有证据表明胎儿死亡与胎盘老化有关。
Evidence that fetal death is associated with placental aging.
作者信息
Maiti Kaushik, Sultana Zakia, Aitken Robert J, Morris Jonathan, Park Felicity, Andrew Bronwyn, Riley Simon C, Smith Roger
机构信息
Mothers and Babies Research Center, Hunter Medical Research Institute, Newcastle, Australia; Priority Research Center in Reproductive Science, Faculty of Health, University of Newcastle, Newcastle, Australia.
Priority Research Center in Reproductive Science, Faculty of Health, University of Newcastle, Newcastle, Australia.
出版信息
Am J Obstet Gynecol. 2017 Oct;217(4):441.e1-441.e14. doi: 10.1016/j.ajog.2017.06.015. Epub 2017 Jun 20.
BACKGROUND
The risk of unexplained fetal death or stillbirth increases late in pregnancy, suggesting that placental aging is an etiological factor. Aging is associated with oxidative damage to DNA, RNA, and lipids. We hypothesized that placentas at >41 completed weeks of gestation (late-term) would show changes consistent with aging that would also be present in placentas associated with stillbirths.
OBJECTIVE
We sought to determine whether placentas from late-term pregnancies and unexplained stillbirth show oxidative damage and other biochemical signs of aging. We also aimed to develop an in vitro term placental explant culture model to test the aging pathways.
STUDY DESIGN
We collected placentas from women at 37-39 weeks' gestation (early-term and term), late-term, and with unexplained stillbirth. We used immunohistochemistry to compare the 3 groups for: DNA/RNA oxidation (8-hydroxy-deoxyguanosine), lysosomal distribution (lysosome-associated membrane protein 2), lipid oxidation (4-hydroxynonenal), and autophagosome size (microtubule-associated proteins 1A/1B light chain 3B, LC3B). The expression of aldehyde oxidase 1 was measured by real-time polymerase chain reaction. Using a placental explant culture model, we tested the hypothesis that aldehyde oxidase 1 mediates oxidative damage to lipids in the placenta.
RESULTS
Placentas from late-term pregnancies show increased aldehyde oxidase 1 expression, oxidation of DNA/RNA and lipid, perinuclear location of lysosomes, and larger autophagosomes compared to placentas from women delivered at 37-39 weeks. Stillbirth-associated placentas showed similar changes in oxidation of DNA/RNA and lipid, lysosomal location, and autophagosome size to placentas from late-term. Placental explants from term deliveries cultured in serum-free medium also showed evidence of oxidation of lipid, perinuclear lysosomes, and larger autophagosomes, changes that were blocked by the G-protein-coupled estrogen receptor 1 agonist G1, while the oxidation of lipid was blocked by the aldehyde oxidase 1 inhibitor raloxifene.
CONCLUSION
Our data are consistent with a role for aldehyde oxidase 1 and G-protein-coupled estrogen receptor 1 in mediating aging of the placenta that may contribute to stillbirth. The placenta is a tractable model of aging in human tissue.
背景
不明原因的胎儿死亡或死产风险在妊娠晚期会增加,这表明胎盘老化是一个病因。老化与DNA、RNA和脂质的氧化损伤有关。我们假设妊娠≥41周(晚期)的胎盘会出现与老化一致的变化,这些变化也会出现在与死产相关的胎盘中。
目的
我们试图确定晚期妊娠胎盘和不明原因死产胎盘是否存在氧化损伤及其他老化的生化迹象。我们还旨在建立一种体外足月胎盘外植体培养模型来测试老化途径。
研究设计
我们收集了妊娠37 - 39周(早期和足月)、晚期以及不明原因死产的女性的胎盘。我们使用免疫组织化学方法比较三组胎盘的DNA/RNA氧化(8 - 羟基 - 脱氧鸟苷)、溶酶体分布(溶酶体相关膜蛋白2)、脂质氧化(4 - 羟基壬烯醛)和自噬体大小(微管相关蛋白1A/1B轻链3B,LC3B)。通过实时聚合酶链反应测量醛氧化酶1的表达。使用胎盘外植体培养模型,我们测试了醛氧化酶1介导胎盘脂质氧化损伤的假设。
结果
与妊娠37 - 39周分娩的女性的胎盘相比,晚期妊娠胎盘的醛氧化酶1表达增加,DNA/RNA和脂质氧化增加,溶酶体位于核周,自噬体更大。与死产相关的胎盘在DNA/RNA和脂质氧化、溶酶体位置以及自噬体大小方面显示出与晚期妊娠胎盘相似的变化。在无血清培养基中培养的足月分娩胎盘外植体也显示出脂质氧化、核周溶酶体和更大自噬体的证据,这些变化被G蛋白偶联雌激素受体1激动剂G1阻断,而脂质氧化被醛氧化酶1抑制剂雷洛昔芬阻断。
结论
我们的数据表明醛氧化酶1和G蛋白偶联雌激素受体1在介导胎盘老化中起作用,这可能导致死产。胎盘是人体组织中一个易于处理的老化模型。
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