Maternal 3,3'-Diiodothyronine Sulfate Formation from Guinea Pig Placenta Perfused with 3,3',5-Triodothyronine.

Endocrinology and disorders : open access Pub Date : 2021-09-01 Epub Date: 2021-10-25 DOI:10.31579/2640-1045/101
Sing-Yung Wu, Charles H Emerson, Edward Tjioe, Dong-Bao Chen
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引用次数: 1

Abstract

Objective: Serum 3, 3',5-triiodothyronine (T3) remains low in near-term fetus to prevent the growing fetus from undue exposure to its active catabolic effect in mammals. The present study was undertaken to gain insight in the role of placenta in T3 metabolism, fetal to maternal transfer of T3, and its metabolites by in situ placenta perfusion with outer-ring labeled [125I]-T3 in pregnant guinea pig, a species showing increased sulfated 3, 3'-diiodothyronine (T2S) levels in maternal serum in late pregnancy (term = 65 days), similarly to humans in pregnancy.

Materials and methods: One-pass placenta perfusions performed on pregnant guinea pigs were studied between 58 - 65 days of gestation. In two separate experiments, the umbilical artery of the guinea pig placenta was perfused in situ at 37°C with outer-ring labeled [125I]-T3. Maternal sera and umbilical effluents were obtained for analysis at the end of a 60-minute perfusion, when the steady-state levels of radioactivity were reached in the placenta effluent after 30-minute.

Results: Sulfated [125I]-T2S was readily detected in the maternal serum as the major metabolite of T3 following the perfusion of placenta with [125I]-T3, suggesting that placental inner-ring deiodinase and sulfotransferase may play an important role in fetal T3 homeostasis and in the fetal to maternal transfer of sulfated iodothyronine metabolites.

Conclusions: The expression of type 3 deiodinase (D3) and thyroid hormone sulfotransferase activity in placenta may play an important role to protect developing organs against undue exposure to active thyroid hormone in late gestation in the fetus. The combined activities of D3 and sulfotransferase promoted a placental transfer of T2S into maternal circulation. The maternal circulation of T2S is fetal T3 in origin and its role as a fetal thyroid function biomarker deserves further evaluations and studies.

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豚鼠胎盘灌注3,3',5-三碘甲状腺原氨酸形成母体3,3'-二碘甲状腺原氨酸硫酸盐。
目的:近期胎儿血清3,3’,5-三碘甲状腺原氨酸(T3)保持较低水平,以防止生长中的胎儿过度暴露于其在哺乳动物中的活性分解代谢作用。本研究旨在通过在妊娠豚鼠体内原位灌注标记为[125I]-T3的外环,深入了解胎盘在T3代谢、T3的胎儿向母体转移及其代谢产物中的作用,妊娠晚期(足月=65天),与妊娠期人类相似,母体血清中的硫酸化3,3'-二碘甲状腺原氨酸(T2S)水平增加。材料和方法:对妊娠58~65天的妊娠豚鼠进行一次性胎盘灌注研究。在两个单独的实验中,豚鼠胎盘的脐动脉在37°C下原位灌注,外环标记为[125I]-T3。在60分钟灌注结束时,当胎盘流出物在30分钟后达到稳态放射性水平时,获得母体血清和脐带流出物进行分析。结果:在用[125I]-T3灌注胎盘后,母体血清中很容易检测到硫酸化的[125I]-T2S是T3的主要代谢产物,这表明胎盘内环脱碘酶和磺基转移酶可能在胎儿T3稳态和硫酸化碘甲状腺原氨酸代谢产物的胎儿-母体转移中发挥重要作用。结论:胎盘中3型脱碘酶(D3)的表达和甲状腺激素磺基转移酶活性可能在保护胎儿发育器官免受妊娠晚期甲状腺激素过度暴露的影响中发挥重要作用。D3和磺基转移酶的联合活性促进了T2S的胎盘转移到母体循环中。T2S的母体循环起源于胎儿T3,其作为胎儿甲状腺功能生物标志物的作用值得进一步评估和研究。
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