Cortical cells are altered by factors including bone morphogenetic protein released from a placental barrier model under altered oxygenation.

Q4 Neuroscience Neuronal signaling Pub Date : 2020-04-09 eCollection Date: 2020-04-01 DOI:10.1042/NS20190148
Veronica H L Leinster, Thomas J Phillips, Nicola Jones, Sharon Sanderson, Katja Simon, Jon Hanley, Charles Patrick Case
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Abstract

Episodes of hypoxia and hypoxia/reoxygenation during foetal development have been associated with increased risk of neurodevelopmental conditions presenting in later life. The mechanism for this is not understood; however, several authors have suggested that the placenta plays an important role. Previously we found both placentas from a maternal hypoxia model and pre-eclamptic placentas from patients release factors lead to a loss of dendrite complexity in rodent neurons. Here to further explore the nature and origin of these secretions we exposed a simple in vitro model of the placental barrier, consisting of a barrier of human cytotrophoblasts, to hypoxia or hypoxia/reoxygenation. We then exposed cortical cultures from embryonic rat brains to the conditioned media (CM) from below these exposed barriers and examined changes in cell morphology, number, and receptor presentation. The barriers released factors that reduced dendrite and astrocyte process lengths, decreased GABAB1 staining, and increased astrocyte number. The changes in astrocytes required the presence of neurons and were prevented by inhibition of the SMAD pathway and by neutralising Bone Morphogenetic Proteins (BMPs) 2/4. Barriers exposed to hypoxia/reoxygenation also released factors that reduced dendrite lengths but increased GABAB1 staining. Both oxygen changes caused barriers to release factors that decreased GluN1, GABAAα1 staining and increased GluN3a staining. We find that hypoxia in particular will elicit the release of factors that increase astrocyte number and decrease process length as well as causing changes in the intensity of glutamate and GABA receptor staining. There is some evidence that BMPs are released and contribute to these changes.

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胎盘屏障模型在氧饱和度改变的情况下释放的骨形态发生蛋白等因子会改变皮质细胞。
胎儿发育过程中的缺氧和缺氧/再缺氧与日后出现神经发育问题的风险增加有关。然而,一些学者认为胎盘在其中扮演了重要角色。此前,我们发现来自母体缺氧模型的胎盘和来自患者的先兆子痫胎盘都会释放导致啮齿类神经元树突复杂性丧失的因子。为了进一步探索这些分泌物的性质和来源,我们将一个简单的胎盘屏障体外模型(由人类细胞母细胞屏障组成)暴露于缺氧或缺氧/再缺氧环境中。然后,我们将胚胎大鼠大脑皮层培养物暴露于这些暴露屏障下方的条件培养基(CM)中,并研究了细胞形态、数量和受体呈现的变化。屏障释放的因子减少了树突和星形胶质细胞的过程长度,降低了 GABAB1 染色,并增加了星形胶质细胞的数量。星形胶质细胞的变化需要神经元的存在,抑制 SMAD 通路和中和骨形态发生蛋白(BMPs)2/4 可阻止星形胶质细胞的变化。暴露于缺氧/复氧环境中的屏障也会释放因子,这些因子会减少树突长度,但会增加 GABAB1 染色。这两种氧变化都会导致屏障释放因子,减少 GluN1、GABAAα1 染色,增加 GluN3a 染色。我们发现,缺氧尤其会引起因子的释放,从而增加星形胶质细胞的数量,减少过程的长度,并引起谷氨酸和 GABA 受体染色强度的变化。有证据表明,BMPs 被释放并促成了这些变化。
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4.60
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0.00%
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审稿时长
14 weeks
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