Dany Chevalier

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.

Ethnic differences in the distribution of CYP3A5 gene polymorphisms

The genetic polymorphism affecting the CYP3A5 enzyme is responsible for interindividual and interethnic variability in the metabolism of CYP3A5 substrates. The full extent of the CYP3A5 genetic polymorphism was analysed in French Caucasian, Gabonese and Tunisian populations using a polymerase chain reaction-single strand conformational polymorphism (PCR-SSCP) strategy. In the three populations, eight, 17 and ten single nucleotide polymorphisms (SNPs), respectively, were identified, among which nine correspond to rare new mutations. Also identified were 16 alleles including eight new allelic variants. Significant differences were observed in the distribution of these alleles. Particularly, the frequency of the CYP3A5*3C null allele in French Caucasians (81.3%) and in Tunisians (80.0%) is higher than in the Gabonese population (12.5%) (p < 0.001). Considering the CYP3A5 genotypes of the tested individuals, only 10.4% of French Caucasians and 30.0% of Tunisians were identified as CYP3A5 expressors. In contrast, 90.0% of Gabonese subjects appear to express the CYP3A5 protein.

Functional analysis of CYP2d6.31 variant : Homology modeling suggests possible disruption of redox partner interaction by Arg440his substitution

Cytochrome P450 2D6 (CYP2D6) is an important human drug‐metabolizing enzyme that exhibits a marked genetic polymorphism. Numerous CYP2D6 alleles have been characterized at a functional level, although the consequences for expression and/or catalytic activity of a substantial number of rare variants remain to be investigated. One such allele, CYP2D6*31, is characterized by mutations encoding three amino acid substitutions: Arg296Cys, Arg440His and Ser486Thr. The identification of this allele in an individual with an apparent in vivo poor metabolizer phenotype prompted us to analyze the functional consequence of these substitutions on enzyme activity using yeast as a heterologous expression system. We demonstrated that the Arg440His substitution, alone or in combination with Arg296Cys and/or Ser486Thr, altered the respective kinetic parameters [Km (μM) and kcat (min−1)] of debrisoquine 4‐hydroxylation (wild‐type, 25; 0.92; variants, 43–68; 0.05–0.11) and dextromethorphan O‐demethylation (wild‐type, 1; 4.72; variants, 12–23; 0.64‐1.43), such that their specificity constants (kcat/Km) were decreased by more than 95% compared to those observed with the wild‐type enzyme. The rates of oxidation of rac‐metoprolol at single substrate concentrations of 40 and 400 μM were also markedly decreased by approximately 90% with each CYP2D6 variant containing the Arg440His substitution. These in vitro data confirm that the CYP2D6*31 allele encodes an enzyme with a severely impaired but residual catalytic activity and, furthermore, that the Arg440His exchange alone is the inactivating mutation. A homology model of CYP2D6 based on the crystal structure of rabbit CYP2C5 locates Arg440 on the proximal surface of the protein. Docking the structure of the FMN domain of human cytochrome P450 reductase to the CYP2D6 model suggests that Arg440 is a key member of a cluster of basic amino acid residues important for reductase binding. Proteins 2005.

Genetic polymorphism of CYP4A11 and CYP4A22 genes and in silico insights from comparative 3D modelling in a French population

The CYP4A subfamily is known to ω-hydroxylate the endogenous arachidonic acid into 20-hydroxyeicosatetranoic acid, which has renovascular and tubular functions. The aim of this work was to report a comprehensive investigation of the CYP4A11 and CYP4A22 genetic polymorphisms in a French population. Using PCR-SSCP and sequencing strategies, a total of 26 sequence variations were identified comprising 3 missense mutations for CYP4A11 (Ser404Phe, Phe434Ser and Arg505His) and 7 missense mutations for CYP4A22 (Arg126Trp, Gly130Ser, Asn152Tyr, Val185Phe, Cys231Arg, Leu428Pro and Leu509Phe). In comparison with SNPs reported in the database (dbSNP) of the National Center for Biotechnology information (NCBI), 6 and 3 novel polymorphisms were identified in CYP4A11 and CYP4A22, respectively. The potential impact of the amino acid substitutions on the structure and/or catalytic activity of the enzymes has been estimated by the construction and validation of the CYP4A 3D models. These results could be helpful for further investigations of the potential role of CYP4A variants in the genetic susceptibility to cardiovascular diseases in humans such as arterial hypertension.

Genetic polymorphisms of Glycine N-acyltransferase (GLYAT) in a French Caucasian population

In humans, the glycine N-acyltransferase enzyme (GLYAT) is thought to be important in the detoxification of endogenous and xenobiotic compounds which contain a carboxylic acid group, such as benzoic, isovaleric, or acetylsalicylic acids. The aim of this work was to report a comprehensive investigation of GLYAT genetic polymorphisms in DNA samples from 55 subjects of French Caucasian origin, using polymerase chain reaction–single-strand conformation polymorphism and sequencing strategies. Seven different polymorphisms of the GLYAT gene were identified, including two polymorphisms in the 5′ flanking region of the gene (g.−8457C>T and g.−8010A>G), two polymorphisms in intron 5 (g.13931A>G and g.13944C>T) and three missense mutations in exon 2 (g.49T>A; p.Ser17Thr), exon 5 (g.13886A>G; p.Asn156Ser) and exon 6 (g.14435C>T; p.Arg199Cys). In addition to the wild-type allele GLYAT*1 (2.7%), four novel alleles were identified: GLYAT*2A (75.5%), *2B (4.5%), *3 (16.4%) and *4 (0.9%), and five different genotypes. Localisation of the p.Ser17Thr and p.Arg199Cys missense mutations in predicted secondary structures suggest that these variants might have a potential role on the GLYAT protein activity. These results could be helpful in investigating the potential association of GLYAT variants with an incidence of reduced efficiency in xenobiotic carboxylic acids detoxification in humans.

CYP2A13 genetic polymorphism in French Caucasian, Gabonese and Tunisian populations

Since human CYP2A13 is expressed in the respiratory tract and is involved in the activation of tobacco-specific nitrosamines, some of the previously reported sequence variations may contribute to inter-individual and inter-ethnic differences in the susceptibility of tobacco-related tumorigenesis. The aim was to compare the frequencies of the 578C > T (Arg101Stop), 3375C > T (Arg257Cys) and 7520C > G (3′-untranslated region) mutations in several populations. The frequencies of the 578C > T polymorphism were 3.8, 0 and 1.0% in French Caucasians, Gabonese and Tunisians, respectively. In the same populations, the frequencies of the 3375C > T mutation were 0, 15.3 and 4.2%, respectively, whereas the frequencies of the 7520C > G mutation were 1.0, 20.8 and 7.3%, respectively. Marked inter-ethnic variations in CYP2A13 were identified and confirmed. These findings provide data for further studies that associate CYP2A13 haplotypes with an incidence of smoking-related tumours in respect of ethnicity.

Tungsten Carbide-Cobalt as a Nanoparticulate Reference Positive Control in In Vitro Genotoxicity Assays

With the increasing human exposure to nanoparticles (NP), the evaluation of their genotoxic potential is of significant importance. However, relevance for NP of the routinely used in vitro genotoxicity assays is often questioned, and a nanoparticulate reference positive control would therefore constitute an important step to a better testing of NP, ensuring that test systems are really appropriate. In this study, we investigated the possibility of using tungsten carbide-cobalt (WC-Co) NP as reference positive control in in vitro genotoxicity assays, including 2 regulatory assays, the mouse lymphoma assay and the micronucleus assay, and in the Comet assay, recommended for the toxicological evaluation of nanomedicines by the French Agency of Human Health Products (Afssaps). Through these assays, we were able to study different genetic endpoints in 2 cell types commonly used in regulatory genotoxicity assays: the L5178Y mouse lymphoma cell line and primary cultures of human lymphocytes. Our results showed that the use of WC-Co NP as positive control in in vitro genotoxicity assays was conceivable, but that different parameters have to be considered, such as cell type and treatment schedule. L5178Y mouse lymphoma cells did not provide satisfactory results in the 3 performed tests. However, human lymphocytes were more sensitive to genotoxic effects induced by WC-Co NP, particularly after a 24-h treatment in the in vitro micronucleus assay and after a 4-h treatment in the in vitro Comet assay. Under such conditions, WC-Co could be used as a nanoparticulate reference positive control in these assays.

CYP2F1 genetic polymorphism: Identification of interethnic variations

Since human cytochrome P450 2F1 (CYP2F1) is predominantly expressed in lung tissue and is involved in the metabolism of various pneumotoxicants with potential carcinogenic effects, variations in the nucleotidic sequence of its gene may contribute to interindividual and interethnic differences in the susceptibility to lung tumorigenesis. The aim of the current study was to compare the frequency of a previously reported frameshift mutation, namely c.14_15insC, responsible for the synthesis of a severely truncated protein, between several populations of different ethnic origins. The frequencies of this polymorphism were 26.1, 51.6, 42.7 and 22.9% in French, Gabonese, Senegalese, and Tunisian population samples, respectively, thereby representing a substantial inter ethnic variation in the CYP2F1 gene. These findings provide data for further studies that investigate the potential association of CYP2F1 haplotypes with an incidence of lung cancer genesis in respect of ethnicity.

Arachidonic acid ω-hydroxylase CYP4A11: inter-ethnic variations in the 8590T>C loss-of-function variant

The human Cytochrome P450 4A11 (CYP4A11) is a major ω-hydroxylase involved in the regulation of blood pressure in the kidney through the conversion of arachidonic acid into 20-hydroxyeicosatetraenoic acid (20-HETE). Previous studies have reported a significant association between the 8590T>C genetic variant of CYP4A11 and hypertension. Interestingly, several population-based studies have reported ethnic differences in the prevalence of hypertension, with the highest prevalence in African populations. The aim of this work was to determine the frequency and inter-ethnic comparison of the CYP4A11 (8590T>C) functional polymorphism, in five new ethnic groups: European (99 French Caucasians), African (36 Gabonese and 50 Senegalese), South American (60 Peruvians) and North African (53 Tunisians) populations, using polymerase chain reaction-single strand conformational polymorphism and sequencing strategies. We confirmed that the CYP4A11 (8590T>C) functional polymorphism exhibits inter-ethnic frequency differences. Noteworthy, the highest 8590C allele frequency was observed in the Tunisian (30.2%), followed by Senegalese (20%) populations. In addition, the CC genotype was only found in the Gabonese and Tunisian populations (5.6% and 8.4%, respectively). These populations may be of major interest to help to clarify the linkage between hypertension and CYP4A11 (8590T>C) genotype in African populations. These findings provide data for further studies that investigate the potential association of CYP4A11 (8590T>C) variant with an incidence of hypertension genesis in respect of ethnicity.

Genotoxicity of tungsten carbide-cobalt (WC-Co) nanoparticles in vitro: mechanisms-of-action studies.

We showed previously that tungsten carbide-cobalt (WC-Co) nanoparticles (NP) can be used as a nanoparticulate positive control in some in vitro mammalian genotoxicity assays. Here, we investigate the mechanisms of action involved in WC-Co NP genotoxicity in L5178Y mouse lymphoma cells and primary human lymphocytes, in vitro. Data from the micronucleus assay coupled with centromere staining and from the chromosome-aberration assay show the involvement of both clastogenic and aneugenic events. Experiments with the formamidopyrimidine DNA glycosylase (FPG)-modified comet assay showed a slight (non-significant) increase in FPG-sensitive sites in the L5178Y mouse lymphoma cells but not in the human lymphocytes. Electron paramagnetic resonance spin-trapping results showed the presence of hydroxyl radicals (•OH) in WC-Co NP suspensions, with or without cells, but with time-dependent production in the presence of cells. However, a significant difference in •OH production was observed between human lymphocytes from two different donors. Using H2O2, we showed that WC-Co NP can participate in Fenton-like reactions. Thus, •OH might be produced either via intrinsic generation by WC-Co NP or through a Fenton-like reaction in the presence of cells.