Desulfation of 3,5,3′-Triiodothyronine Sulfate by Microsomes from Human and Rat Tissues*

Abstract

Subcellular preparations from rat liver, brain, and kidney and from human liver were tested for their ability to desulfate T₃ sulfate (T₃SO₄). Activity was found associated with the microsomal fraction: rat liver was the most active, hydrolyzing 76 pmol/min · mg protein of T₃SO₄ while preparations from rat kidney and brain were about 1/5 and 1/20 as active. Microsomal preparations from human liver obtained at autopsy were as active as fresh rat preparations. Thyroxine sulfate was not an active substrate. Microsomes prepared with dithiothreitol and EDTA in order to detect deiodinating activity maintained T₃SO₄-desulfating activity. Cytosolic preparations containing arylsulfatase activities failed to desulfate T₃SO₄. Estrone sulfate, dehydroepiandrosterone sulfate, and nitrophenyl sulfate are known substrates for microsome-associated arylsulfatase activities, and these compounds were found to inhibit hydrolysis of T₃SO₄ to various extents. Of these competing sulfatase substrates, only dehydroepiandrosterone sulfate inhibits T₃SO₄ desulfation completely. In order to determine whether desulfation occurs in intact cells, isolated hepatocytes were incubated in the presence of 7 and 54 μM T₃SO₄. These cells were found to hydrolyze 1–1.5% of the sulfate ester/h for up to 3 h. The demonstration of this activity raises the possibility that these hepatic cells may be able to reactivate T₃SO₄, which has generally been regarded as an irreversibly inactivated metabolite. (Endocrinology122: 1195–1200,1988)