Two isozymes of arylamine N-acetyltransferases (NATs) catalyze the biotransformation of arylamines to arylamides, and the bioactivation of carcinogenic arylhydroxylamines and arylhydroxamic acids to reactive electrophiles capable of forming a variety of DNA and protein adducts. As part of a project directed toward delineation of the molecular factors responsible for the pronounced differences in the substrate specificity of the isozymes, we have recently reported the expression in Escherichia coli and purification of hamster NAT1 (NAT1 8) as a fusion protein to an antibody- reactive amino terminus FLAG peptide capable of being removed by digestion with enterokinase. Unfortunately, the conditions necessary for the removal of the peptide by enterokinase resulted in incomplete protease digestion and substantial loss of NAT1 activity. Consequently, we have constructed the plasmid pPH8 in which an 11 amino acid thrombin proteolysis site has been inserted between the FLAG peptide and the amino terminus of NAT1. In addition, a plasmid that expresses hamster NAT2 (NAT2 15) was constructed by exchanging the gene sequence for NAT1 with the cloned sequence for NAT2. Both NAT fusion proteins were expressed in JM105 cells. Analysis of catalytically active cell lysates by sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed that ~30-fold more soluble NAT2 was expressed than NAT1 in the bacterial cytosol. The fusion proteins were purified to homogeneity by immunoaffinity chromatography, followed by gel filtration to remove high molecular weight contaminants. The FLAG peptide was subsequently removed by treatment with human thrombin, followed by an additional pass over the immunoaffinity column. Unlike the results obtained from proteolysis by enterokinase, the activities of the rNAT1 and rNAT2 were shown to be unaffected by treatment with thrombin. Moreover, the substrate specificities for the recombinant NATs closely matched those observed for NAT1 and NAT2 isolated from hamster liver.
|Original language||English (US)|
|Number of pages||9|
|Journal||Drug Metabolism and Disposition|
|State||Published - Feb 27 1996|