母体高血糖诱导小鼠胎盘基因表达和形态的变化。

Molly Eckmann, Quanhu Sheng, Scott Baldwin H, Rolanda L Lister
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引用次数: 1

摘要

背景:妊娠期糖尿病在美国有100万例妊娠并发症,并与胎盘功能障碍有关。胎盘功能障碍可表现为死产、自然流产、胎儿生长受限和母亲先兆子痫。然而,胎盘功能障碍的潜在机制尚不清楚。目的:我们假设母体高血糖破坏了对正常血管发育和功能重要的细胞过程。研究设计:通过一次性腹腔注射150mg/kg链脲佐菌素诱导8周龄雌性CD1小鼠发生高血糖,定义为非空腹血糖浓度> 250mg /dL。对照组小鼠接受等量生理盐水。高血糖和正常的雌性与CD-1雄性交配。在胚胎期17.5天,对怀孕小鼠实施安乐死。从6个正常血糖坝中收获68个胎盘,从3个高血糖坝中收获26个胎盘。从匀浆的胎盘组织中提取RNA (N=12/组;每胎2 ~ 4个胎盘)。制备总RNA并测序。差异表达基因大于2倍的变化被认为是显著的。胎盘(9-20个/组)用石蜡固定,在6 μm处切片。利用涂片检测苏木精和伊红、糖原、胶原、增殖和凋亡,评估胎盘带的横截面积。使用Leica Image Hub Data软件定量染色强度和阳性核百分比。对照组与实验组数据比较采用t检验。p < 0.05为差异有统计学意义。结果:正常孕鼠和糖尿病孕鼠的平均血糖浓度分别为112+/-24和473+/-47。结论:高血糖孕鼠的妊娠吸收率较高。妊娠糖尿病导致胎盘形态发生显著变化,包括海绵滋养层糖原含量增加,胶原沉积减少,连接区凋亡和增殖增加。母体糖尿病导致对正常血管发育至关重要的多种细胞过程的广泛破坏,并为胎盘功能障碍奠定了基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Maternal Hyperglycemia Induces Changes in Gene Expression and Morphology in Mouse Placentas.

Background: Pregestational diabetes complicates one million pregnancies in the United States and is associated with placental dysfunction. Placental dysfunction can manifest as stillbirth, spontaneous abortions, fetal growth restriction, and preeclampsia in the mother. However, the underlying mechanisms of placental dysfunction are not well understood.

Objective: We hypothesize that maternal hyperglycemia disrupts cellular processes important for normal vascular development and function.

Study design: Hyperglycemia, defined as a non-fasting glucose concentration of >250 mg/dL was induced in eight-week-old female CD1 mice by injecting a one-time intraperitoneal dose of 150mg/kg streptozotocin. Control mice received an equal volume of normal saline. Hyperglycemic and control females were mated with CD-1 males. At Embryonic Day 17.5, the pregnant mice were euthanized. Sixty-eight placentas were harvested from the six euglycemic dams and twenty-six placentas were harvested from three hyperglycemic dams. RNA was extracted from homogenized placental tissue (N=12/group; 2-4 placentas per litter of each group). Total RNA was prepared and sequenced. Differentially expressed genes that were >2-fold change was considered significant. Placentas (9-20/group) were fixed in paraffin wax and sectioned at 6 μm. Cross-sectional areas of placental zones were evaluated using slides stained for hematoxylin and eosin, glycogen, collagen, proliferation and apoptosis. Quantification of staining intensity and percent positive nuclei was done using Leica Image Hub Data software. Data were compared between the control and experimental group using t-tests. Values of p < 0.05 were considered to be statistically significant.

Results: The average maternal blood glucose concentrations for control and diabetic dams were 112+/-24 and 473+/-47 respectively (p<0.0001). A higher rate of resorptions was noted in the hyperglycemia exposed placentas compared to euglycemic exposed placentas (24% vs 7%; p=0.04). A total of 24 RNA libraries (12/group) were prepared. Placentas from hyperglycemic pregnancies exhibited 1374 differentially expressed genes (DEGs). The 10 most significantly differentially expressed genes are Filip 1, Prom 2, Fam 78a, Pde4d, Pou3f1, Kcnk5, Dusp4, Cxcr4, Slc6a4 and D430019H16Rik. Their corresponding biologic functions are related to chemotaxis, ossification, cellular and vascular development. Histologically, we found that hyperglycemia exposed placentas demonstrated increased proliferation, apoptosis, and glycogen content and decreased collagen deposition.

Conclusion: There was a higher rate of resorptions in the pregnancies of hyperglycemic dams. Pregestational diabetes resulted in significant changes in placental morphology, including increased glycogen content in the spongiotrophoblast, decreased collagen deposition, increased apoptosis and proliferation in the junction zone. Maternal diabetes causes widespread disruption in multiple cellular processes important for normal vascular development and sets the platform for placenta dysfunction.

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