Genotypic and phenotypic analysis of the polymorphic thiopurine S-methyltransferase gene (TPMT) in a European population.

1. Characterization of allelic variants of the TPMT gene (TPMT) responsible for changes in TPMT activity, and elucidation of the mechanism by which these alleles act, are required because of the clinical importance of this polymorphism for patients receiving thiopurine drugs. 2. We defined the mutational and allelic spectrum of TPMT in a group of 191 Europeans. Using PCR-SSCP, we screened for mutation the entire coding sequence, the exon-intron boundaries, the promoter region and the 3'-flanking region of the gene. Six mutations were detected throughout the ten exons and seven TPMT alleles were characterized. Four of them, TPMT*2, *3A, *3C and *7, harbouring the known mutations, G238C, G460A, A719G or T681G, were nonfunctional and accounted for 0.5, 5.7, 0.8 and 0.3% of the allele totality, respectively. 3. Within the promoter region, six alleles corresponding to a variable number of tandem repeats (VNTR), were identified. VNTR*V4 and *V5a which harbour four or five repeats of a 17-18 bp unit, were the most frequent (55% and 34%, respectively). The other VNTR alleles, having from five to eight repeats, were rarer. 4. The TPMT phenotype was correctly predicted by genotyping for 87% of individuals. A clear negative correlation between the total number of repeats from both alleles and the TPMT activity level was observed, indicating that VNTRs contribute to interindividual variations of TPMT activity. Therefore, additional analysis of the promoter region of TPMT can improve the phenotype prediction rate by genotyping.

Analysis of ERDA1, CTG18.1, and uncloned CAG/CTG repeat sequences in familial Parkinson's disease with anticipation.

In several neurodegenerative diseases, anticipation or increase in disease severity in succeeding generations within families correlates with expansions of an intragenic CAG/CTG repeat sequence above the normal range through the generations of a pedigree. Some kindreds of familial Parkinson's disease (PD) exhibit genetic anticipation. We used the repeat expansion detection (RED) method to detect repeat expansions directly in DNA samples from the index cases of 34 different PD families with anticipation. The mean age at onset of the younger probands was 48.8 +/- 10.8 years and the mean intergenerational difference was 19.2 +/- 10 years. The distribution of the RED products greater than 40 repeats was not significantly different between patients and controls with the Mann-Whitney U test (U = 510.5, p = 0.67). The samples were then screened for the two expanded-repeat loci, ERDA1 and CTG18.1. We found that in all cases the repeat expansion detected by the RED method may be accounted for by an expansion at these loci. Our results demonstrate that unstable CAG/CTG expansions corresponding to uncloned or cloned sequences (ERDA1, CTG18.1) are not involved in the etiology of rare familial case of PD with genetic anticipation. Am. J. Med. Genet. (Neuropsychiatr. Genet.) 88:738-741, 1999

A new GTP-cyclohydrolase I mutation in an unusual dopa-responsive dystonia, familial form.

We found a new mutation in the GTP cyclohydrolase gene involved in dopa-responsive dystonia. We sequenced the GTP cyclohydrolase gene in a family with four siblings affected by this disorder and identified an A-T mutation in exon 2, leading to a non conservative amino acid substitution at codon 135 of the protein (Ile135Lys), which may change the conformation of the binding site of this enzyme. The clinical evolution was heterogeneous among carriers of the same mutation, underlining the involvement of other determinants modulating the occurrence of the disease such as genetic or environmental susceptibility factors.

Study of circadian melatonin secretion pattern at different stages of Parkinson's disease.

To explore changes in melatonin secretion patterns and biologic rhythms in Parkinson's disease patients with or without levodopa-related motor complications (LDRMCs), the authors investigated, in an observational study, circadian rhythms of central temperature, motor activity, plasma cortisol, and melatonin in three groups: de novo untreated patients (group I), patients treated with levodopa + dopamine agonist and without LDRMCs (group II), and patients treated with levodopa + dopamine agonist and with LDRMCs (group III). There were no differences among the three groups for the rhythm of temperature, motor activity, or plasma cortisol. There was a significant (p < 0.05) phase advance in plasma melatonin secretion in patients receiving a dopaminergic treatment compared with untreated patients. The daytime area under the curve (AUC) was increased significantly in group III, and the nighttime AUC-to-daytime AUC ratio of melatonin secretion decreased significantly in group III, suggesting that the nychthemeral pattern of melatonin secretion was changed in patients with LDRMCs. Comparison of the three groups suggests a slight but insignificant phase advance and amplitude decrease of circadian melatonin secretion related to both evolution and treatment of Parkinson's disease. Despite the lack of a global desynchronization in other circadian biologic rhythms, the circadian secretion pattern of melatonin is modified in patients with LDRMCs.

[Genetic dystonia]. / Les dystonies génétiques.

A NEW CLASSIFICATION: The advent of molecular genetics has led to a total revision of earlier classifications of primary dystonias. LOCUS DYT-1 PRIMARY DYSTONIA: Locus DYT1, situated on chromosome 9, is responsible for the most common phenotypic expression of generalized primary dystonia, Ziehen-Oppenheim disease. This autosomal dominant disease has variable penetration. It has long been recognized that some individuals in families with typical disease only have segmentary, multifocal or even focal dystonia. It has been proven by molecular genetics that the disease can be expressed simply by familial writers cramp with particularly early, and often bilateral, onset. The mutation concerns the torsine A gene, whose function remains to be elucidated. Torsine A is found in the central nervous system, particularly in the dopaminergic neurons of the locus niger. GENERALIZED PRIMARY DYSTONIA UNRELATED TO DYT-1: These dystonias are phenotypically different: younger and more variable age at onset, focal localization early in the disease course generally involving the cervical or cephalic pole, less severe course. Certain forms are linked to chromosome 8 (locus DYT 6). PRIMARY FOCAL OR SEGMENTARY DYSTONIAS: These primary dystonias cause functional or postural disorders and were long considered as sporadic despite rare familial cases suggesting a genetic factor. When searched for systematically, familial cases are found in 20 to 30% of the cases. The dystonia is transmitted by dominant autosomal heredity with reduced penetration. Phenotypically, expression is heterogeneous with a constant frequency of unrecognized or neglected forms and of postural forms. One form is known to be linked to chromosome 18 (locus DYT 7). DOPA-RESPONSIVE DYSTONIA: This class represents 5 to 10% of childhood dystonias. The phenotypic expression is polymorphous but symptoms always improve with very small doses of L-dopa. Both sporadic, and more frequently familial, cases are described. Some forms are recessive, caused by mutation of the gene coding for tyrosine hydroxylase, others are autosomal dominant, often linked to mutation of the gene coding for GTP cyclohydrolase. RAPID ONSET DYSTONIA SYNDROME-PARKINSONISM: This dominant autosomal dystonia is quite exceptional, ... and intriguing.

Grapefruit juice-nifedipine interaction: possible involvement of several mechanisms.

OBJECTIVE: To develop a model based on mean residence time for better understanding the effect of grapefruit juice on the metabolism of nifedipine (NIF). MATERIAL AND METHODS: Sixteen healthy volunteers from an urban population were included. For each trial, the subjects drank water, fresh grapefruit juice or bottled grapefruit juice. Thirty minutes later, the subjects took a 10 mg capsule of NIF, orally. Plasma concentration of NIF was measured and the kinetic parameters were calculated with a non-compartmental model. RESULTS: Grapefruit juice increased the bioavailability of NIF, but did not significantly reduce the drug's metabolism as shown by the approximately constant metabolite to parent drug AUC ratio (P = 0.948). There was no significant increase in the amount of non-metabolized drug absorbed during first-pass: 0.12 and 0.16 (P = 0.470) without and with grapefruit juices respectively. There was an increase in the relative bioavailability (P = 0.039) and the apparent volume of distribution (Vdm) (P = 0.025) of dehydronifedipine with grapefruit co-administration. A second peak was also observed in the NIF plasma-concentration profile when the drug is co-administered with grapefruit juice. Therefore, the most likely explanation for the double peak phenomenon is a delay in gastric emptying (+32 min with grapefruit juice) caused by the pH of grapefruit juice. CONCLUSION: This study shows that grapefruit juice interferes with the metabolism of NIF by inhibiting NIF metabolism and slowing down the rate of gastric emptying. This study also confirms that the metabolic inhibition is not a first pass effect, but is a secondary oxidative step.

Dramatic inhibition of amiodarone metabolism induced by grapefruit juice.

AIMS: Grapefruit juice increases blood concentrations of many drugs metabolized by CYP3A. Amiodarone is metabolized by CYP3A to N-desethylamiodarone (N-DEA). The aim of this study was to determine amiodarone kinetics when administrated with and without grapefruit juice. METHODS: Eleven healthy adult volunteers took part in a single sequence, repeated-measures design study. Each subject, who had been evaluated 6 months previously for amiodarone pharmacokinetics, was given a single oral dose of amiodarone (17 mg kg-1) with three glasses of 300 ml of grapefruit juice on the same day. RESULTS: Grapefruit juice completely inhibited the production of N-DEA, the major metabolite of amiodarone, in all subjects and increased the area-under-the-curve (AUC) and maximum concentration of amiodarone (Cmax) by 50% and 84%, respectively, as compared with the control period during which water had been administrated instead of grapefruit juice (AUC: 35.9 +/- 14.3 vs 23.9 +/- 11.2 microg ml-1 h, P < 0.005 and Cmax: 3.45 +/- 1.7 vs 1.87 +/- 0.6 microg ml-1, P < 0. 02, respectively) (means +/- s.d.). This inhibition of N-DEA production led to a decrease in the alterations caused by amiodarone on PR and QTc intervals. CONCLUSIONS: Grapefruit juice dramatically alters the metabolism of amiodarone with complete inhibition of N-DEA production. These results are in agreement with in vitro data pointing to the involvement of CYP3 A in the metabolism of amiodarone and suggests that this interaction should be taken into account when prescribing this antiarrhythmic drug.