Relationship between fluvoxamine pharmacokinetics and CYP2D6/CYP2C19 phenotype polymorphisms

Objective: The purpose of this study was to investigate whether the disposition of fluvoxamine is associated with the CYP2D6 and CYP2C19 phenotype polymorphisms. Methods: The serum concentration of fluvoxamine was followed for 48 h after oral administration of a single dose of 50 mg fluvoxamine to five poor metabolizers of the CYP2D6 test drug dextromethorphan, five poor metabolizers of the CYP2C19 test drug mephenytoin, and five extensive metabolizers of both test drugs. Results: Poor metabolizers of dextromethorphan had significantly higher areas under the serum concentration-time curve than extensive metabolizers of dextromethorphan (mean 1.31 vs 1.00 μmol · h · l⁻¹). There were no differences between poor and extensive metabolizers of mephenytoin (mean, 1.00 vs 1.15 μmol · h · l⁻¹). Conclusion: The results are consistent with a possible minor to moderate role of CYP2D6, but not CYP2C19, in fluvoxamine metabolism. Received: 25 April 1996 / Accepted in revised form: 12 November 1996     

Interferon-beta treatment in patients with multiple sclerosis does not alter CYP2C19 or CYP2D6 activity

AIMS: To determine CYP2C19 and CYP2D6 activity in patients with multiple sclerosis (MS) before and during interferon (IFN)-beta treatment. METHODS: CYP2C19 and CYP2D6 activities were assessed using the probe drugs mephenytoin and debrisoquine, respectively. Urinary mephenytoin (S/R) and debrisoquine (debrisoquine/hydroxy-debrisoquine) metabolic ratios (MR) were determined in 10 otherwise healthy Caucasian multiple sclerosis (MS) patients in the initial stage of the disease, prior to and 1 month after commencing treatment with IFN-beta (Avonex, Rebif or Betaferon). In addition, CYP2C19*2, CYP2C19*3, CYP2D6*3, CYP2D6*4, and CYP2D6*5 genotyping was performed. RESULTS: There was no significant difference in the (S)/(R) mephenytoin ratio (mean difference 0.04; 95% CI -0.03, 0.11) or the debrisoquine MR (mean difference 0.29; 95% CI -0.44, 1.02) before and during regular IFN-beta treatment in extensive metabolizers (EM) (P = 0.5 and P = 0.4 for the respective probe drugs; n = 9 subjects). There were also no differences between the different IFN-beta treatments (P = 0.6 for the (S)/(R) mephenytoin ratio and P = 0.7 for the debrisoquine MR; anova; n = 10). CONCLUSIONS: IFN-beta treatment did not affect the activity of CYP2C19 or CYP2D6. The results suggest that it is safe to administer CYP2C19 or CYP2D6 substrates, without dose adjustment, to patients treated with IFN-beta.     

Influence of gender and oral contraceptives on CYP2D6 and CYP2C19 activity in healthy volunteers

AIMS: The study was carried out in order to assess the effects of gender and the use of oral contraceptives (OCs) on CYP2D6 and CYP2C19 activities in healthy volunteers. METHODS: Six hundred and eleven Caucasian volunteers (330 males and 281 females; age range 18-49 years) were phenotyped with respect to CYP2D6 and CYP2C19 by means of the probe drugs dextromethorphan and mephenytoin, respectively. Extensive metabolisers were selected for this study. RESULTS: The median dextromethorphan/dextrorphan metabolic ratio in non-OC using females was significantly lower than in males (0.067 vs 0.080; P = 0.033) (mean difference in ln dextromethorphan/dextrorphan metabolic ratio 0.023, 95% CI 0.03-0.43). For the mephenytoin S/R ratio, no such difference was observed. However, OC using females had a significantly higher median mephenytoin S/R ratio than non-OC using females (0.230 vs 0.090; P < 0.001) (mean difference in ln mephenytoin S/R ratio 0.082, 95% CI 0.60-1.04). Moreover, females using combined OCs had a significantly higher median ratio than females using OCs with progestins only (median 0.258 vs 0.135; P = 0.008) (mean difference in ln mephenytoin S/R ratio 0.82, 95% CI 0.21-1.34). CONCLUSIONS: Given certain assumptions, the study indicates that females in the fertile age have a slightly higher CYP2D6 activity compared with males. There was no evidence of a gender difference in CYP2C19 activity. The use of combined OCs reduces the activity of CYP2C19, an effect that seems to be related to the ethinyloestradiol component.     

Phenotypes and genotypes for CYP2D6 and CYP2C19 in a black Tanzanian population

AIMS: CYP2D6 and CYP2C19 are polymorphically expressed enzymes that show marked interindividual and interethnic variation. The aim of this study was to determine the frequency of the defective alleles in CYP2D6 and CYP2C19 in Africans and to test whether the genotype for CYP2C19 is better correlated with the proguanil/cylcoguanil ratio than the mephenytoin S/R ratio. METHODS: Two hundred and sixteen black Tanzanians were phenotyped for CYP2D6 with the use of sparteine, and for CYP2C19 with the use of mephenytoin and proguanil. Of these 196 subjects were also genotyped for CYP2D6 (including the CYP2D6*1, CYP2D6*3 and CYP2D6*4 alleles) and 195 were genotyped for CYP2C19 (including the CYP2C19*1, CYP2C19*2 and the CYP2C19*3 alleles). Furthermore 100 subjects were examined for the allele duplication in CYP2D6, leading to ultrarapid metabolism, with long PCR. RESULTS: The sparteine metabolic ratio (MR) was statistically significantly higher in the Tanzanian group of homozygous, extensive metabolizers compared to a historical control group of white Danish extensive metabolizers. Only one poor metabolizer for CYP2D6 (MR=124 and genotype CYP2D6*1/CYP2D6*4 ) was found. The gene frequencies were 0.96 for the CYP2D6*1 allele and 0.04 for the CYP2D6*4 allele. No CYP2D6*3 alleles were found. Nine subjects had an allele duplication in CYP2D6 (9%). For CYP2C19 there were seven subjects (3. 6%) who were phenotyped as poor metabolizers, but only three subjects (1.5%) had a genotype (CYP2C19*2/CYP2C19*2 ) indicative of poor metabolism. The gene frequencies were 0.90 for the CYP2C19*1 allele and 0.10 for the CYP2C19*2 allele. No CYP2C19*3 alleles were found. The mephenytoin S/R ratios were not bimodally distributed. CONCLUSIONS: Both the genotyping and phenotyping results show that there is a substantial difference between an African black population and a Caucasian population in the capacity to metabolize drugs via CYP2D6 and CYP2C19.     

CYP2D6 and CYP2C19 activity in a large population of Dutch healthy volunteers: indications for oral contraceptive-related gender differences

OBJECTIVE: We examined a large database containing results on CYP2D6 and CYP2C19 activity of 4301 Dutch volunteers phenotyped in the context of various clinical pharmacology studies. METHODS: The subjects were given 22 mg dextromethorphan, 100 mg mephenytoin and 200 mg caffeine. For CYP2D6, the dextromethorphan/dextrorphan metabolic ratios in urine samples taken for a subsequent 8 h were used. Dextromethorphan and dextrorphan were quantified by reversed-phase high performance liquid chromatography. For CYP2C19 similarly obtained (R)-mephenytoin and (S)-mephenytoin ratios were used. (S)-mephenytoin and (R)-mephenytoin were analysed and quantified by enantioselective capillary gas chromatography. In addition, CYP2C19 poor metabolizer (PM) subjects were reanalysed after acidic pre-treatment of urine samples to confirm the PM status. RESULTS: The investigated population mainly comprised Caucasian (98.9%) males (68%). The age ranged from 18 to 82 years. For CYP2D6, it was found that 8.0% of the subjects were PMs. The average metabolic ratio was 0.014 (0.033) for subjects who showed extensive metabolizing activity (EM) and 5.4 (7.6) for PM subjects. For CYP2C19, it was found that 1.8% of the subjects were PMs. The metabolic ratio was 0.162 (0.124) for EM subjects and 1.076 (0.040) for PM subjects. Within the EM group the metabolic ratio in females was significantly lower for CYP2D6 (-20%) and significantly higher for CYP2C19 (+40%) compared with males. For PMs there was no such difference for CYP2D6 (P = 0.79) or CYP2C19 (P = 0.20). Oral contraceptive (OC) use significantly decreased the CYP2C19 activity by 68% for mephenytoin as compared to non-OC using females. CONCLUSIONS: For CYP2D6, the PM incidence (8.0%) is in accordance with literature data. The CYP2C19, PM incidence (1.8%) is low compared to reports from other European countries. For mephenytoin, the acidification procedure has been shown to be very important for the confirmation of CYP2C19 PMs. In EM females compared to EM males, CYP2D6 activity is increased and CYP2C19 activity is reduced. For CYP2C19 in particular this reduction is substantial and most pronounced in the age range from 18 to 40 years. For CYP2C19, the reduced activity is associated with the use of oral contraceptives.     

Polymorphism of CYP2D6, CYP2C19, CYP2C9 and CYP2C8 in the Faroese population

Objective The purpose of the study was to study the distribution of poor and extensive metabolizers of CYP2C19 and CYP2D6 and to genotype for CYP2C8 and CYP2C9 among 312 randomly selected Faroese.Methods and results The participants were phenotyped for CYP2D6 with the use of sparteine. The distribution of the sparteine metabolic ratio (sparteine/didehydrosparteines) was bimodal, and 14.5% (n=44; 95% CI: 10.7–18.9%) of the subjects were phenotyped as poor metabolizers. The frequency of poor metabolizers was higher (P=0.0002; ² test) among the Faroese than in other European populations (7.4%). Genotype analyses for the CYP2D6*3, *4, *6 and *9 alleles were performed using real-time polymerase chain reaction (PCR) (TaqMan, Foster City, CA, USA), and we found 14.6% (n = 45) (95% CI: 10.8–19.0%) with deficient CYP2D6 genes (*3/*4, *4/*4, *4/*6, *6/*6) in the Faroese population. The subjects were phenotyped for CYP2C19 with the use of mephenytoin and 10 subjects, i.e., 3.2% (95% CI: 1.6–5.9%) were phenotyped as poor metabolizers. Genotype analysis for the CYP2C19*2 and *3 alleles was performed by means of PCR analysis, and 2.9% (n=9) (95% CI: 1.3–5.4%) of the Faroese were found to have a deficient CYP2C19 gene all explained by the CYP2C19*2/*2 genotype. The allele frequencies of the CYP2C9*2 and CYP2C9*3 alleles were 8.8% (95% CI: 6.7–11.4%) and 5.3% (95% CI: 3.7–7.4%), respectively, while the CYP2C8*3 allele frequency was 6.9% (95% CI: 5.0–9.2%). Real-time PCR (TaqMan) was used for both CYP2C9 and CYP2C8 genotype analyses.Conclusion The frequency of CYP2D6 poor metabolizers is twofold higher among the Faroese population than other Caucasians, while the frequencies of Faroese subjects with decreased CYP2C19, CYP2C8 and CYP2C9 enzyme activity are the same as seen in other Caucasian populations. A possible consequence might be a higher incidence of side effects among Faroese patients taking pharmaceuticals that are CYP2D6 substrates.     

Genotype and phenotype of cytochrome P450 2D6 in human immunodeficiency virus-positive patients and patients with acquired immunodeficiency syndrome

Objective: To examine the distribution of the cytochrome P ₄₅₀ (CYP) CYP2D6 phenotype and its relation to genotype, concomitant medication, and disease state in human immunodeficiency virus (HIV)-positive patients. Design: A cross sectional study with a longitudinal component compared individual genotypes for CYP2D6 to the CYP2D6 phenotype. Methods: Sixty-one predominately male Caucasian, HIV-positive patients were recruited and CYP2D6 genotypes [extensive metabolizer (EM) or poor metabolizer (PM)] determined by polymerase chain reaction (PCR)-based amplification, followed by restriction fragment-length analysis. The patients were also phenotyped using dextromethorphan (DM) to determine their respective enzyme activity and assigned either a CYP2D6 EM or PM phenotype. Complete medical and treatment histories were compiled. A total of 44 patients were tested longitudinally. Results: Fifty-nine patients (97%) possessed an EM genotype, consistent with previously observed distributions in demographically similar populations. In healthy seronegative populations, genotype and phenotype have been shown to be essentially interchangeable measures of CYP2D6 activity. In this cohort, 2 of the 59 patients with an EM genotype expressed a PM phenotype. In addition, 4 EM patients were less extensive DM metabolizers than any of the patients receiving medication known to inhibit CYP2D6. This apparent shift toward the PM phenotype from the EM genotype was associated with the presence of active illness. Conclusion: Changes may occur in HIV-positive patients such that their CYP2D6 activity approaches that of PMs, despite having an EM genotype. Neither active disease nor drug interactions alone explain the shift. Received: 1 September 1999 / Accepted in revised form: 10 February 2000     

A discordance between cytochrome P450 2D6 genotype and phenotype in patients undergoing methadone maintenance treatment

AIMS: To assess CYP2D6 activity and genotype in a group of patients undergoing methadone maintenance treatment (MMT). METHODS: Blood samples from 34 MMT patients were genotyped by a polymerase chain reaction-based method, and results were compared with CYP2D6 phenotype (n = 28), as measured by the molar metabolic ratio (MR) of dextromethorphan (DEX)/dextrorphan (DOR) in plasma. RESULTS: Whereas 9% of patients (3/34) were poor metabolizers (PM) by genotype, 57% (16/28) were PM by phenotype (P < 0.005). Eight patients, who were genotypically extensive metabolizers (EM), were assigned as PM by their phenotype. The number of CYP2D6*4 alleles and sex were significant determinants of CYP2D6 activity in MMT patients, whereas other covariates (methadone dose, age, weight) did not contribute to variation in CYP2D6 activity. CONCLUSIONS: There was a discordance between genotype and in vivo CYP2D6 activity in MMT patients. This finding is consistent with inhibition of CYP2D6 activity by methadone and may have implications for the safety and efficacy of other CYP2D6 substrates taken by MMT patients.     

Celecoxib is a substrate of CYP2D6: Impact on celecoxib metabolism in individuals with CYP2C9*3 variants

Celecoxib was characterized as a substrate of human cytochrome P450 (CYP) 2D6 in vitro. In recombinant CYP2D6, celecoxib hydroxylation showed atypical substrate inhibition kinetics with apparent K_m, K_i, and V_max of 67.2 μM, 12.6 μM, and 1.33 μM/min, respectively. In human liver microsomes (HLMs), a concentration-dependent inhibition of celecoxib hydroxylation by quinidine was observed after CYP2C9 and CYP3A4 were inhibited. In individual HLMs with variable CYP2D6 activities, a significant correlation was observed between celecoxib hydroxylation and CYP2D6-selective dextromethorphan O-demethylation when CYP2C9 and CYP3A4 activities were suppressed (r = 0.97, P < 0.0001). Molecular modeling showed two predominant docking modes of celecoxib with CYP2D6, resulting in either a substrate or an inhibitor. A second allosteric binding antechamber, which stabilized the inhibition mode, was revealed. Modeling results were consistent with the observed substrate inhibition kinetics. Using HLMs from individual donors, the relative contribution of CYP2D6 to celecoxib metabolism was found to be highly variable and dependent on CYP2C9 genotypes, ranging from no contribution in extensive metabolizers with CYP2C9*1*1 genotype to approximately 30% in slow metabolizers with allelic variants CYP2C9*1*3 and CYP2C9*3*3. These results demonstrate that celecoxib may become a potential victim of CYP2D6-associated drug-drug interactions, particularly in individuals with reduced CYP2C9 activity.     

CYP2D6 polymorphism in a Gabonese population: contribution of the CYP2D6*2 and CYP2D6*17 alleles to the high prevalence of the intermediate metabolic phenotype

AIMS: To determine the molecular basis of the intermediate extensive metaboliser (EM) CYP2D6 phenotype in healthy Gabonese subjects. METHODS: The CYP2D6 phenotype of 154 healthy Gabonese subjects was assessed by giving the subject a single dose of 30 mg dextromethorphan, and collecting their urine for the next 8 h. The CYP2D6 genotype was determined for 50 individuals of the EM phenotypic group by Southern blotting and various PCR-based procedures aimed at identifying different CYP2D6 alleles. RESULTS: We found that in the studied Gabonese population, as compared with a French population, there is significantly higher frequency of intermediate EM phenotype having lower frequency of CYP2D6 PM alleles. To clarify this discrepancy phenotype-genotype relationship was studied. We found that the CYP2D6*17 and CYP2D6*2 alleles, prevalent in this black population, are characterised by their low capacity for dextromethorphan demethylation. Our data also show that the CYP2D6*1 allele is associated with the highest in vivo activity followed by the CYP2D6*2 allele and then the CYP2D6*17 allele. CONCLUSIONS: The higher frequencies of the CYP2D6*2 and CYP2D6*17 alleles than the CYP2D6*1 allele account for the high frequency of the intermediate EM phenotype in this black population. The polymorphism of the CYP2D6 enzyme activity in African populations could have important implications for use of drugs that are substrates for CYP2D6 and have a narrow therapeutic window.     

Debrisoquin and S-Mephenytoin Hydroxylation Phenotypes and CYP2D6 Genotypes in an Estonian Population

Abstract: The polymorphisms of debrisoquin (CYP2D6) and S-mephenytoin (CYP2C19) hydroxylation were studied in 210 unrelated healthy native Estonians by coadministration of mephenytoin and debrisoquin or dextromethorphan. Among the 210 volunteers 21 (10%) were poor metabolizers of debrisoquin/dextromethorphan and two (0.95%) were poor metabolizers of S-mephenytoin. By pooling these data with an earlier study on 156 Estonians, the prevalences of poor metabolizers of debrisoquin/dextromethorphan and poor metabolizers of S-mephenytoin were 7.6% and 2.2%, respectively. The CYP2D6 genotype of 151 subjects was analysed by allele-specific PCR amplification for the defect alleles CYP2D6A and CYP2D6B. All poor metabolizers of debrisoquin carried two defect CYP2D6-alleles. The phenotype (extensive or poor metabolizer) was in all subjects correctly predicted by the genotype. The frequencies of the defect alleles CYP2D6B and CYP2D6A among these 151 subjects (including 14 poor metabolizers - 9.3%) were 21.5% and 2.3%, respectively. DNA from 6 subjects with very high CYP2D6 activity (debrisoquin MR<0.1) was analysed by EcoRI RFLP to identify duplicated or amplified CYP2D6-genes. Two of the subjects were found to carry a duplicated CYP2D6L-gene. In conclusion, the distribution of genetically determined metabolic capacities of CYP2D6 and CYP2C19 in Estonian unrelated subjects did not differ significantly from that in other Caucasian populations. The CYP2D6 phenotype was predicted by PCR-based amplification for the CYP2D6A and CYP2D6B-aellels.     

Influence of donor and recipient genotypes on CYP2D6 phenotype after liver transplantation: a study of mutations CYP2D6*3 and CYP2D6*4

Objective: After liver transplantation (LT), genotypic differences between the recipient and the transplanted liver, medications and post-LT complications may all affect drug metabolism. We have studied the effect of two CYP2D6 mutations in the donor and the recipient on post-LT CYP2D6 phenotype. Method: The CYP2D6 phenotype was assessed in 48 patients before and after LT with debrisoquine or␣dextromethorphan. CYP2D6*3 (CYP2D6A) and CYP2D6*4 (CYP2D6B) mutations were detected in the donor and the recipient using polymerase chain reaction. Results: Before LT, 40 subjects were classified as extensive metabolisers (EM) and 8 as poor metabolisers (PM); after transplantation, 41 were EMs and 7 were PMs. Genotype and phenotype were in agreement in 100% of EMs and 40% of PMs. The low percentage of agreement in PMs could not be explained by severely altered liver function. The phenotype of 13 subjects was apparently changed by LT: 6 EMs became PMs and 7 PMs became EMs. All four subjects in whom genotype changed following LT had a corresponding change in phenotype: two EM subjects became PMs and two PM subjects became EMs. Conclusion: The low percentage of agreement in PMs may be partly explained by mutations other than CYP2D6*3 and CYP2D6*4. Nevertheless, our study shows that the CYP2D6 genotype of the donor controls the phenotype of the recipient of a liver transplantation. Received: 2 June 1997 / Accepted in revised form: 9 October 1997     

CYP2D6 and CYP2C19 genotypes in an elderly Swedish population

Objective: Eighty-three healthy elderly Swedish subjects (age 87 ± 4 years, mean ± SD, range 80–98 years) were genotyped with respect to the two genetic polymorphisms of oxidative drug metabolism, CYP2D6 and CYP2C19, using allele-specific polymerase chain reaction (PCR). A control population consisted of 248 younger unrelated healthy volunteers (age 31 ± 9 years, range 19–63 years) for CYP2D6, and 162 (age 30 ± 8 years, range 19–55 years) for CYP2C19. Results: No significant differences were found between the control groups and the elderly subjects with respect to the frequencies of the defect alleles CYP2D6*3, CYP2D6*4, CYP2C19*2 and CYP2C19*3. Neither were there any differences in the genotype frequencies, or the predicted phenotype frequencies. The study indicates that the CYP2D6 and CYP2C19 genotypes play no major role in the probability of reaching high age. Conclusion: No genetically determined differences in the pharmacokinetics of drugs metabolized by these two polymorphic enzymes are to be expected in the oldest age groups compared with younger adults. Received: 10 March 1998 / Accepted: 1 May 1998     

In vivo inhibition of CYP2C19 but not CYP2D6 by fluvoxamine

Studies were performed in eight healthy extensive metabolizers of mephenytoin and debrisoquine to determine the effect of fluvoxamine on the activities of S-mephenytoin 4'-hydroxylase (CYP2C19) and metoprolol α-hydroxylase (CYP2D6). Therapeutic dosing with fluvoxamine (100  mg day⁻¹) for 2 weeks caused a significant increase in the 0–8  h urinary S/R ratio of mephenytoin from 0.16 to 0.55 (95% confidence interval for difference between means: 0.28–0.50; P <0.01), accompanied by a 54% reduction in the 0–8  h urinary recovery of 4'-hydroxymephenytoin (95% confidence interval for difference between means: 3.64–16.24  mg; P <0.05). However, this did not alter the assigned phenotype of any of the subjects based on the established antimode of 0.95 (S/R-mephenytoin ratio). Two weeks after fluvoxamine was discontinued, both metabolic indices returned to their pre-study values. By contrast, fluvoxamine had no effect on either 0–8  h urinary metoprolol/α-hydroxymetoprolol ratio (95% confidence interval for difference between means: −0.38–0.46; P >0.05) or the 0–8  h urinary recovery of α-hydroxymetoprolol (95% confidence interval for difference between means: −0.61–0.70  mg; P >0.05). These results indicated fluvoxamine has a modest inhibitory effect on the activity of CYP2C19, but no effect on that of CYP2D6 in vivo .     

CYP2D6 genotype and phenotype determination in a Mexican Mestizo population

Objective Although CYP2D6 genetic polymorphism plays an important role in interindividual and interethnic variability in drug response, very few pharmacogenetic data are available from Hispanic populations, including Mexicans. For this purpose, this study was undertaken to determine CYP2D6 genotype and phenotype in a healthy Mexican Mestizo population. Methods Genotyping of five CYP2D6 mutant alleles by PCR–RFLP, and CYP2D6*5 and duplicated CYP2D6 alleles by long-PCR was performed in two hundred and forty three Mexican Mestizos. Of these, one hundred subjects were also phenotyped using dextromethorphan as the probe drug. Results The frequency of CYP2D6*2, *3, *4, *5, *10, *17 was 19.34%, 1.44%, 11.21%, 2.67%, 12.45%, and 1.65%, respectively, while duplicated CYP2D6 alleles were found in 12.76% of the 243 genotyped subjects. Among the 100 phenotyped subjects, we identified ten (10%, 95% confidence interval of 4.12–15.9) individuals as poor metabolizers by using the published antimode for Caucasians. The mean log₁₀ dextromethorphan/dextrorphan ratio of the total sample was −2.05. The mean (SD) of the log₁₀ MR in the CYP2D6 subgroups was UM=−2.6 (0.86); EM=−2.09 (0.98); IM=−1.71 (1.06); and PM=0.42 (0.625). These data show a trend toward a smaller mean log MR (higher enzyme activity) as the number of active alleles increases. Conclusions The PM frequency of CYP2D6 in the population studied was 10%, which is very similar to Spanish Caucasians. The observed frequency of the CYP2D6 alleles tested was unique for the Mexican Mestizo sample analyzed, and in accordance to the Caucasian, Asian and African admixture in this population.     

No association between CYP2D6 polymorphisms and personality trait in Japanese

AIMS: The polymorphic enzyme CYP2D6 is expressed not only in liver but also in brain at low concentrations. CYP2D6 mediates, to some extent, the synthesis of the neurotransmitters, serotonin and dopamine. We investigated a possible association between the genetic polymorphism of CYP2D6 and individual personality trait. METHODS: Mentally and physically healthy volunteers were recruited (n = 342). Temperament and Character Inventory (TCI) and CYP2D6 genotyping were performed in all subjects. We detected mutated alleles which were identified using the Amplichip CYP450 DNA chip. RESULTS: The number of phenotypes, assumed by genotype for ultrarapid metabolizers (UM), extensive metabolizers (EM), intermediate metabolizers (IM) and poor metabolizers (PM) were 4 (1.1%), 262 (76.6%), 75 (21.9%) and 1 (0.3%), respectively. There were no differences in scores for novelty seeking, harm avoidance, reward dependence or persistence among the CYP2D6 phenotypes. The number of mutated alleles for CYP2D6 did not differ for scores of novelty seeking, harm avoidance, reward dependence or persistence. In subitem analyses, only RD3 (attachment) had a significant difference both in the CYP2D6 phenotype (P < 0.05) and genotype (P < 0.05). CONCLUSIONS: This study did not demonstrate a significant association between CYP2D6 activity and personality trait because of the small interindividual variability in CYP2D6 activity within the Japanese population.     

Lack of polymorphism of the conversion of losartan to its active metabolite E-3174 in extensive and poor metabolizers of debrisoquine (cytochrome P450 2D6) and mephenytoin (cytochrome P450 2C19)

Objective: Losartan was given to subjects with known phenotypes of the polymorphic enzymes CYP2D6 and CYP2C19 to study any possible influence on the metabolism of the drug. Methods: Plasma concentrations of losartan and E-3174 were studied after oral intake of 50 mg losartan in 24 healthy, male, Swedish Caucasian subjects who were extensive or poor metabolizers (EM/PM) of debrisoquine [cytochrome P450 2D6 (CYP2D6)] or mephenytoin [cytochrome P450 2C19 (CYP2C19)]. Results: The areas under the curve (AUC_∞) of losartan and E-3174 did not differ between poor and extensive metabolizers of debrisoquine or mephenytoin, respectively. Conclusion: About 14% of the antihypertensive drug losartan is metabolized to the active carboxylic acid metabolite E-3174, which contributes to the effect of losartan. The present study suggests that CYP2D6 and CYP2C19 are not involved to any major extent in the in vivo conversion of losartan to E-3174. Received: 21 April 1998 / Accepted in revised form: 16 December 1998     

Non‐antiplatelet effect of clopidogrel: improving endothelial function in Chinese healthy subjects with different CYP2C19 genotype

Clopidogrel has been shown to improve endothelial function in vitro and in patients with coronary artery disease. However, it remains unclear whether such an effect of clopidogrel is associated with CYP2C19 polymorphisms that determine the antiplatelet effect of clopidogrel. After genotyping, 12 healthy participants were enrolled in the study. Among them, six participants were CYP2C19*1/*1 (extensive metabolizers; EM) and the other six participants were CYP2C19*2/*2 or *3 (poor metabolizers; PM). All participants received 300 mg clopidogel orally. Endothelial function was assessed by measurement of flow‐mediated dilation of the brachial artery, and adenosine diphosphate‐induced platelet aggregation was determined by using optical aggregometry at 0, 4 and 24 h after administration of 300 mg clopidogrel. Flow‐mediated dilation was significantly higher at 4 and 24 h after a loading‐dose administration of clopidogrel in both the CYP2C19 EM and PM groups, but showed no significant difference between the two groups. Adenosine diphosphate‐induced platelet aggregation was significantly inhibited at 4 and 24 h after administration of clopidogrel in the CYP2C19 EM group. However, there was no statistical correlation between the change in flow‐mediated dilation and adenosine diphosphate‐induced platelet aggregation in the two CYP2C19 groups. This is the first study to report that clopidogrel improves endothelial function in healthy Chinese subjects, which is unrelated with the CYP2C19 genotype and independent of antiplatelet action.     

The effects of CYP2D6 and CYP3A activities on the pharmacokinetics of immediate release oxycodone

Background and purpose:

There is high interindividual variability in the activity of drug-metabolizing enzymes catalysing the oxidation of oxycodone [cytochrome P450 (CYP) 2D6 and 3A], due to genetic polymorphisms and/or drug–drug interactions. The effects of CYP2D6 and/or CYP3A activity modulation on the pharmacokinetics of oxycodone remains poorly explored.

Experimental approach:

A randomized crossover double-blind placebo-controlled study was performed with 10 healthy volunteers genotyped for CYP2D6 [six extensive (EM), two deficient (PM/IM) and two ultrarapid metabolizers (UM)]. The volunteers randomly received on five different occasions: oxycodone 0.2 mg·kg⁻¹ and placebo; oxycodone and quinidine (CYP2D6 inhibitor); oxycodone and ketoconazole (CYP3A inhibitor); oxycodone and quinidine+ketoconazole; placebo. Blood samples for plasma concentrations of oxycodone and metabolites (oxymorphone, noroxycodone and noroxymorphone) were collected for 24 h after dosing. Phenotyping for CYP2D6 (with dextromethorphan) and CYP3A (with midazolam) were assessed at each session.

Key results:

CYP2D6 activity was correlated with oxymorphone and noroxymorphone AUCs and C_max (−0.71 < Spearman correlation coefficient ρs < −0.92). Oxymorphone C_max was 62% and 75% lower in PM than EM and UM. Noroxymorphone C_max reduction was even more pronounced (90%). In UM, oxymorphone and noroxymorphone concentrations increased whereas noroxycodone exposure was halved. Blocking CYP2D6 (with quinidine) reduced oxymorphone and noroxymorphone C_max by 40% and 80%, and increased noroxycodone AUC_∞ by 70%. Blocking CYP3A4 (with ketoconazole) tripled oxymorphone AUC_∞ and reduced noroxycodone and noroxymorphone AUCs by 80%. Shunting to CYP2D6 pathway was observed after CYP3A4 inhibition.

Conclusions and implications:

Drug–drug interactions via CYP2D6 and CYP3A affected oxycodone pharmacokinetics and its magnitude depended on CYP2D6 genotype.     

CYP2D6联合CYP1A2基因多态性对老年晚期癌症伴发 抑郁状态患者奥氮平个体化用药的指导研究

目的：研究老年晚期癌症伴发抑郁状态患者细胞色素酶P450（Cytochrome P450,CYP）2D6联合CYP1A2基因多态性指导奥氮平（olanzapine,OLA）个体化用药。方法：选取2016年9月~2018年1月入院治疗的老年晚期癌症伴发抑郁状态患者80例,利用SPSS 23.0软件随机分为对照组20例和试验组60例,第1周对照组根据经验给予奥氮平初始剂量5 mg·d-1,试验组根据CYP2D6联合CYP1A2基因型给予不同初始剂量奥氮平（联合快代谢型为7.5 mg·d-1,中等代谢型为5 mg·d-1）。第2、3、4周根据奥氮平血药浓度、病情、不良反应调整剂量。给药后第1、4周末,比较两组血药浓度达标情况及疗效。结果：第1周末,试验组血药浓度、达到靶血药浓度范围患者比例、标准化血药浓度、HAMD-24减分率显著高于对照组[（14.13±3.95） vs. （9.59±3.83） ng·L-1,86.7% vs. 60.0%,（38.90±15.51） vs.（30.93±13.55） ng·mL-1·mg-1·kg-1,（28.17±6.52）% vs.（23.27±5.45）%,P<0.05],试验组4周调整剂量患者比例显著低于对照组（20.0% vs. 50.0%,P<0.05）。第1、4周末,试验组快代谢型与中等代谢型患者上述指标均无显著差异（P>0.05）。第1周末,试验组快代谢型患者血药浓度、达到靶血药浓度范围患者比例、标准化血药浓度、HAMD-24减分率显著高于对照组快代谢型[（15.13±3.61） ng·L-1 vs. （6.27±2.62） ng·L-1,86.9% vs. 14.3%,（32.53±11.45） ng·mL-1·mg-1·kg-1 vs. （19.27±8.00） ng·mL-1·mg-1·kg-1,（28.49±5.96）% vs. （21.01±5.44）%,P<0.05],试验组快代谢型4周调整剂量患者比例显著低于对照组快代谢型（17.4% vs. 100.0%,P<0.05）。结论：根据CYP2D6联合CYP1A2基因代谢型指导老年晚期癌症伴发抑郁状态患者服用奥氮平的初始剂量,能够更加有效地使各代谢型患者在治疗早期尽快达到有效奥氮平血药浓度。