Cleal Jane K, Brownbill Paul, Godfrey Keith M, Jackson John M, Jackson Alan A, Sibley Colin P, Hanson Mark A, Lewis Rohan M
DOHaD Division, University of Southampton, Southampton, UK.
J Physiol. 2007 Jul 15;582(Pt 2):871-82. doi: 10.1113/jphysiol.2007.130690. Epub 2007 May 3.
Fetal growth is dependent on both the quantity and relative composition of amino acids delivered to the fetal circulation, and impaired placental amino acid supply is associated with restricted fetal growth. Amino acid exchangers can alter the composition, but not the quantity, of amino acids in the intra- and extracellular amino acid pools. In the placenta, exchangers may be important determinants of the amino acid composition in the fetal circulation. This study investigates the substrate specificity of exchange between the placenta and the feto-placental circulation. Maternal-fetal transfer of radiolabelled amino acids and creatinine were measured in the isolated perfused human placental cotyledon. Transfer of L-[14C]serine or L-[14C]leucine, and [3H]glycine, were measured in the absence of amino acids in the fetal circulation (transfer by non-exchange mechanisms) and following 10-20 micromol boluses of unlabelled amino acids into the fetal circulation to provide substrates for exchange (transfer by exchange and non-exchange mechanisms). The ability of fetal arterial boluses of L-alanine and L-leucine to stimulate release of amino acids from the placenta was also determined using HPLC in order to demonstrate the overall pattern of amino acid release. Experiments with radiolabelled amino acids demonstrated increased maternal-fetal transfer of L-serine and L-leucine, but not glycine, following boluses of specific amino acids into the fetal circulation. L-[14C]Leucine, but not L-[14C]serine or [3H]glycine, was transferred from the maternal to the fetal circulation by non-exchange mechanisms also (P<0.01). HPLC analysis demonstrated that fetal amino acid boluses stimulated increased transport of a range of different amino acids by 4-7 micromol l(-1) (P<0.05). Amino acid exchange provides a mechanism to supply the fetus with amino acids that it requires for fetal growth. This study demonstrates that these transporters have the capacity to exchange micromolar amounts of specific amino acids, and suggests that they play an important role in regulating fetal plasma amino acid composition.
胎儿生长取决于输送到胎儿循环系统的氨基酸数量及其相对组成,而胎盘氨基酸供应受损与胎儿生长受限有关。氨基酸交换体可以改变细胞内和细胞外氨基酸池中氨基酸的组成,但不能改变其数量。在胎盘中,交换体可能是胎儿循环中氨基酸组成的重要决定因素。本研究调查胎盘与胎儿 - 胎盘循环之间交换的底物特异性。在分离灌注的人胎盘小叶中测量放射性标记氨基酸和肌酐的母胎转运情况。在胎儿循环中不存在氨基酸的情况下(通过非交换机制转运)以及在向胎儿循环中注入10 - 20微摩尔未标记氨基酸以提供交换底物后(通过交换和非交换机制转运),测量L - [14C]丝氨酸或L - [14C]亮氨酸以及[3H]甘氨酸的转运情况。还使用高效液相色谱法测定胎儿动脉注射L - 丙氨酸和L - 亮氨酸刺激胎盘释放氨基酸的能力,以展示氨基酸释放的总体模式。放射性标记氨基酸实验表明,向胎儿循环中注入特定氨基酸后,L - 丝氨酸和L - 亮氨酸的母胎转运增加,但甘氨酸没有增加。L - [14C]亮氨酸也通过非交换机制从母体转运到胎儿循环中,而L - [14C]丝氨酸或[3H]甘氨酸则没有(P < 0.01)。高效液相色谱分析表明,胎儿氨基酸注射刺激一系列不同氨基酸的转运增加了4 - 7微摩尔/升(P < 0.05)。氨基酸交换为胎儿提供其生长所需氨基酸提供了一种机制。本研究表明,这些转运体有能力交换微摩尔量的特定氨基酸,并表明它们在调节胎儿血浆氨基酸组成中起重要作用。