Case-only study of interactions between specific genetic polymorphisms and cigarette smoking in the aetiology of Parkinson's disease

Deng, Yifu

January 2005

The aetiology of Parkinson's disease (PD) is still unclear. Research findings suggest that both environmental and genetic factors may contribute to its development. The interactions between genes and the environment might exist and play a key role. Cigarette smoking was found to be one of the few factors exhibiting a protective effect. If chemical compounds found in cigarette smoke influence PD risk, the difference in the ability of certain individuals in metabolising these substances might alter their susceptibility to the risk of developing PD. Many metabolic enzyme genes exhibit polymorphic traits with alteration of gene function. These might be associated with an altered susceptibility of individuals to PD. Few studies have examined the hypothesis that metabolic enzyme gene polymorphisms might modulate the effect of smoking on PD risk. However, it is crucial to consider these potential interactions when we try to elucidate the aetiology of PD. Even if each factor only contributes a slight variation and influences a small portion of the whole population, non-linear and unpredictable interactions may account for a high proportion of the aetiological fraction. Previous studies have not been strictly designed to examine the interactions between smoking and metabolic enzyme genetic polymorphisms. These studies have not been able to elucidate the extent of the interaction. Therefore, this PhD project attempted to examine whether genetic factors, operating in the phase one and phase two metabolic pathways, interact with smoking to influence the development of PD. This is the first genetic epidemiological study of PD specifically addressing this issue. The research aids in further understanding the aetiology of PD and may be useful for identifying people at higher risk. A case-only design was chosen for this project for two reasons: first, PD is a relatively rare disease and the case-only design is much more efficient at detecting gene-environment interactions; second, the PD cases for the project were recruited over the past few years and represent a prevalence series, for which an appropriate comparison group for the cases is difficult to identify and recruit. In a case-only study, only cases are used to investigate the multiplicative effects of the exposures and susceptible genotypes of interest, while non-case subjects (traditionally controls) are solely used to test the independence between the exposure and the susceptible genotype. Therefore, this approach avoids the challenges of control selection, a major limitation inherent in the case-control approach. This thesis comprised of three independent studies: the first study investigated the interactions between genetic polymorphisms of GSTM1, P1, T1 and Z1 and smoking in PD; the second study examined the interactions between genetic polymorphisms of CYP2E1 and smoking in PD; and the third study examined the interactions between genetic polymorphisms of CYP2D6 and smoking in PD. The first two studies recruited 400 white Caucasian PD cases from both hospital wards and private neurology clinics (230 men and 170 women). The third study further included 142 white Caucasian PD cases newly recruited from the same sources (542 in total, 321 men, and 221 women). The mean age of cases was 67 years with the average onset age at 60 years. GSTM1, GSTP1, GSTT1, GSTZ1 AND CYP2E1 genotyping processes were performed using protocols previously published with minor modification, whereas CYP2D6 genotyping methods were mainly developed by me with assistance from associate supervisor Dr. George Mellick. Reliability and validity of the PCR and RFLP methods were assessed through re-conducting the genotype assays using at least a 10% sample of our DNA samples. The results for all re-assessments were 100% concordant. Crude bivariate analyses were adjusted for potential confounding effects of the variables, including age at onset, gender, family history of PD and pesticide exposures. Among our unaffected, aged subjects (mean age: 63.9 years, sd: 11.4 years), the genotype frequencies at each locus were similar to those reported in other Caucasian populations. The first study showed that the proportion of carriers of the GSTP1-114Val allele (mutant) increased with increasing smoking dose from 0 to > 30 pack-years. Homozygotes of the 114Ala allele (wild-type) decreased with increasing smoking dose (trend test: p=0.02). This trend existed both in male and female cases. This dose-effect relationship was most significant in the group of cases with late-onset PD (i.e., age at onset > 55 years) with the ORicase-only values of 1.88 (95%CI: 0.65-5.48) and 2.63 (95%CI: 1.07-6.49) for > 0-10 and > 10 pack-years, respectively. No similar trend was found among our unaffected, aged subjects (p=0.42). Haplotype analyses revealed significant differences for GSTP1 haplotypes between smoking and non-smoking PD cases (ORicase-only for *C haplotype=2.00 (95%CI: 1.11-3.60), p=0.03). In this case, smoking-exposed PD cases were more likely to posses the *C haplotype defined by A to G base-pair transition at nucleotide +313 and C to T base-pair transition at nucleotide +341 (at amino acid level, valine at both positions 105 and 114). The second study found no difference in CYP2E1 genotype frequencies between PD cases who ever smoked compared to those who never smoked (odds ratio for interaction (ORi) = 1.00 (95% CI: 0.39-2.51, p=0.99)). No CYP2E1 gene-smoking interactions were detected in relation to age at onset of PD. The third study found that among cases without regular pesticide exposures, CYP2D6 PMs who smoked more than 5 pack-years had a later mean age at disease onset (68.6 years) than those with extensive metaboliser phenotypes (EMs) (61.1 years, p=0.02) and non-smokers (60.5 years, p=0.01). Analysis of aged subjects without PD confirmed that neither smoking status nor CYP2D6 PM status was associated with age itself. Our data suggest: 1. smoking exposure is independent of GSTM1, P1, T1, Z1 and CYP2E1 genotypes; 2. smoking may be, to some extent, associated with CYP2D6 genotypes; 3. there are no multiplicative interactive effects linking smoking and GSTM1, T1, Z1 or CYP2E1 genotypes with the risk for PD; 4. there is a multiplicative interactive effect between smoking and GSTP1 haplotype - particularly for genotypes carrying the 114Val allele; and 5. there is a multiplicative interactive effect between smoking and CYP2D6 PMs - particularly for people who ever smoked cigarettes more than 5 pack-years. In general, this thesis provides a model for exploring the gene-smoking interactions in PD. Further studies need to consider the recruitment of a large number of population-based and randomly-selected samples and to pay more attention to measurement of environmental exposures. Further studies also need to examine simultaneously the impact of smoking, pesticide exposures and other potential risk factors on PD. These studies will build evidence for interactions contributing to this common neurological movement disorder.

Parkinson’s disease

smoking

GSTM1

GSTP1

GSTT1

GSTZ1

CYP2D6

CYP2E1

gene-environment interaction

Drug metabolic capacity in Koreans : CYP2D6 & CYP2C19 pheno- and genotype relationships in healthy volunteers and in patients /

Roh, Hyung-Keun,

January 1900

Diss. (sammanfattning) Stockholm : Karolinska institutet, 2002. / Härtill 5 uppsatser.

Chirální a achirální chromatografie ve farmakologii a toxikologii / Applications of chiral and achiral chromatography in pharmacology and toxicology

Chytil, Lukáš

January 2011

Development and validation of methods for analysis of several drugs or their metabolites are decribed in this thesis. The document is presented as a commentary to the original papers, which were published in peer reviewed journals. Discussion on the optimization of each method is presented and covers also method development and influence of preanalytical aspects. Additionally, examples of the application of the developed methods in clinical pharmacology and toxicology are shown. This dissertation consists of three parts: enantiomeric determination of tramadol and its metabolite, determination of some antihypertensive drugs, and qualitative analysis of benzodiazepines. Development of a method for chiral analysis of tramadol and its desmethylated metabolite O- desmethyltramadol (ODT) in human urine and plasma is described in the first part of the thesis. Tramadol is a centrally acting analgetic drug, which is used as racemate in clinical practise. Each enantiomer displays different binding properties for various receptors: (+)-tramadol preferentially inhibits serotonin reuptake while (-)-tramadol mainly inhibits noradrenalin reuptake. (+)-tramadol is considered 10-times more potent than (-)-tramadol. Major active metabolite (ODT), which is considered to be the main agent responsible for the...

Chirální a achirální chromatografie ve farmakologii a toxikologii / Applications of chiral and achiral chromatography in pharmacology and toxicology

Chytil, Lukáš

January 2011

Development and validation of methods for analysis of several drugs or their metabolites are decribed in this thesis. The document is presented as a commentary to the original papers, which were published in peer reviewed journals. Discussion on the optimization of each method is presented and covers also method development and influence of preanalytical aspects. Additionally, examples of the application of the developed methods in clinical pharmacology and toxicology are shown. This dissertation consists of three parts: enantiomeric determination of tramadol and its metabolite, determination of some antihypertensive drugs, and qualitative analysis of benzodiazepines. Development of a method for chiral analysis of tramadol and its desmethylated metabolite O- desmethyltramadol (ODT) in human urine and plasma is described in the first part of the thesis. Tramadol is a centrally acting analgetic drug, which is used as racemate in clinical practise. Each enantiomer displays different binding properties for various receptors: (+)-tramadol preferentially inhibits serotonin reuptake while (-)-tramadol mainly inhibits noradrenalin reuptake. (+)-tramadol is considered 10-times more potent than (-)-tramadol. Major active metabolite (ODT), which is considered to be the main agent responsible for the...

MECHANISMS OF VARIABILITY IN CYP2D6 METABOLISM: THE CONTRIBUTIONS OF POLYMORPHISMS, COPY NUMBER VARIATIONS AND microRNA

Anuradha, Ramamoorthy

15 October 2010

Indiana University-Purdue University Indianapolis (IUPUI) / Cytochrome P450 2D6 (CYP2D6) is an important drug metabolizing enzyme that is involved in the metabolism of 20-25% of commonly prescribed drugs. There is interindividual variability in CYP2D6 enzyme activity and this leads to compromised metabolism of many drugs. Genetic and environmental factors explain only a part of the interindividual variability; the other factors that contribute to this variability are largely unknown. Hence, it becomes important to study CYP2D6 to understand the endogenous and exogenous factors that control its activity. The specific objective of this research was to determine the contribution of genetic and epigenetic factors in the regulation of CYP2D6 expression and activity. The specific aims were: (1) to identify the common CYP2D6 polymorphisms in Vietnamese and Filipino women with breast cancer and evaluate its association with plasma concentrations of endoxifen (an active metabolite of the breast cancer therapeutic drug, tamoxifen); (2) to identify the CYP2D6 copy number variations (CNVs) in these women and evaluate their association with endoxifen concentration; and (3) to identify microRNAs (miRNAs) that regulate the expression of CYP2D6 directly or indirectly. The results of this study indicated that: (1) in Vietnamese and Filipino women, the reduced function allele CYP2D6*10 was frequent (~55%) and it was significantly associated with reduced endoxifen concentration; (2) in these women, only 39% carried two copies of the CYP2D6 gene, the rest had a genomic imbalance for CYP2D6, primarily involving the CYP2D6(*36)n-*10 allele. However, carrying multiple copies of CYP2D6*36 allele did not significantly affect CYP2D6 activity, suggesting that multiple copies of a gene does not always translate to additive effects; and (3) microRNAs were identified to target HNF4A, a transcriptional factor that regulates CYP2D6 expression. These miRNAs are likely to play an important role in the indirect regulation of CYP2D6. Taken together, these results emphasize on the role of polymorphisms, CNVs and possibly miRNAs in the regulation of CYP2D6. These clinically important biomarkers will help to improve the efficacy and reduce the side effects of many CYP2D6 substrate drugs and thus contribute to personalization of drug therapy.

Cytochrome P-450 -- Regulation

Drugs -- Metabolism

Genetic polymorphisms

A child's genotype predicted CYP2D6 phenotype correlates with parent initiated contact following tonsillectomy

Kara, Jacqueline M.

20 September 2011

No description available.

Genetics

tonsillectomy

codeine

CYP2D6

poor metabolizer

adverse drug reaction

parent contact

Bedeutung der genetischen Polymorphismen in den Enzymen CYP2D6, CYP2C19 und CYP2C9 für Pharmakokinetik der trizyklischen Antidepressiva Doxepin und Trimipramin

Müller, Gunnar

21 November 2005

Mehrere Studien wiesen eine Beteiligung der Enzyme CYP2D6, CYP2C19 und CYP2C9 am Metabolismus von trizyklischen Antidepressiva nach. Wir untersuchten die Auswirkungen genetischer Polymorphismen dieser Enzyme auf die Pharmakokinetik von E-, Z-Doxepin und Trimipramin beim Menschen. Eine einzelne orale Dosis von jeweils 75 mg Trimipramin und Doxepin wurde 42 gesunden Probanden verabreicht, die als Schnell- (EM), Intermediär- (IM) und Langsammetabolisierer (PM) von CYP2D6- und CYP2C19-Substraten und als Langsammetabolisierer mit dem CYP2C9-Genotyp *3/*3 genotypisiert worden waren. Die Substrate sowie ihre aktiven Metaboliten wurden mittels HPLC im Plasma gemessen, Daten wurden mit nonparametrischen pharmakokinetischen Methoden analysiert und statistisch ausgewertet. Die mittlere E-Doxepin-Clearance (95%-KI) betrug 406 (390-445), 247 (241-271) and 127 (124-139) l/h bei CYP2D6-EMs, -IMs und –PMs und war auch bei Trägern des CYP2C9*3/*3-Genotyps signifikant niedriger (238 l/h). CYP2C19 beeinflusste die orale Clearance von Z-Doxepin um das 2,5-fache (73 l/h in CYP2C19-PMs verglichen mit 191 l/h bei EMs). Die AUC (0-48h) des aktiven Metaboliten Desmethyldoxepin war vom CYP2D6-Genotyp abhängig mit einem Median von 5,28, 1,35 und 1,28 nmol/l*h bei CYP2D6-PMs, -IMs und –EMs. Die mittlere orale Trimipramin-Clearance betrug 276 l/h (180-444) in der Referenzgruppe aber nur 36 l/h (24-48) bei CYP2D6-PMs. Die AUC von Desmethyltrimipramin war 40-fach höher bei CYP2D6-PMs als bei EMs (1,7 verglichen mit 0,04 mg/l*h bei EMs), aber unter der Nachweisgrenze bei den meisten Probanden mit CYP2C19- oder CYP2C9-Defizienz. Der CYP2D6-Polymorphismus wies eine starke Auswirkung auf die Pharmakokinetik von E-Doxepin und Trimipramin sowie eine ausgeprägte Stereoselektivität bei der Biotransformation von Doxepin auf. CYP2D6-PMs sind möglicherweise einem erhöhten Risiko für unerwünschte Nebenwirkungen ausgesetzt bei der Behandlung mit den EMpfohlenen Dosen dieser Antidepressiva. / Several studies have demonstrated involvement of the enzymes CYP2D6, CYP2C19 and CYP2C9 in the metabolism of tricyclic antidepressants. We studied the effects of genetic polymorphisms in these enzymes on E-,Z-doxepin and trimipramine pharmacokinetics in humans. A single orale dose of each 75 mg timipramine and doxepin was given to 42 healthy volunteers genotyped as extensive (EM), intermediate (IM) and poor (PM) metabolizers of substrates of CYP2D6 and of CYP2C19 and as slow metabolizers with the CYP2C9 genotype *3/*3. E-,Z-doxepin and -desmethyldoxepin as well as trimipramine and desmethyltrimipramine were quantified in plasma by HPLC. Data were analyzed by non-parametric pharmacokinetics and statistics. Mean E-doxepin clearance (95% confidence interval) was 406 (390-445), 247 (241-271) and 127 (124-139) l/h in EMs, IMs and PMs of CYP2D6 and was also significantly lower in carriers of CYP2C9*3/*3 (238 l/h). CYP2C19 was involved in Z-doxepin metabolism with 2.5-fold differences in oral clearances (73 l/h in CYP2C19 PMs compared with 191 l/h in EMs). The AUC (0-48 h) of the active metabolite desmethyldoxepin was dependent on CYP2D6 genotype with a median of 5.28, 1.35 and 1.28 nmol/l*h in PMs, IMs and EMs of CYP2D6. The genetically polymorphic enzymes exhibited highly stereoselective effects on doxepin biotransformation in humans. The median oral clearance of trimipramine was 276 l/h (180-444) in the reference group but only 36 l/h (24-48) in CYP2D6-PMs. The AUC of desmethyltrimipramine was 40-fold greater in CYP2D6 PMs than in the reference group (1.7 vs. 0.04 mg/l*h in EMs), but below the quantification limit in most carriers of deficiencies of CYP2C19 or CYP2C9. The CYP2D6 polymorphism had a strong impact on E-doxepin and trimipramine pharmacokinetics and CYP2D6-PMs might be at an elevated risk for adverse drug effects when treated with common recommended doses of these antidepressants.

CYP2D6

Pharmakokinetik

CYP2C19

CYP2C9

Dopexin

Trimipramin

Genetischer Polymorhpismus

CYP2D6

CYP2C19

CYP2C9

doxepine

trimipramine

genetic polymorhisms

pharmacokinetics

610 Medizin

33 Medizin

YH 6204

YH 6215

YH 6219

YH 6290

ddc:610

Bedeutung von Cytochrom-P450-Polymorphismen für Verlauf, Erfolg und Nebenwirkungen der Therapie mit Antidepressiva

Lorberg, Caroline

21 November 2005

Im Bereich der medikamentösen antidepressiven Therapie ist die Bedeutung von erblichen Polymorphismen arzneistoffmetabolisierender Enzyme bereits in vielen Studien untersucht und gezeigt worden. Die meisten Antidepressiva werden über polymorphe Cytochrom-P450-Enzyme verstoffwechselt. Diese Arbeit befasst sich mit der Fragestellung, ob die Häufigkeitsverteilung der CYP2D6-, CYP2C19- und CYP2C9-Allele in der an Depression erkrankten Studienpopulation sich von der in der Normalbevölkerung unterscheidet und ob Veränderungen in der Pharmakokinetik, wie sie durch Cytochrom-P450-Polymorphismen verursacht werden, unter normalen klinischen Bedingungen Auswirkungen auf die Wirksamkeit der antidepressiven Therapie, die Nebenwirkungsrate und den Verlauf der Erkrankung haben. Im Rahmen dieser Arbeit wurden 334 Patienten auf die häufigsten CYP2D6-Allele (*3,*4,*5,*6 und Duplikation) und CYP2C19- und CYP2C9-Allele *2 und *3 mittels Genotypisierung untersucht. Die Bestimmung der seltener auftretender CYP2D6-Allele (*8,*9,*10,*17,*2 und *41) erfolgte zusätzlich bei 200 Patienten. Die entsprechenden klinischen Fragebögen mit Angaben zur Anamnese, Schwere der Erkrankung, Therapieverlauf und Nebenwirkungsprofil wurden von 233 Patienten in Abhängigkeit des CYP2D6- und CYP2C19-Genotyps ausgewertet. Für die Beurteilung des Langzeittherapieverlaufs standen jedoch deutlich weniger Patientendaten zur Verfügung, so dass die Ergebnisse zum Teil nur für den CYPD6-Genotyp ausgewertet werden konnten. Die genetischen Analysen ergaben, dass die Häufigkeitsverteilung der CYP2D6-, CYP2C19- und CYP2C9-Polymorphismen in der untersuchten Studienpopulation keine signifikante Änderung im Vergleich zur Normalbevölkerung aufwies. Während der Einfluss der CYP2D6-Genotypen auf pharmakokinetische Parameter eindeutig nachgewiesen ist, konnten die Ergebnisse dieser Arbeit weitestgehend keinen Zusammenhang zwischen der Schwere der Depression, der Therapieresponse, der Häufigkeit und Schwere der Nebenwirkungen und dem CYP2D6- und CYP2C19-Genotyp herstellen. / The importance of genetic polymorphisms of drug metablizing enzymes have been already investigated und proved in many studies before. Most of antidepressants are metabolized by cytochrome P450 enzymes. The aim of this study was to determine if there is a difference in the distribution of CYP2D6-, CYP2C19- and CYP2C9-allels in inpatients with major depression in comparison to the healthy population and if changes in the pharmacokinatic, created by cytochrome P450 polymorphisms, can be have effects on the efficacy of antidepressant therapy, rate of intolerable side effects and development of the depression. We examined 334 patients by genotyping for the most important CYP2D6-allels (*3,*4,*6,*5 und duplication) and the CYP2C19- and CYP2C9-allels *2 and *3. Further 200 patients were tested for the more infrequent CYP2D6-allels (*8,*9,*10,*17,*2 and *41). The corresponding clinical questionnaires containing informations about the anamnesis, severity of the desease, therapeutic outcome and intolerable side effects have been evaluated of 233 patients in dependence of the CYP2D6- and CYP2C19-genotype. There were significant less clinical datas for the evaluation of long term therapy response be available, so that the results could be partially only analysed for the CYP2D6-genotype. The genetic analysis detected that the distribution of the CYP2D6-, CYP2C19- and CYP2C9-polymorphismen in the study population didn´t reached significant changes in comparison to the healthy population. While the influence of CYP2D6-genotypes on pharmacokinatic parameters is clear demonstrated, the results of this study mainly couldn´t establish a relation between the severity of depression, therapeutic response, frequency and severity of side effects and the CYP2D6 and CYP2C19-genotype.

Cytochrom-P450-Polymorphismen

CYP2D6

CYP2C19

CYP2C9

Genotypisierung

Depression

antidepressive Therapie

Therapieresistenz

cytochrome-P450-polymorphisms

CYP2D6

CYP2C19

CYP2C9

genotyping

depression

antidepressant therapy

therapeutic failure

610 Medizin

33 Medizin

YH 6204

YH 6215

YH 6293

YU 6292

ddc:610

OCT1-mediated cellular drug uptake and interactions between drug transport and drug metabolism / OCT1-mediated cellular drug uptake and interactions between drug transport and drug metabolism

Saadatmand, Ali Reza

25 October 2012

No description available.

610 Medizin, Gesundheit

Medicine

Biology (incl. Psychology)

medikament-Aufnahme

Metabolisierung

drug uptake

drug metabolism

44.38 Pharmakologie

Auswirkungen von CYP2D6-, CYP2C9- und CYP2C19-Polymorphismen auf Pharmakokinetik und Wirkungen von Carvedilol / Carvedilol pharmacokinetics and pharmacodynamics in relation to CYP2D6-, CYP2C9- and CYP2C19-polymorphisms

Gültepe, Şenol

18 October 2011

No description available.

610 Medizin, Gesundheit

MED 351

Medicine

Carvedilol

CYP2D6-

CYP2C9-

CYP2C19-Polymorphismus

Herzinsuffizienz

Hypertonie

Carvedilol Pharmakokinetik

Carvedilol Pharmakodynamik

Carvedilol Pharmakogenetik.

Carvedilol

CYP2D6-

CYP2C9-

CYP2C19-polymorphisms

heart failure

hypertension

carvedilol pharmacokinetics

carvedilol pharmacodynamics

carvedilol pharmacogenetics.

44.38