Novel polymorphic human UDP-glucuronosyltransferase (UGT) 2A3: Cloning, functional characterization of enzyme variants, comparative tissue expression, and gene induction

doi:10.1124/mol.108.045500

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Molecular Pharmacology Fast Forward
First published on June 3, 2008; DOI: 10.1124/mol.108.045500

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Received for publication January 22, 2008.
Revised May 29, 2008.
Accepted for publication June 2, 2008.

Novel polymorphic human UDP-glucuronosyltransferase (UGT) 2A3: Cloning, functional characterization of enzyme variants, comparative tissue expression, and gene induction

Michael H. Court ¹^*, Suwagmani Hazarika ¹, Soundararajan Krishnaswamy ¹, Moshe Finel ², J. Andrew Williams ³

¹ Tufts University School of Medicine ² University of Helsinki ³ Pfizer Global Research and Development

^* Address correspondence to: E-mail: michael.court{at}tufts.edu

Abstract

UDP-glucuronosyltransferases (UGTs) are critical to the detoxificationof numerous drugs, environmental pollutants, and endogenousmolecules. However as yet not all of the human UGTs have beencloned and characterized. cDNA clones from the UGT2A3 gene(located on chromosome 4q13) were isolated using pooled humanliver RNA. Approximately 10% of clones contained a c.1489A>Gnucleotide substitution yielding proteins with a residue 497alanine (UGT2A3.2) instead of a threonine (UGT2A3.1). The allelefrequency of this polymorphism (rs13128286) was 0.13 in a European-Americanpopulation as determined by direct DNA sequencing. Of 81 structurallydiverse glucuronidation substrates tested, UGT2A3 expressedby a baculovirus system selectively glucuronidated bile acids- particularly hyodeoxycholic acid at the 6-hydroxy position. Apparent K_m values of UGT2A3.1 and UGT2A3.2 for hyodeoxycholicacid 6-glucuronidation were 69±7 and 44±12 µM,respectively. Of 29 different extrahepatic tissues evaluatedby real-time PCR, UGT2A3 mRNA was most highly expressed in smallintestine (160% of liver), colon (78% of liver) and adiposetissue (91% of liver). An in silico scan of the proximal UGT2A3promoter/5'-regulatory region identified transcription factorconsensus elements consistent with tissue selective expressionin liver (HNF1), and intestine (CDX2), as well induction byrifampicin (PXR). In LS180 human intestinal cells, rifampicinincreased UGT2A3 mRNA by more than 200% compared with vehiclecontrol while levels were not significantly affected by theAhR ligand ${beta}$ -naphthoflavone. This is the first report establishingUGT2A3 as a functional enzyme, and represents significant progresstoward the goal of having a complete set of recombinant humanUGTs for comparative functional analyses.

Key words: Phase II enzymes, UDP-glucuronyltransferases

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