Department of Obstetrics and Gynaecology, The University of Auckland, 85 Park Road, Grafton, Auckland, 1142, New Zealand.
Liggins Institute, The University of Auckland, 85 Park Road, Grafton, Auckland, 1142, New Zealand.
Hum Reprod. 2017 Nov 1;32(11):2188-2198. doi: 10.1093/humrep/dex310.
How do nano-vesicles extruded from normal first trimester human placentae affect maternal vascular function?
Placental nano-vesicles affect the ability of systemic mesenteric arteries to undergo endothelium- and nitric oxide- (NO-) dependent vasodilation in vivo in pregnant mice.
Dramatic cardiovascular adaptations occur during human pregnancy, including a substantial decrease in total peripheral resistance in the first trimester. The human placenta constantly extrudes extracellular vesicles that can enter the maternal circulation and these vesicles may play an important role in feto-maternal communication.
STUDY DESIGN, SIZE, DURATION: Human placental nano-vesicles were administered into CD1 mice via a tail vein and their localization and vascular effects at 30 min and 24 h post-injection were investigated.
PARTICIPANTS/MATERIALS, SETTING, METHODS: Nano-vesicles from normal first trimester human placentae were collected and administered into pregnant (D12.5) or non-pregnant female mice. After either 30 min or 24 h of exposure, all major organs were dissected for imaging (n = 7 at each time point) while uterine and mesenteric arteries were dissected for wire myography (n = 6 at each time point). Additional in vitro studies using HMEC-1 endothelial cells were also conducted to investigate the kinetics of interaction between placental nano-vesicles and endothelial cells.
Nano-vesicles from first trimester human placentae localized to the lungs, liver and kidneys 24 h after injection into pregnant mice (n = 7). Exposure of pregnant mice to placental nano-vesicles for 30 min in vivo increased the vasodilatory response of mesenteric arteries to acetylcholine, while exposure for 24 h had the opposite effect (P < 0.05, n = 6). These responses were prevented by L-NAME, an NO synthase inhibitor. Placental nano-vesicles did not affect the function of uterine arteries or mesenteric arteries from non-pregnant mice. Placental nano-vesicles rapidly interacted with endothelial cells via a combination of phagocytosis, endocytosis and cell surface binding in vitro.
N/A.
As it is not ethical to administer labelled placental nano-vesicles to pregnant women, pregnant CD1 mice were used as a model of pregnancy.
This is the first study to report the localization of placental nano-vesicles and their vascular effects in vivo. This work provides new insight into how the dramatic maternal cardiovascular adaptations to pregnancy may occur and indicates that placental extracellular vesicles may be important mediators of feto-maternal communication in a healthy pregnancy.
STUDY FUNDING/COMPETING INTEREST(S): This research was supported by the Faculty of Medical and Health Science (FMHS) School of Medicine PBRF research fund to L.W.C. M.T. is a recipient of a University of Auckland Health Research Doctoral Scholarship and the Freemasons Postgraduate Scholarship. No authors have any competing interests to disclose.
正常妊娠早期胎盘挤出的纳米囊泡如何影响母体血管功能?
胎盘纳米囊泡影响怀孕小鼠体内肠系膜动脉对内皮依赖和一氧化氮(NO)依赖的血管舒张能力。
人类妊娠期间会发生显著的心血管适应性变化,包括妊娠早期总外周阻力明显下降。人类胎盘不断挤出可进入母体循环的细胞外囊泡,这些囊泡可能在胎-母通讯中发挥重要作用。
研究设计、大小、持续时间:通过尾静脉向 CD1 小鼠注射人胎盘纳米囊泡,并在注射后 30 分钟和 24 小时研究其定位和血管效应。
参与者/材料、设置、方法:收集正常妊娠早期人胎盘的纳米囊泡,并注入妊娠(D12.5)或非妊娠雌性小鼠体内。暴露 30 分钟或 24 小时后,所有主要器官均进行成像解剖(每个时间点 n = 7),同时对子宫和肠系膜动脉进行线描记法研究(每个时间点 n = 6)。还进行了额外的体外研究,使用 HMEC-1 内皮细胞研究胎盘纳米囊泡与内皮细胞相互作用的动力学。
注射到怀孕小鼠体内 24 小时后,来自第一孕期人胎盘的纳米囊泡定位于肺部、肝脏和肾脏(n = 7)。在体内暴露 30 分钟可增加肠系膜动脉对乙酰胆碱的血管舒张反应,而暴露 24 小时则产生相反的效果(P < 0.05,n = 6)。NO 合酶抑制剂 L-NAME 可预防这些反应。胎盘纳米囊泡对非妊娠小鼠的子宫动脉或肠系膜动脉功能没有影响。胎盘纳米囊泡在体外通过吞噬作用、内吞作用和细胞表面结合与内皮细胞迅速相互作用。
无。
由于向孕妇给予标记的胎盘纳米囊泡不符合伦理要求,因此使用妊娠 CD1 小鼠作为妊娠模型。
这是第一项报告胎盘纳米囊泡在体内定位及其血管效应的研究。这项工作提供了新的见解,即母体心血管对妊娠的剧烈适应性变化是如何发生的,并表明胎盘细胞外囊泡可能是健康妊娠中胎-母通讯的重要介质。
研究资金/利益冲突:这项研究得到了医学与健康科学学院(FMHS)医学院 PBRF 研究基金的支持,用于 L.W.C. 的研究。M.T. 是奥克兰大学健康研究博士奖学金和共济会研究生奖学金的获得者。没有作者有任何利益冲突需要披露。
