An imbalance between vascular endothelial growth factor and its soluble receptor in placental villous explants of intrauterine growth-restricted pregnancies.

Sudha Padavala, Nicole Pope, Philip Baker, Ian Crocker
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引用次数: 36

Abstract

Objectives: Human umbilical vascular endothelial cells (HUVECs), seeded on Matrigel (BD Biosciences, Bedford, UK), undergo an angiogenic-like process. We hypothesized that placental explants from normal pregnancies, maintained in cultures of different oxygen, would liberate factors that could be measured in this system. We further tested the angiogenic potential of placentae from intrauterine growth-restricted (IUGR) pregnancies and the effects of vascular endothelial growth factor (VEGF) blockade.

Methods: Placental villous explants were maintained in culture at 3% and 20% O2. The resultant media was added to HUVECs seeded on 80% Matrigel. Cells were incubated at 6% O2 in accordance with the natural placental environment. After 6 hours, cells were fixed and stained and the length and number of tubules measured by morphometric imaging. Finally, VEGF and soluble VEGF receptor (sVEGFR-1) were recorded in the explant conditioned media.

Results: Within the angiogenic assay, recombinant human VEGF significantly enhanced tubule outgrowth (branching and elongation) and this effect was blocked with neutralising antibody. Compared to 20% O2, media of placental explants conditioned at 3% O2 significantly encouraged tubule length and numbers. Again this affect was ablated by VEGF blockade. In cases of IUGR, conditioned media at 3% O2 showed a significant reduction in tubule growth. This was paralleled by a decline in available VEGF brought about an exaggeration in liberated sVEGFR-1. Notably, venous cord serum from IUGR pregnancies showed a similar elevation in sVEGFR-1.

Conclusion: Under restricted oxygen, placental angiogenic potential is suppressed in IUGR pregnancies through the overproduction of placental sVEGFR-1. This reduction may discourage normal placental vascularization and impact on fetal development.

宫内生长受限妊娠胎盘绒毛外植体中血管内皮生长因子及其可溶性受体的失衡。
目的:人脐血管内皮细胞(HUVECs),在Matrigel (BD Biosciences, Bedford, UK)上播种,经历血管生成样过程。我们假设,正常妊娠的胎盘外植体,在不同的氧培养中,会释放出可以在这个系统中测量的因子。我们进一步测试了宫内生长受限(IUGR)妊娠胎盘的血管生成潜能和血管内皮生长因子(VEGF)阻断的影响。方法:胎盘绒毛外植体在3%和20% O2条件下培养。将所得培养基添加到80%基质上的HUVECs中。细胞在6% O2下按照自然胎盘环境孵育。6小时后,将细胞固定并染色,通过形态成像测量小管的长度和数量。最后,在外植体条件培养基中记录VEGF和可溶性VEGF受体(sVEGFR-1)。结果:在血管生成实验中,重组人VEGF显著增强了小管的生长(分支和伸长),这种作用被中和抗体阻断。与20% O2相比,3% O2条件下的胎盘外植体培养基显著增加了小管的长度和数量。这种影响再次被VEGF阻断。在IUGR病例中,3% O2的条件培养基显示小管生长显著减少。这与可用VEGF的下降导致释放的sVEGFR-1的夸大相平行。值得注意的是,IUGR妊娠的静脉脐带血清中sVEGFR-1也有类似的升高。结论:在限氧条件下,IUGR妊娠中胎盘sVEGFR-1的过量产生抑制了胎盘血管生成潜能。这种减少可能阻碍正常的胎盘血管形成并影响胎儿发育。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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