The distribution and ontogeny of tissue prolyl endopeptidase and pyroglutamyl peptidase I activities were studied in the rat from the 7th day before birth to adulthood. While low levels of prolyl endopeptidase activity were demonstrable in many fetal tissues, activity in brain cortex, hypothalamus, lung, and kidney increased dramatically during the 2 wk after birth, gradually returning to adult levels. In adult rats, levels of tissue prolyl endopeptidase activity were highest in kidney, when compared with the intermediate levels in brain cortex, hypothalamus, and liver. Pyroglutamyl peptidase activity was widely distributed in adult rat tissues with high levels in kidney and liver that exceeded intermediate levels in brain cortex and hypothalamus. Pyroglutamyl peptidase activities in fetal gut, brain, and lung tissue were elevated above adult values. In contrast to the development changes in prolyl endopeptidase activities, pyroglutamyl peptidase activity remained elevated above adult levels only during the first week of life. These results indicate that both prolyl endopeptidase and pyroglutamyl peptidase activities in the rat are developmentally regulated.
Although the production of thyroxine (T4) in the developing ovine fetus ranges from 20 to 50 micrograms.kg-1.day-1, production rates for 3,5,3'-triiodothyronine (T3) average only 1-2 micrograms.kg-1.day-1, whereas reverse T3 (rT3) production rates approach 5-6 micrograms.kg-1.day-1. Thus the fate of the majority of fetal T4 production is uncertain. Recently we have reported significant concentrations of various thyroid hormone sulfoconjugates in serum and other fetal compartments. In the present study, we used steady-state kinetic techniques in developing sheep to establish the clearance and production rates for T4, T3, and rT3 sulfates. These studies confirm that T4, T3, and rT3 sulfate are predominant metabolites of thyroid hormone in the developing ovine fetus. Plasma clearance rates for T3, T4, and rT3 sulfates are low in the fetus, averaging 0.67 +/- 0.07, 1.46 +/- 0.11, and 4.1 +/- 1 ml.kg-1.min-1, respectively. Clearance rates for these thyrosulfoconjugates increase two to fourfold postnatally, probably reflecting increased activity of 5'-monodeiodinase after birth. Moreover, fetal production rates for these sulfated thyroid hormone metabolites exceed those of 2-wk-old sheep 4- to 10-fold. The data suggest that a significant route of fetal T4 metabolism is sulfation followed by deiodination to rT3 sulfate.
We measured 3,3'-diiodothyronine sulfate (T2S) in serum and urine (n = 5-6) obtained from euthyroid fetal (94-145 days of gestation, term = 150 days), newborn, and adult sheep and in serum and urine samples from ovine fetuses 13 days after total thyroidectomy conducted between 110 and 113 gestation days (n = 5). Sham-operated twin fetuses served as controls (n = 5). Mean serum T2S concentrations increased progressively from 94 days (74 ng/dl) to 130 days (420 ng/dl), decreasing thereafter to 145 days (197 ng/dl). T2S concentrations in fetal urine peaked at 110 days (117 ng/dl). In hypothyroid fetuses, mean serum and urine T2S were 60 and 53% of control values. To assess the possibility that the T2S in maternal serum/urine is derived from fetal serum 3,5,3'-triiodothyronine (T3), we measured T3, T3 sulfate (T3S), and T2S in fetal serum and in maternal serum and urine after bolus infusion of T3 to the fetus (n = 4). Additionally, T3, T3S, and T2S concentrations were measured in maternal serum and urine after T3 infusion to the maternal ewes (n = 4). Fetal T3 infusion rapidly increased fetal serum T3S and T2S. Maternal serum and urine T3S and T2S concentrations increased, whereas T3 concentrations remained unchanged. Maternal T3 infusion increased in serum and urine T3S and T2S levels, but the levels, relative to T3, were less than values measured after fetal T3 infusion. We conclude that T2S is a normal thyroid hormone metabolite in the ovine fetus and suggest that a major pathway of fetal T2S production is T3 to T3S to T2S.(ABSTRACT TRUNCATED AT 250 WORDS)
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