Identification by chimera formation and site-selected mutagenesis of a key amino acid residue involved in determining stereospecificity of guinea pig 3-hydroxysteroid sulfotransferase isoforms.

The 3-hydroxysteroid sulfotransferases that have been isolated and cloned from humans and rodents appear to have broad substrate specificities. In the guinea pig, however, two 3-hydroxysteroid sulfotransferases have been isolated that function according to an innate stereospecificity: the alpha-isoform acts on steroids with a 3-hydroxyl group oriented in the alpha position, whereas the beta-isoform acts on steroids where the 3-hydroxyl group is in a beta orientation. To examine the structural basis for this remarkable stereoselectivity, chimeras of the two enzymes, which are 87% identical, were constructed. A chimera consisting of the NH(2)-terminal 91 amino acids of the alpha-isoform and the COOH-terminal 196 amino acids of the beta-isoform displayed activity similar to that of the alpha-isoform. Site-selected mutagenesis of this 3alpha/beta-hydroxysteroid sulfotransferase chimera involving the 12 amino acid differences that exist between the two isoforms within the 91 amino acid NH(2)-terminal region revealed that the amino acid residue at position 51 plays a fundamental role in determining the stereospecificity exhibited by the alpha- and beta-isoforms, i.e. if residue 51 is an asparagine, alpha activity predominates, whereas if an isoleucine is in that position, beta activity prevails.