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(Received for publication, January
24, 1995; and in revised form, April 13, 1995) Three aryl sulfotransferases (ASTs) isolated from rat liver
catalyze the sulfuric acid esterification of the carcinogen N-hydroxy-2-acetylaminofluorene (N-OH-2AAF). These
three ASTs were separated by high resolution anion exchange
chromatography and were designated Q1, Q2, and Q3. Q1 and Q2 had high N-OH-2AAF sulfonation activity, whereas Q3 showed low
activity. Reversed phase high performance liquid chromatography/mass
spectrometry analysis showed Q1-Q3 to be comprised of 33,945- and
35,675-Da protein subunits. Q1 contained only the 35,675-Da protein
subunit, Q2 contained equal quantities of 33,945- and 35,675-Da
subunits, and Q3 contained only the 33,945-Da subunit. The subunit
compositions of Q1-Q3 were confirmed by immunochemical analysis.
Size exclusion high performance liquid chromatography confirmed that
the active quaternary structure of the three isoenzymes was dimeric.
Analysis of liver cytosols for the relative contributions of
Q1-Q3 to total cytosolic N-OH-2AAF sulfotransferase
activity indicated that Q1, Q2, and Q3 accounted for 44, 46, and 10% of
the activity, respectively. These results demonstrate the existence of
both homodimeric and heterodimeric aryl sulfotransferases and show that
two ASTs, a homodimer of 35,675-Da subunits and a heterodimer of a
33,945- and a 35,675-Da subunit, are primarily responsible for hepatic N-OH-2AAF sulfotransferase activity.
Volume 270,
Number 32,
Issue of August 11, pp. 18941-18947, 1995
©1995 by The American Society for Biochemistry and Molecular Biology, Inc.
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