麻醉大鼠胎盘存在Na⁺的母体-胎儿主动转运的证据。

Evidence for active maternal-fetal transport of Na+ across the placenta of the anaesthetized rat.

作者信息

Stulc J, Stulcová B, Sibley C P

机构信息

Department of Pharmacology, 2nd Faculty of Medicine, Charles University, Prague, Czech Republic.

出版信息

J Physiol. 1993 Oct;470:637-49. doi: 10.1113/jphysiol.1993.sp019879.

DOI:10.1113/jphysiol.1993.sp019879

PMID:8308747

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1143938/

Abstract

In order to investigate mechanisms of Na+ transfer, the unidirectional maternal-fetal clearance (Kmf) of 22Na+ and of 51Cr-EDTA (a marker of paracellular diffusion) was measured across the intact or umbilically or dually perfused placenta of the anaesthetized rat. 2. The Kmf of 22Na+ in the intact preparation (18.5 +/- 2.7 microliters min-1, mean +/- S.D., n = 105 placentas) exceeded that of 51Cr-EDTA in the same experiments (1.4 +/- 0.3 microliters min-1) by more than ten times, whereas the difference in their diffusion coefficients in water was only 2-fold. In the perfused preparations the difference in the Kmf values was 6-fold. 3. Assuming that a simple model of paracellular diffusion through wide pores was one component of transfer, the Kmf of 51Cr-EDTA and the diffusion coefficients were used to calculate a component of 22Na+ clearance (Kmf,residual) and of Na+ flux (Jmf,residual) across the perfused placentas which could not be accounted for by transfer through the paracellular route. 4. Kmf,residual of 22Na+ across the dually perfused placenta was significantly lower when temperature was reduced, the temperature quotient (Q10) of the transfer being about 2. Kmf,residual was also significantly lower when 0.1 mM ouabain was perfused on the fetal side. Jmf,residual exhibited saturation kinetics characterized by an apparent Michaelis constant (Km) of 90 mM. Kmf,residual was not influenced by 0.5 mM frusemide, 0.5 mM amiloride or by 0.5 mM hydrochlorothiazide administered to the maternal side. It was significantly increased by 1 mM alanine on the maternal side suggesting that the coupled transfer of Na+ and amino acids may contribute significantly to the maternal-fetal flux of Na+. 5. These observations suggest that most (80%) of the maternal-fetal flux of Na+ across the rat placenta is effected by active transcellular transport. This transport involves passive entry of Na+ into the trophoblast from the maternal side by a largely unknown saturable mechanism and active extrusion of Na+ from trophoblast to the fetal side by Na(+)-K(+)-ATPase.

摘要

为了研究钠转运机制，在麻醉大鼠完整的、经脐部或双侧灌注的胎盘上，测量了22Na+和51Cr - EDTA（细胞旁扩散标志物）的单向母胎清除率（Kmf）。2. 在相同实验中，完整标本中22Na+的Kmf（18.5±2.7微升/分钟，平均值±标准差，n = 105个胎盘）比51Cr - EDTA的Kmf（1.4±0.3微升/分钟）高出十多倍，而它们在水中的扩散系数差异仅为2倍。在灌注标本中，Kmf值的差异为6倍。3. 假设通过宽孔的细胞旁扩散简单模型是转运的一个组成部分，利用51Cr - EDTA的Kmf和扩散系数来计算22Na+清除率（Kmf,残余）和钠通量（Jmf,残余）中不能通过细胞旁途径转运来解释的部分，这些部分存在于灌注胎盘上。4. 当温度降低时，双侧灌注胎盘上22Na+的Kmf,残余显著降低，转运的温度系数（Q10）约为2。当在胎儿侧灌注0.1 mM哇巴因时，Kmf,残余也显著降低。Jmf,残余表现出饱和动力学，其表观米氏常数（Km）为90 mM。Kmf,残余不受在母体侧给予0.5 mM速尿、0.5 mM氨氯吡咪或0.5 mM氢氯噻嗪的影响。母体侧给予1 mM丙氨酸可使其显著增加，这表明钠和氨基酸的偶联转运可能对母胎钠通量有显著贡献。5. 这些观察结果表明，大鼠胎盘上大部分（80%）的母胎钠通量是由活跃的跨细胞转运实现的。这种转运包括钠通过一种很大程度上未知的可饱和机制从母体侧被动进入滋养层，以及钠通过钠钾ATP酶从滋养层主动排到胎儿侧。