs (P = 0.0005 and P = 0.0101 respectively). The S/R ratios of AUC of warfarin enantiomers were 0.51 in hmEMs and 0.37 in PMs (P = 0.0052). Whereas no difference was found in all pharmacokinetic parameters of (S)-warfarin in hmEMs compared with PMs. No significant difference in PT-INR, used as a measure of anticoagulant effect, was found between the hmEMs and PMs. These results show that CYP2C19 activity is important in the pharmacokinetics of (R)-warfarin. However, when warfarin is administered as a racemate, this difference is not translated into any significant effect in the pharmacodynamics of warfarin.     

ABCB1和CYP2C19基因多态性与动脉粥样硬化性脑梗死患者氯吡格雷疗效的相关性

目的:探讨在急性动脉粥样硬化性脑梗死患者中,不同ABCB1和CYP2C19基因型对氯吡格雷抗血小板疗效的影响。方法:纳入115例发病7 d内住院的急性动脉粥样硬化性脑梗死患者,根据CYP2C19基因型分为3组:快代谢型、中代谢型、慢代谢型;根据ABCB1基因型分为野生型和突变型。再根据ABCB1和CYP2C19两种基因突变的数量,将入组患者分为A组(两个基因均无突变)、B组(其中一个基因发生突变)和C组(两个基因均发生突变)。所有患者均予以卒中单元常规治疗,利用血栓弹力图仪(thromb elasto gram, TEG)检测患者服用氯吡格雷7 d后的血小板功能及血小板药物抑制率,并在患者入院时及服用氯吡格雷治疗7 d后进行神经功能评估,包括美国国立卫生研究院卒中量表(National Institute of Health Stroke Scale, NIHSS)及改良Rankin量表(modified rankin scale, mRS)。结果:CYP2C19基因快代谢型、中代谢型、慢代谢型分别有46例、48例(其中*1/*2 40例,*1/*3 8例)、21例(其中*2/*2 18例,*2/*3 3例);ABCB1野生型49例,突变型66例;A、B、C组患者分别有23例、50例、42例。不同ABCB1、CYP2C19基因型及含不同基因突变数量患者中,血小板药物抑制率、血小板功能及急性期神经功能变化情况差异均无统计学意义。结论:在本研究所纳入的急性动脉粥样硬化性脑梗死人群中,未发现ABCB1、CYP2C19基因多态性对氯吡格雷疗效的影响。     

Effects of CYP2C19 Genetic Polymorphisms on the Pharmacokinetic and Pharmacodynamic Properties of Clopidogrel and Its Active Metabolite in Healthy Chinese Subjects

Purpose

Some studies in the white population have shown that carriers of at least 1 loss-of-function allele in the gene that encodes the cytochrome P-450 2C19 isozyme (CYP2C19) have lower levels of the clopidogrel active metabolite (CAM) and a reduced antiplatelet effect of clopidogrel. However, data are limited regarding the association between CYP2C19 genetic variants and exposure to CAM and on the pharmacodynamic properties of CAM in the Chinese population. Data from the white population cannot be extrapolated to the Chinese population because of the marked interethnic differences in CYP2C19 variants. This study was aimed to investigate the influence of CYP2C19 genetic polymorphisms on the pharmacokinetic properties of CAM and the antiplatelet effect of clopidogrel in healthy Chinese volunteers, and to provide evidence for the role of a CYP2C19 genotyping test in predicting the antiplatelet effect of clopidogrel in the Chinese population.

Effect of clopidogrel and ticlopidine on cytochrome P450 2B6 activity as measured by bupropion hydroxylation

OBJECTIVE: Our objective was to study the effect of the antiplatelet agents clopidogrel and ticlopidine on bupropion (INN, amfebutamone) hydroxylation, a probe reaction for cytochrome P450 (CYP) 2B6 activity. METHODS: Twelve healthy male volunteers took a single 150-mg oral dose of bupropion either alone or after pretreatment with 75 mg clopidogrel once daily or 250 mg ticlopidine twice daily for 4 days. On day 4, a single 150-mg oral dose of bupropion was administered. Plasma concentrations of bupropion and its CYP2B6-catalyzed metabolite, hydroxybupropion, were measured for up to 72 hours. RESULTS: The mean area under the plasma concentration-time curve (AUC) of hydroxybupropion calculated from time 0 to infinity was reduced by 52% ( P = .001; 95% confidence interval [CI], 39% to 66%) by clopidogrel and by 84% ( P < .0001; 95% CI, 73% to 94%) by ticlopidine. Clopidogrel reduced the AUC ratio of hydroxybupropion over bupropion by 68% ( P = .002; 95% CI, 58% to 77%) and ticlopidine by 90% ( P = .001; 95% CI, 85% to 96%). The AUC of bupropion was increased by 60% ( P = .02; 95% CI, 21% to 98%) and by 85% ( P < .0001; 95% CI, 48% to 85%) with clopidogrel and ticlopidine, respectively. CONCLUSIONS: Both clopidogrel and ticlopidine significantly inhibited the CYP2B6-catalyzed bupropion hydroxylation. Patients receiving either clopidogrel or ticlopidine are likely to require dose adjustments when treated with drugs primarily metabolized by CYP2B6.     

Impact of P-glycoprotein on clopidogrel absorption

OBJECTIVE: The antiplatelet activity of clopidogrel is characterized by considerable interindividual differences. Variable intestinal absorption is suggested to contribute to the inconsistencies in response. We tested the hypothesis that the intestinal efflux transporter P-glycoprotein (P-gp) limits the oral bioavailability of clopidogrel and that variance in the MDR1 gene encoding P-gp predicts absorption variability. METHODS AND RESULTS: P-gp-mediated transport of clopidogrel was assessed by transflux, influx, and efflux experiments by use of Caco-2 cells. Inhibition of P-gp activity by different modulators increased the absorptive clopidogrel flux across Caco-2 monolayers from 0.51+/-0.19 pmol/cm2 (mean+/-SD) at baseline by a maximum of 5- to 9-fold (P<.001) and the intracellular accumulation from 0.99+/-0.11 pmol/mg protein by a maximum of 2.5-fold (P<.001) in response to 1-micromol/L clopidogrel and decreased clopidogrel efflux to the level of passive diffusion. In 60 patients with coronary artery disease who underwent percutaneous coronary intervention, the peak plasma concentration (Cmax) and the total area under the plasma concentration-time curve (AUC) of clopidogrel and its active metabolite after a single oral loading dose of 300, 600, or 900 mg were tested for correlation with the MDR1 genotype. In the 300-mg and 600-mg groups (but not in the 900-mg group) Cmax and AUC values were lower in subjects homozygous for the MDR1 3435T variant compared with subjects with the 3435C/T and 3435C/C genotypes. After the 600-mg loading dose, Cmax values (mean+/-SD) of clopidogrel and its active metabolite in 3435T/T carriers were 13.3+/-5.2 ng/mL and 2.5+/-1.2 ng/mL, respectively, compared with 49.7+/-41.6 ng/mL (P=.001) and 6.6+/-3.6 ng/mL (P=.011), respectively, in 3435C/T and 3435C/C carriers; AUC values were 1502+/-463 ng/mLxmin for clopidogrel and 209+/-99 ng/mL x min for its active metabolite in 3435T/T carriers compared with 7057+/-5443 ng/mLxmin (P=.0006) and 744+/-541 ng/mLxmin (P=.011), respectively, in 3435C/T and 3435C/C carriers. CONCLUSIONS: Clopidogrel absorption and thereby active metabolite formation are diminished by P-gp-mediated efflux and are influenced by the MDR1 C3435T genotype.     

Effects of CYP2C19 genetic polymorphism on the pharmacokinetics and pharmacodynamics of omeprazole in Chinese people

BACKGROUND: To investigate whether the pharmacodynamics and pharmacokinetics of omeprazole (OPZ) are dependent of the CYP2C19 genotype status in Chinese people. METHODS: Eighteen healthy subjects were voluntary to participate in the study, whose CYP2C19 genotype status were determined by polymerase chain reaction-restriction fragment length polymorphism method. There were six homozygous extensive metabolizers, six heterozygous extensive metabolizers and six poor metabolizers (PMs). All subjects were Helicobacter pylori-negative, determined by serology method and (13)C-urea breath test. After d1 and d8 orally received OPZ 20 mg once daily in the morning, intragastric pH values were monitored for 24 h by Digitrapper pH. Meanwhile, blood samples were collected at various time-points until 24 h after administration. The serum concentrations of OPZ were measured by liquid chromatography. RESULTS: After single or repeated doses, the PMs showed a significantly higher mean area under the serum concentration-time curves (AUC) values than that observed in the homozygous extensive metabolizers or the heterozygous extensive metabolizers, with a relative ratio of 1.0 : 1.1 : 4.2 and 1.0 : 1.3 : 3.3 (homozygous extensive metabolizers:heterozygous extensive metabolizers:poor metabolizers), respectively. After a single dose of OPZ, significant differences in intragastric pH median, pH > 3 holding time and pH > 4 holding time were observed among the three groups. After repeated doses, the PMs showed a significantly higher intragastric pH values than that observed in the homozygous extensive metabolizers or the heterozygous extensive metabolizers. CONCLUSION: The pharmacodynamic effects of OPZ and its pharmacokinetics depend on the CYP2C19 genotype status in Chinese people.     

Prasugrel vs. clopidogrel for cytochrome P450 2C19‐genotyped subgroups: integration of the TRITON‐TIMI 38 trial data

Summary. Background: Prasugrel is a newly marketed antiplatelet drug with improved cardiac outcomes as compared with clopidogrel for acute coronary syndromes involving percutaneous coronary intervention (PCI). Analysis of a subset of the TRITON‐TIMI 38 trial demonstrated that cytochrome P450 2C19 (CYP2C19) reduced‐function genotypes are associated with differential clinical responses to clopidogrel, but not prasugrel. Whether the CYP2C19 genotype has the potential to influence clinical choice of these drugs prior to PCI for individuals with unstable angina or non‐ST segment elevation myocardial infarction is currently uncertain. Methods and Results: An exploratory, secondary analysis was undertaken to estimate the clinical benefit of prasugrel over clopidogrel in subgroups defined by CYP2C19 genotype, by integrating the published results of the genetic substudy and the overall TRITON‐TIMI 38 trial. Individuals with a CYP2C19 reduced‐metabolizer genotype were estimated to have a substantial reduction in the risk of the composite primary outcome (cardiovascular death, myocardial infarction, or stroke) with prasugrel as compared with clopidogrel [relative risk (RR) 0.57; 95% confidence interval (CI) 0.39–0.83]. For CYP2C19 extensive metabolizers (～ 70% of the population), however, the composite outcome risks with prasugrel and clopidogrel were not substantially different (RR 0.98; 95% CI 0.80–1.20). Conclusions: Integration of the TRITON‐TIMI 38 data suggests that the CYP2C19 genotype can discriminate between individuals who receive extensive benefit from using prasugrel instead of clopidogrel, and individuals with comparable clinical outcomes with prasugrel and clopidorel. Thus, CYP2C19 genotyping has the potential to guide the choice of antiplatelet therapy, and further research is warranted to validate this estimate.     

Comparison of an increased dosage regimen of rabeprazole versus a concomitant dosage regimen of famotidine with rabeprazole for nocturnal gastric acid inhibition in relation to cytochrome P450 2C19 genotypes

BACKGROUND AND OBJECTIVE: A concomitant dosage regimen of a histamine 2 receptor antagonist with a proton pump inhibitor (PPI) effectively decreases the incidence of nocturnal acid breakthrough, which is one of the problems encountered when acid-related diseases are treated with a PPI alone. We compared the effectiveness of an increased dosage regimen of rabeprazole with that of a concomitant dosage regimen of rabeprazole with famotidine, relative to cytochrome P450 (CYP) 2C19 genotype status, on nocturnal acid inhibition. METHODS: Fifteen Helicobacter pylori-negative volunteers, consisting of 5 homozygous extensive metabolizers (EMs), 6 heterozygous EMs, and 4 poor metabolizers (PMs) of CYP2C19, took 20 mg rabeprazole, 40 mg rabeprazole, and 20 mg rabeprazole plus 20 mg famotidine at bedtime (at 10 PM) for 8 days. The subjects then underwent 24-hour intragastric pH monitoring on day 8. RESULTS: For the 20-mg rabeprazole, 40-mg rabeprazole, and concomitant dosage regimens, the median percent times and ranges when nocturnal intragastric pH values were lower than 4.0 were 78.8% (47.5%-98.0%), 45.3% (29.0%-52.2%), and 15.5% (0.0%-40.8%), respectively, for homozygous EMs; 51.0% (7.0%-91.6%), 41.3% (33.0%-59.0%), and 18.5% (8.4%-31.9%), respectively, for heterozygous EMs; and 4.5% (2.0%-31.2%), 9.5% (0.0%-31.1%), and 9.3% (0.0%-14.7%), respectively, for PMs. Although significant differences in acid inhibition between the different CYP2C19 genotypes were observed when rabeprazole alone was given (P = .016 for 20 mg rabeprazole and P = .023 for 40 mg rabeprazole), such differences were not observed when famotidine was concomitantly given (P = .206). CONCLUSIONS: The combination regimen of famotidine plus rabeprazole is more effective for nocturnal acid inhibition in homozygous and heterozygous EMs than the increased dosage regimen of rabeprazole. This concomitant therapy could be a rescue regimen for patients with nocturnal acid breakthrough refractory to a standard PPI therapy who are likely to be CYP2C19 EMs.     

Common polymorphisms of CYP2C19 and CYP2C9 affect the pharmacokinetic and pharmacodynamic response to clopidogrel but not prasugrel

BACKGROUND: Thienopyridines are metabolized to active metabolites that irreversibly inhibit the platelet P2Y(12) adenosine diphosphate receptor. The pharmacodynamic response to clopidogrel is more variable than the response to prasugrel, but the reasons for variation in response to clopidogrel are not well characterized. OBJECTIVE: To determine the relationship between genetic variation in cytochrome P450 (CYP) isoenzymes and the pharmacokinetic/pharmacodynamic response to prasugrel and clopidogrel. METHODS: Genotyping was performed for CYP1A2, CYP2B6, CYP2C19, CYP2C9, CYP3A4 and CYP3A5 on samples from healthy subjects participating in studies evaluating pharmacokinetic and pharmacodynamic responses to prasugrel (60 mg, n = 71) or clopidogrel (300 mg, n = 74). RESULTS: In subjects receiving clopidogrel, the presence of the CYP2C19*2 loss of function variant was significantly associated with lower exposure to clopidogrel active metabolite, as measured by the area under the concentration curve (AUC(0-24); P = 0.004) and maximal plasma concentration (C(max); P = 0.020), lower inhibition of platelet aggregation at 4 h (P = 0.003) and poor-responder status (P = 0.030). Similarly, CYP2C9 loss of function variants were significantly associated with lower AUC(0-24) (P = 0.043), lower C(max) (P = 0.006), lower IPA (P = 0.046) and poor-responder status (P = 0.024). For prasugrel, there was no relationship observed between CYP2C19 or CYP2C9 loss of function genotypes and exposure to the active metabolite of prasugrel or pharmacodynamic response. CONCLUSIONS: The common loss of function polymorphisms of CYP2C19 and CYP2C9 are associated with decreased exposure to the active metabolite of clopidogrel but not prasugrel. Decreased exposure to its active metabolite is associated with a diminished pharmacodynamic response to clopidogrel.     

CYP2C19基因多态性与冠心病患者氯吡格雷疗效的相关性研究

目的对CYP2C19基因多态性与冠心病患者氯吡格雷疗效的相关性进行分析探讨,为今后的临床工作,提供有价值的参考信息。方法选取2015年1月至2016年1月该院收治的,拟接受经皮冠状动脉介入术(PCI)进行治疗的冠心病患者128例作为研究对象,对其均开展氯吡格雷治疗,负荷剂量为300mg,维持剂量为75mg,将受试者分成氯吡格雷抵抗组与反应组,对比两组患者药物代谢CYP2C19基因型,观察CYP2C19基因型对氯吡格雷反应性的影响。结果该组受试者中,氯吡格雷抵抗者27例,检出CYP2C19慢代谢基因型携带者共计16例,慢代谢基因型患者VASP-PRI与快代谢基因型、中间代谢基因型患者比较,差异有统计学意义(P0.05);氯吡格雷抵抗组与氯吡格雷反应组临床不良终点事件发生率比较差异有统计学意义(P0.05)。结论氯吡格雷抵抗的危险因素中,包括CYP2C19慢代谢基因型,氯吡格雷抵抗会使临床不良终点事件发生风险增加,临床应对其给予足够的重视。     

Genetic polymorphism of cytochrome P450 2C19 in Mexican Americans: a cross-ethnic comparative study

OBJECTIVES: Our objectives were to investigate cytochrome P450 (CYP) 2C19 polymorphism in Mexican Americans and compare the findings with those in 4 other ethnic groups. METHODS: The CYP2C19 genotype (n = 346) and S-mephenytoin hydroxylation phenotype (n = 220) were studied in a Mexican American population from Los Angeles County. Another 4 ethnic groups, African Americans (n = 236), whites (n = 273), East Asians (n = 161), and Southeast Asians (n = 80), were also recruited from Los Angeles County and genotyped and phenotyped for CYP2C19. RESULTS: The frequencies of CYP2C19*2 and *3 were 9.7% and 0.1%, respectively, in Mexican Americans, which were lower than those of the other 4 ethnic groups, ranging from 12.7% to 31.2% and 0.8% to 9.6%, respectively (P 相似文献   

Potent cytochrome P450 2C19 genotype-related interaction between voriconazole and the cytochrome P450 3A4 inhibitor ritonavir

OBJECTIVES: Cytochrome P450 (CYP) 2C19 and CYP3A4 are the major enzymes responsible for voriconazole elimination. Because the activity of CYP2C19 is under genetic control, the extent of inhibition with a CYP3A4 inhibitor was expected to be modulated by the CYP2C19 metabolizer status. This study thus assessed the effect of the potent CYP3A4 inhibitor ritonavir after short-term administration on voriconazole pharmacokinetics in extensive metabolizers (EMs) and poor metabolizers (PMs) of CYP2C19. METHODS: In a randomized, placebo-controlled crossover study, 20 healthy participants who were stratified according to CYP2C19 genotype received oral ritonavir (300 mg twice daily) or placebo for 2 days. Together with the first ritonavir or placebo dose, a single oral dose of 400 mg voriconazole was administered. Voriconazole was determined in plasma and urine by liquid chromatography-mass spectrometry, and pharmacokinetic parameters were estimated by noncompartmental analysis. RESULTS: When given alone, the apparent oral clearance of voriconazole after single oral dosing was 26%+/-16% (P > .05) lower in CYP2C19*1/*2 individuals and 66%+/-14% (P < .01) lower in CYP2C19 PMs. The addition of ritonavir caused a major reduction in voriconazole apparent oral clearance (354+/-173 mL/min versus 202+/-139 mL/min, P = .0001). This reduction occurred in all CYP2C19 genotypes (463+/-168 mL/min versus 305+/-112 mL/min [P = .023] for *1/*1, 343+/-127 mL/min versus 190+/-93 mL/min [P = .008] for *1/*2, and 158+/-54 mL/min versus 22+/-11 mL/min for *2/*2) and is probably caused by inhibition of CYP3A4-mediated voriconazole metabolism. CONCLUSIONS: Coadministration of a potent CYP3A4 inhibitor leads to a higher and prolonged exposure with voriconazole that might increase the risk of the development of adverse drug reactions on a short-term basis, particularly in CYP2C19 PM patients.     

黄石地区76例氯吡格雷治疗患者 CYP 2C19不同代谢表型的分布

目的：探讨湖北黄石地区氯吡格雷治疗患者 CYP2C19不同代谢表型的分布。方法取76例心内科住院氯吡格雷治疗患者的外周血,采用基因芯片方法对 CYP2C19基因进行分型,了解其代谢表型的分布,并与文献报道的中国正常汉族人群进行比较。结果在76例检测标本中检测出 CYP2C19的3种代谢表型,快代谢型、中间代谢型以及慢代谢型,所占比例分别为39．47％、44．74％和15．79％。与中国健康汉族人总体比例基本一致。结论湖北黄石地区氯吡格雷治疗患者的临床个体化用药方案可以中国汉族健康人群的个体化用药方案为参考依据。     

Increased frequency of cytochrome P450 2D6 poor metabolizers among patients with metoprolol-associated adverse effects

OBJECTIVE: The CYP2D6 genotype is a major determinant of interindividual differences in metoprolol plasma clearance. Cytochrome P450 2D6 (CYP2D6) poor metabolizers exhibit 3- to 10-fold higher plasma concentrations after administration of metoprolol than extensive metabolizers. However, the impact of the CYP2D6 genotype on the occurrence of adverse effects of metoprolol remains controversial. This study addressed whether the incidence of poor metabolizers was higher in patients with metoprolol-associated adverse effects than in the German population at large. METHODS: Approximately 1200 German physicians were asked to report on patients who had experienced pronounced adverse effects in association with administration of metoprolol. CYP2D6 genotypes were determined with a combination of allele-specific polymerase chain reaction and polymerase chain reaction-restriction fragment length polymorphism. The adverse effects, consisting of symptoms related to beta-adrenergic receptor blockade and nonspecific symptoms, were recorded by use of a standardized questionnaire. RESULTS: Twenty-four patients were included in the study. Nine patients had 2 null alleles (poor metabolizer genotype; 38%); the remaining 15 had either 1 null allele (n = 7) or no null alleles (n = 8). Therefore the occurrences of poor metabolizer genotypes in the study population were 4.9- and 5.2-fold more frequent, respectively, than that found in unselected members of the German population in two large studies (P <.0001; chi(2) test). CONCLUSIONS: These data showed that CYP2D6 poor metabolizers had a 5-fold higher risk for development of adverse effects during metoprolol treatment than patients who were not poor metabolizers. Because the absolute risk of adverse effects of metoprolol is unknown, the clinical relevance of the CYP2D6 genotype for metoprolol therapy has to be determined in a prospective manner.     

Low daily 10-mg and 20-mg doses of fluvoxamine inhibit the metabolism of both caffeine (cytochrome P4501A2) and omeprazole (cytochrome P4502C19)

OBJECTIVES: Fluvoxamine is metabolized by the polymorphic cytochrome P450 (CYP) 2D6 and the smoking-inducible CYP1A2. Therapeutic doses of fluvoxamine inhibit both CYP1A2 and CYP2C19. In this study we used extensive metabolizers (EMs) and poor metabolizers (PMs) of debrisoquin (INN, debrisoquine) (CYP2D6) and two probes, caffeine (CYP1A2) and omeprazole (CYP2C19), to investigate whether nontherapeutic doses of fluvoxamine inhibit CYP1A2 but possibly not CYP2C19. METHODS: Single oral doses of 100 mg caffeine and 20 mg omeprazole were given separately to 5 EMs and 5 PMs of debrisoquin to assess the activity of CYP1A2 and CYP2C19, respectively. Initially, a single oral dose of fluvoxamine (25 mg to PMs and 50 mg to EMs) was given, followed by 1 week of daily administration of 25 mg x 2 to EMs and 25 mg x 1 to PMs. Caffeine (day 6) and omeprazole (day 7) were again administered at the steady state of fluvoxamine. Later the study protocol was repeated with a lower dose of fluvoxamine, 10 mg x 2 to EMs and 10 mg x 1 to PMs for 1 week. Concentrations of fluvoxamine, caffeine, omeprazole, and their metabolites were analyzed by HPLC methods in plasma and urine. RESULTS: The kinetics of fluvoxamine were not significantly different in EMs and PMs after a single oral dose of the drug. At the higher but not the lower steady-state dose of fluvoxamine, a significantly lower clearance in PMs compared with EMs was observed (geometric mean, 0.86 versus 1.4 L/h per kilogram; P <.05). At steady state, the 25 mg x 1 or x 2 fluvoxamine dose caused a pronounced inhibition of about 75% to 80% for both CYP1A2 and CYP2C19, whereas the inhibition after the lower 10 mg x 1 or x 2 dose was about 40% to 50%. The area under the plasma concentration-versus-time curve from 0 to 24 hours [AUC(0-24)] of caffeine increased 5-fold (P <.001) after the higher dose of fluvoxamine and 2-fold (P <.05) after the lower dose. The area under the plasma concentration-time curve from time zero to 8 hours [AUC(0-8)] ratio of 5-hydroxyomeprazole/omeprazole decreased 3.4-fold (P <.001) and 2.4-fold (P <.001), respectively. One EM subject had a very low oral clearance of fluvoxamine after both single and multiple dosing of the drug. This subject might have a deficient transporter protein in the gut, leading to an increased absorption of fluvoxamine. CONCLUSION: No convincing evidence was found that CYP2D6 is an important enzyme for the disposition of fluvoxamine. Other factors seem to be more important. A nontherapeutic oral daily dose of fluvoxamine is sufficient to provide a marked inhibition of both caffeine (CYP1A2) and omeprazole (CYP2C19) metabolism. It was not possible to separate the inhibitory effects of fluvoxamine on these enzymes, even after such a low daily dose such as 10 mg x 1 or x 2 of fluvoxamine.     

CYP2C19 genotype-related efficacy of omeprazole for the treatment of infection caused by Helicobacter pylori

OBJECTIVES: Omeprazole is used for the treatment of infection caused by Helicobacter pylori, and it is metabolized by the polymorphic cytochrome P4502C19 (CYP2C19). We have found that the anti-H pylori efficacy by the combination of omeprazole and antibiotics is related to the CYP2C19 genotype. METHODS: One hundred eight patients with cultured H pylori-positive gastritis or peptic ulcer were treated with three regimens: quadruple treatment without proton pump inhibitors (n = 25), dual treatment with omeprazole and amoxicillin (INN, amoxicilline) (n = 26), and triple treatment with omeprazole, amoxicillin, and clarithromycin (n = 57). The CYP2C19 genotype was determined by the polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) method and the assessment of the eradication of H pylori was based on all negative examinations, including culture, histology, and 13C-urea breath test. RESULTS: The eradication rates for the extensive metabolizers were 50% and 86% for the dual and triple treatments, respectively. In contrast, all of the poor metabolizers treated with omeprazole and antibiotics (n = 15) showed an eradication of H pylori. CONCLUSION: The anti-H pylori effect of dual treatment is highly efficient for CYP2C19 poor metabolizers, which suggests that clarithromycin is not necessary as a first line of therapy for this type of patients. Genotyping can provide a choice for the optimal regimen based on individual CYP2C19 genotype.     

CYP2C19基因多态性与氯吡格雷抵抗的研究进展

阿司匹林联合氯吡格雷是冠状动脉支架植入术后常规的抗血小板治疗方案。然而,近年来的研究显示接受上述治疗的部分患者血小板的抑制率较低,即氯吡格雷抵抗,与冠脉支架植入术后支架内血栓事件的发生存在因果关系。而导致氯吡格雷抵抗的原因复杂,研究表明CYP2C19基因多态性与其明显相关,对高危人群进行CYP2C19基因多态性检测有利于识别氯吡格雷抵抗,并及时增加氯吡格雷剂量或更换新型血小板P2Y12受体拮抗剂,可降低术后支架内血栓的发生。     

Theophylline pharmacokinetics are not altered by lansoprazole in CYP2C19 poor metabolizers.

Lansoprazole is a potent gastric proton pump inhibitor that is metabolized by CYP2C19 but appears to induce the activity of hepatic microsomal CYP1A2 in a concentration-dependent manner. Because the inducing effect appears to be a dose-dependent phenomenon, it may be more important in poor metabolizers of CYP2C19 who have more than four times the area under the lansoprazole plasma concentration-time curve (AUC) and constitute 12% to 23% of Asian populations. Theophylline owes a significant portion of its metabolism to CYP1A2 and can cause gastric acid reflux that calls for concurrent use of proton pump inhibitors. We conducted a prospective, randomized, subject-blind, multicenter crossover study of the effect of multiple high-dose oral lansoprazole (30 mg twice a day for 7 days) on the pharmacokinetics of a single intravenous dose of theophylline (4.73 mg/kg) in healthy volunteers characterized for CYP2C19 genotype. The study compared the pharmacokinetics of lansoprazole and theophylline in five white extensive metabolizers, six Korean extensive metabolizers, and seven poor metabolizers of CYP2C19. The pharmacokinetics of lansoprazole were significantly different among groups; AUC values were 1.55+/-0.20 microg x h/mL in white extensive metabolizers, 7.01+/-0.72 microg x hr/mL in Korean extensive metabolizers, and 14.34+/-2.60 microg x h/mL in poor metabolizers (P < .001). The administration of lansoprazole did not change intravenous theophylline clearance compared with placebo in any group, and theophylline clearance exhibited no correlation with AUC of lansoprazole (rs = 0.12; P > .1). These data suggest that usual therapeutic doses of lansoprazole have no clinically significant influence on the clearance of theophylline, even in poor metabolizers of CYP2C19.