Nina Sneitz scite author profile

Objectives-Characterize the expression and glucuronidation activities of the human UDPglucuronosyltransferase (UGT) 2A2.Methods-UGT2A1 was cloned from nasal mucosa mRNA. Synthetic cDNA for UGT2A2 was constructed assuming exon sharing between UGT2A1 and UGT2A2 (Mackenzie et al., Pharmacogenetics and Genomics 2005, 15:677-685). Exon 1 of UGT2A2 was amplified from genomic DNA and combined with exons 2-6 of UGT2A1. UGT2A3 was cloned from liver mRNA. Quantitative RT-PCR was used to evaluate the expression of all the three UGTs of subfamily 2A in different tissues. Recombinant UGT2A1, UGT2A2 and UGT2A3 were expressed in baculovirus-infected insect cells and analyzed for glucuronidation activity towards different substrates.Results-DNA sequencing of reverse-transcribed PCR (RT-PCR) products from human nasal mucosa mRNA, confirmed exon sharing between UGT2A1 and UGT2A2. In addition, it indicated that the N-terminal signal peptide sequence of UGT2A2 is the longest among the human UGTs. Quantitative RT-PCR revealed that both UGT2A1 and UGT2A2 are mainly expressed in the nasal mucosa, and that their expression level in fetal samples was much higher than in adults. Activity assays with recombinant UGTs 2A1-2A3 demonstrated broad substrate selectivity for UGT2A1 and UGT2A2. While glucuronidation rates and substrate affinities were mostly higher in UGT2A1, the K m values for UDP-glucuronic acid were similar in both UGTs. In addition, there were regioselectivity differences between the two UGTs and, with a few substrates, particularly ethinylestradiol, the activity of UGT2A2 was higher.Conclusions-UGT2A2 is mainly expressed in the nasal mucosa and it has glucuronidation activity towards several different endo-and xenobiotic substrates.

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Regiospecificity and Stereospecificity of Human UDP-Glucuronosyltransferases in the Glucuronidation of Estriol, 16-Epiestriol, 17-Epiestriol, and 13-Epiestradiol

Sneitz

Vahermo

Mosorin

et al. 2013

Drug Metab Dispos

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The glucuronidation of estriol, 16-epiestriol, and 17-epiestriol by the human UDP-glucuronosyltransferases (UGTs) of subfamilies 1A, 2A, and 2B was examined. UGT1A10 is highly active in the conjugation of the 3-OH in all these estriols, whereas UGT2B7 is the most active UGT toward one of the ring D hydroxyls, the 16-OH in estriol and 16-epiestriol, but the 17-OH in 17-epiestriol. Kinetic analyses indicated that the 17-OH configuration plays a major role in the affinity of UGT2B7 for estrogens. The glucuronidation of the different estriols by the human liver and intestine microsomes reflects the activity of UGT1A10 and UGT2B7 in combination with the tissues' difference in UGT1A10 expression. The UGT1A10 mutant 1A10-F93G exhibited much higher V max values than UGT1A10 in estriol and 17-epiestriol glucuronidation, but a significantly lower value in 16-epiestriol glucuronidation. To this study on estriol glucuronidation we have added experiments with 13-epiestradiol, a synthetic estradiol in which the spatial arrangement of the methyl on C18 and the hydroxyl on C17 is significantly different than in other estrogens. In comparison with estradiol glucuronidation, the C13 configuration change decreases the turnover of UGTs that conjugate the 3-OH, but increases it in UGTs that primarily conjugate the 17-OH. Unexpectedly, UGT2B17 exhibited similar conjugation rates of both the 17-OH and 3-OH of 13-espiestradiol. The combined results reveal the strong preference of UGT1A10 for the 3-OH of physiologic estrogens and the equivalently strong preference of UGT2B7 and UGT2B17 for the hydroxyls on ring D of such steroid hormones.

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Crigler-Najjar syndrome in The Netherlands: Identification of four novelUGT1A1alleles, genotypeâphenotype correlation, and functional analysis of 10 missense mutants

et al. 2010

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Crigler-Najjar syndrome (CN), caused by deficiency of UGT isoform 1A1 (UGT1A1), is characterized by severe unconjugated hyperbilirubinemia. In this study we have analyzed 19 CN patients diagnosed in The Netherlands (18) and in Belgium (1), and have identified 14 different UGT1A1 mutations, four of which are novel. Two mutations were present in several unrelated patients, suggesting the presence of two founder effects in The Netherlands. In addition, we show linkage of the UGT1A1 *28 promoter polymorphism (rs5719145insTA) to three structural mutations. Functional studies of partial active UGT1A1 mutants are limited. Therefore, we performed in vitro studies to determine the functional activity of seven missense mutants identified in this study and of three reported previously. In addition to bilirubin, we also determined their activity toward eight other UGT1A1 substrates. We demonstrate that five mutants have residual activity that, depending on the substrate, varies from not detectable to 94% of wild-type UGT1A1 activity. The identification of four novel pathogenic mutations and the analysis of residual activity of 10 UGT1A1 missense mutants are useful for clinical diagnosis, and provides new insights in enzyme activity, whereas the identification of two founder mutations will speed up genetic counseling for newly identified CN patients in The Netherlands.

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Nina Sneitz

Human UDP-glucuronosyltransferase UGT2A2: cDNA construction, expression, and functional characterization in comparison with UGT2A1 and UGT2A3

Regiospecificity and Stereospecificity of Human UDP-Glucuronosyltransferases in the Glucuronidation of Estriol, 16-Epiestriol, 17-Epiestriol, and 13-Epiestradiol

Crigler-Najjar syndrome in The Netherlands: Identification of four novelUGT1A1alleles, genotypeâphenotype correlation, and functional analysis of 10 missense mutants

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Nina Sneitz

Human UDP-glucuronosyltransferase UGT2A2: cDNA construction, expression, and functional characterization in comparison with UGT2A1 and UGT2A3

Regiospecificity and Stereospecificity of Human UDP-Glucuronosyltransferases in the Glucuronidation of Estriol, 16-Epiestriol, 17-Epiestriol, and 13-Epiestradiol

Crigler-Najjar syndrome in The Netherlands: Identification of four novelUGT1A1alleles, genotypeâphenotype correlation, and functional analysis of 10 missense mutants

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Crigler-Najjar syndrome in The Netherlands: Identification of four novelUGT1A1alleles, genotypeâphenotype correlation, and functional analysis of 10 missense mutants