在敲除小鼠中与胎盘表型相关的新基因也会对原代人滋养层细胞中的细胞应激原产生反应。
Novel genes associated with a placental phenotype in knockout mice also respond to cellular stressors in primary human trophoblasts.
机构信息
Obstetric Diagnostics and Therapeutics Group, Department of Obstetrics and Gynaecology, University of Melbourne, Mercy Hospital for Women, 163 Studley Road, Heidelberg, 3084, Victoria, Australia; Mercy Perinatal, Mercy Hospital for Women Heidelberg, 163 Studley Road, Heidelberg, 3084, Victoria, Australia.
Diagnostics Discovery and Reverse Translation in Pregnancy, Department of Obstetrics and Gynaecology, University of Melbourne, Mercy Hospital for Women, 163 Studley Road, Heidelberg, 3084, Victoria, Australia.
出版信息
Placenta. 2023 Aug;139:68-74. doi: 10.1016/j.placenta.2023.05.012. Epub 2023 May 19.
INTRODUCTION
Placental insufficiency is a leading cause of intrauterine growth restriction, contributing to perinatal morbidity and mortality. The molecular regulation of placental development and what causes placental insufficiency is poorly understood. Recently, a panel of genes were found to cause significant placental dysmorphologies in mice with severely growth restricted off-spring. We aimed to assess whether these genes were also implicated in human intrauterine growth restriction.
METHODS
We explored the expression of nine genes in primary cytotrophoblast cells in hypoxic (n = 6) and glucose starvation (n = 5) conditions in vitro. We also explored whether the genes were dysregulated in intrauterine growth restricted human placental samples (n = 11), with (n = 20) or without preeclampsia compared to gestationally matched controls (<34 weeks gestation) (n = 17).
RESULTS
Hypoxic stress significantly upregulated the expressions of BRD2 (p = 0.0313), SMG9 (p = 0.0313) genes. In contrast, glucose starvation significantly suppressed Kif1bp (p = 0.0089) in primary cytotrophoblasts. The FRYL, NEK9, CHTOP, PSPH, ATP11A, HM13 genes did not change under hypoxia or glucose starvation conditions. The expression of these genes was not altered in placenta from patients with intrauterine growth restriction, compared to gestationally matched controls.
DISCUSSION
We demonstrate that some of the genes that cause a placental phenotype in mice, respond to hypoxic and glucose mediated stress in human cytotrophoblast isolations. Despite this, they are unchanged in placenta from patients with intrauterine growth restriction. Therefore, dysregulation of these genes is less likely to contribute to preterm intrauterine growth restriction in humans.
简介
胎盘功能不全是宫内生长受限的主要原因,导致围产期发病率和死亡率升高。胎盘发育的分子调控以及导致胎盘功能不全的原因尚不清楚。最近,一组基因被发现可导致胎儿生长受限的小鼠胎盘严重畸形。我们旨在评估这些基因是否也与人类宫内生长受限有关。
方法
我们在体外缺氧(n=6)和葡萄糖饥饿(n=5)条件下研究了 9 种基因在原代滋养细胞中的表达。我们还研究了这些基因在宫内生长受限的人类胎盘样本(n=11)中是否失调,与(n=20)或不伴有子痫前期的样本(n=17)相比,这些样本与孕龄匹配的对照组(<34 周妊娠)(n=17)相比。
结果
缺氧应激显著上调了 BRD2(p=0.0313)和 SMG9(p=0.0313)基因的表达。相反,葡萄糖饥饿显著抑制了原代滋养细胞中的 Kif1bp(p=0.0089)表达。FRYL、NEK9、CHTOP、PSPH、ATP11A 和 HM13 基因在缺氧或葡萄糖饥饿条件下没有变化。与孕龄匹配的对照组相比,宫内生长受限患者的胎盘组织中这些基因的表达没有改变。
讨论
我们证明了一些在小鼠中引起胎盘表型的基因,对人类滋养细胞分离物中的缺氧和葡萄糖介导的应激有反应。尽管如此,它们在宫内生长受限患者的胎盘组织中没有改变。因此,这些基因的失调不太可能导致人类早产宫内生长受限。
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