Maternal-to-fetal transfer of 5-methyltetrahydrofolate by the perfused human placental cotyledon: evidence for a concentrative role by placental folate receptors in fetal folate delivery.

G I Henderson, T Perez, S Schenker, J Mackins, A C Antony
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Abstract

Folates play a vital role in cellular processes that are essential for fetal growth and viability. Thus the human placenta, which contains high-affinity membrane-associated placental folate receptors (PFRs), maintains a concentrative maternal-to-fetal flux of the vitamin under conditions of minimal dependence on variations of maternal dietary intake. To define transplacental folate transport and the role of PFRs in this mechanism, we utilized the isolated perfused human placental cotyledon. In closed system perfusions with 10 nmol/L 5-methyltetrahydrofolate, placental binding was rapid and extensive (47%), with a gradual maternal-to-fetal transfer of 5-methyltetrahydrofolate. Although hydrophilic PFRs were released into the fetal perfusate, PFR-bound folates constituted only a fraction of net transplacental folate transport. Transfer was bidirectional, not saturable, not inhibited by anion channel blockers, and dependent on perfusate levels. Placental binding far exceeded transfer, and pulsing the maternal circuit with tritiated 5-methyltetrahydrofolate, followed by washout of unbound radiolabel and rechallenge with unlabeled 5-methyltetrahydrofolate or folate, led to release of bound tritiated 5-methyltetrahydrofolate, illustrating reversible binding. Perfusion with the N-hydroxysuccinimide ester of folic acid eliminated essentially all 5-methyltetrahydrofolate binding to PFRs, while increasing net maternal-to-fetal transfer of the vitamin. Finally, because it has been suggested that impaired placental transport of folate may be linked to the fetotoxic effects of ethanol, the effect of this compound on the above processes was examined. An acute 6-hour exposure to ethanol (2.5 to 3.1 mg/ml) had no effect (p > 0.05) on net maternal-to-fetal transfer of 5-methyltetrahydrofolate. These studies suggest that net maternal-to-fetal transfer is a process consisting of two steps. First is the concentrative component in which circulating 5-methyltetrahydrofolate is bound to (captured by) PFRs on the maternally facing chorionic surface. Although kinetics favor binding, there is a dynamic state wherein a gradual release of 5-methyltetrahydrofolate from this pool can add to incoming circulating folates to generate an intervillous blood level approximately 3 times that in the maternal blood. In the second step, folates are passively transferred to the fetal circulation along a downhill concentration gradient. This unique mechanism for transplacental folate transport may be applicable to other small relative molecular mass ligand nutrients that bind to high-affinity placental receptors.

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5-甲基四氢叶酸通过灌注人胎盘子叶向胎儿转移:胎盘叶酸受体在胎儿叶酸输送中集中作用的证据。
叶酸在细胞过程中起着至关重要的作用,对胎儿的生长和生存能力至关重要。因此,含有高亲和膜相关胎盘叶酸受体(PFRs)的人胎盘,在对母体饮食摄入变化依赖最小的条件下,维持母体到胎儿的维生素浓度。为了确定经胎盘叶酸转运和PFRs在这一机制中的作用,我们使用了离体灌注的人胎盘子叶。在封闭系统灌注10 nmol/L 5-甲基四氢叶酸时,胎盘结合迅速而广泛(47%),5-甲基四氢叶酸逐渐从母体转移到胎儿。虽然亲水的pfr被释放到胎儿灌注液中,但pfr结合的叶酸仅占经胎盘叶酸运输的一小部分。转移是双向的,不饱和的,不受阴离子通道阻滞剂的抑制,并依赖于灌注水平。胎盘结合远远超过转移,用氚化的5-甲基四氢叶酸刺激母体回路,然后冲洗未结合的放射性标记物,用未标记的5-甲基四氢叶酸或叶酸重新挑战,导致结合的氚化5-甲基四氢叶酸释放,说明可逆结合。灌注叶酸的n -羟基琥珀酰亚胺酯基本上消除了所有与PFRs结合的5-甲基四氢叶酸,同时增加了维生素的母体向胎儿的净转移。最后,由于有人认为叶酸的胎盘运输受损可能与乙醇的胎儿毒性作用有关,因此研究了这种化合物对上述过程的影响。急性暴露于乙醇(2.5 ~ 3.1 mg/ml) 6小时对5-甲基四氢叶酸母婴净转移没有影响(p > 0.05)。这些研究表明,净母胎移植是一个由两个步骤组成的过程。首先是浓缩成分,其中循环的5-甲基四氢叶酸与面向母体的绒毛膜表面的pfr结合(被捕获)。虽然动力学上有利于结合,但在动态状态下,从这个池中逐渐释放的5-甲基四氢叶酸可以增加进入循环的叶酸,从而产生绒毛间血水平,大约是母体血水平的3倍。在第二步,叶酸被动地转移到胎儿循环沿着下坡浓度梯度。这种独特的经胎盘转运叶酸的机制可能适用于与高亲和力胎盘受体结合的其他小相对分子质量配体营养物质。
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