Tissue Distribution and Ontogeny of Sulfotransferase Enzymes in Mice

doi:10.1093/toxsci/kfl050

ToxSci Advance Access originally published online on June 28, 2006
Toxicological Sciences 2006 93(2):242-255; doi:10.1093/toxsci/kfl050

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Tissue Distribution and Ontogeny of Sulfotransferase Enzymes in Mice

Yazen Alnouti and Curtis D. Klaassen¹

Department of Pharmacology, Toxicology and Therapeutics, University of Kansas Medical Center, Kansas City, Kansas 66160

Received April 18, 2006; accepted June 5, 2006

Sulfotransferases (Sults) are phase-II conjugation enzymes thatcatalyze the transfer of a sulfonate group from 3'-phosphoadenosine5'-phosphosulfate (PAPS) to target endo and xenobiotics. PAPSis formed from inorganic sulfate by the action of the enzymePAPS synthase (PAPSs). In the present study, the tissue distributionand developmental changes in the mRNA expression of 11 Sultisozymes and 2 PAPSs isoforms in mice were quantified. Sult1a1,1b1, 1c1, 1c2, 1d1, 1e1, 2a1/2, 2b1, 3a1, 4a1, 5a1, PAPSs1,and PAPSs2 mRNA expression was quantified in 14 tissues frommale and female mice using the branched DNA signal amplificationassay. Sult2a1/2 and 3a1 expression were highest in liver; Sult1b1,2b1, and PAPSs2 in small intestine; Sult1a1 in large intestine;Sult1c2 in stomach; Sult1d1 in kidney; Sult1e1 in placenta;and Sult4a1 in brain. Sult1c1, 5a1, and PAPSs1 were ubiquitouslyexpressed in most tissues. These enzymes demonstrated threedifferent ontogenic expression patterns in liver. Sult1a1, 1c2,1d1, 2a1/2, and PAPSs2 hepatic expression gradually increasedfrom birth until about 3 weeks of age and then declined somewhatthereafter, Sult1c1 expression was highest before birth anddeclined after that, and Sult3a1 mRNA expression was very lowin fetal livers and remained low until 30 days of age, whenexpression in females dramatically increased, whereas it neverincreased in males. The organ-specific distribution of Sultsas well as the different expression of the Sults in young animalsmay affect the pharmacokinetic behavior and organ-specific toxicityof xenobiotics.

Key Words: sulfotransferase; Sult; PAPS; PAPSs; tissue distribution; ontogeny; mRNA; bDNA.

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