Abstract
The benzylic alcohol 1-hydroxyethylpyrene (1-HEP) is activated to a mutagen by sulfotransferases. The sulfuric acid ester formed is difficult to detect, as it is rapidly hydrolysed back to the alcohol. Incubation of the individual enantiomers of 1-HEP with human hydroxysteroid sulfotransferase (hHST) or estrogen sulfotransferase (hEST), expressed in bacteria, led to the formation of the other enantiomer. The rates of sulfation were determined from the initial rates of chiral inversion of the alcohol, knowing that hydrolysis follows an SN1 mechanism and therefore produces racemic alcohol. hEST showed high enantioselectivity forS-1-HEP, whereas hHST strongly preferred theR-enantiomer. The rates of sulfation of the preferred enantiomers were high, similar to those for the prototype substrates of hEST (β-estradiol) and hHST (dehydroepiandrosterone). Moreover, after a 30-min incubation ofS-1-HEP with hEST, 95% of the recovered alcohol showed theR-configuration, indicating that several cycles of sulfation and hydrolysis had led to the depletion of one enantiomer and to the enrichment of the other enantiomer.
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