Metabolism of 3,5,3'-Triiodothyronine Sulfate by Tissues of the Fetal Rat: A Consideration of the Role of Desulfation of 3,5,3'-Triiodothyronine Sulfate as a Source of T3

Abstract

ABSTRACTS: We have recently demonstrated that serum concentration of 3,5,3‘-triiodothyronine sulfate (T₃S) is markedly elevated in the human newborn at a time when serum 3,5,3’-triiodothyronine (T₃) is very low. The present study explores the ability of maternal (19–21 d pregnant) and near-term fetal Sprague-Dawley rat tissues to 1) monodeiodinate T₃S and T₃ in both the outer and the inner ring and 2) desulfate T₃S to T₃. Maternal liver microsomes metabolized T₃S exceedingly efficiently (compare fetus p < 0.05). Eighty percent or more of T₃S was consumed during its incubation with 360 μg/mL microsomes for 2 h. The majority of the consumption of T₃S by adult liver microsomes occurred by its 5‘-monodeiodination to 1; little inner-ring monodeiodination to 3,3’-diiodothyronine was demonstrable. In fetal liver microsomes, however, over 75% of the substrate T₃S remained unchanged after a 2-h incubation. T₃ was metabolized similarly moderately by fetal and maternzl liver microsomes. Brain microsomes metabolized T₃S poorly in both the mother and the fetus. Over 90% of substrate T₃S remaned unchanged after a 2-h incubation in each case. Interestingly, brain microsomes metabolized T₃ more rapidly than T₃S (p < 0.05). In the fetus, desulfation of T₃S to T₃ was clearly evident only in microsoms from the liver and the brain; in the adult, it was plentiful in many tissues. Fetal liver and brain tissues metabolize T₃S poorly, and both actively desulfate T₃S to T₃. These data and those indicating high serum T₃S in the fetus suggest that T₃S is a local source of T₃ in critical tissues in the fetus and possibly in adults with the low T₃ syndrome.