前列腺素E2诱导脑室下区星形胶质细胞释放谷氨酸。

Neuron glia biology Pub Date : 2010-08-01 Epub Date: 2011-01-07 DOI:10.1017/S1740925X10000244
Kathleen A Dave, Jean-Claude Platel, Frank Huang, David Tian, Severine Stamboulian-Platel, Angélique Bordey
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引用次数: 21

摘要

最近有报道称,在一个成人神经遗传区,心室下区(SVZ),星形细胞样细胞在细胞内Ca2+增加时释放谷氨酸。然而,控制SVZ星形胶质细胞Ca2+活性和谷氨酸释放的信号尚不清楚。在这里,我们研究了诱导成熟星形胶质细胞释放谷氨酸的前列腺素E2 (PGE2)是否是这样一个信号。利用gramicidin穿孔膜片钳技术,我们发现神经母细胞中n-甲基- d -天冬氨酸受体(NMDAR)通道的活性是环境谷氨酸水平的高保真传感器。使用这种传感器,我们发现PGE2的应用导致SVZ环境谷氨酸水平增加。在平行实验中,PGE2诱导SVZ细胞内Ca2+水平的增加,特别是星形细胞样细胞,如Ca2+成像所示。最后,PGE2酶免疫分析显示,侧脑室脉络膜丛和SVZ在较小程度上释放PGE2(少10倍)。这些发现表明PGE2是诱导SVZ星形胶质细胞释放谷氨酸的生理信号,对控制神经母细胞的存活和增殖具有重要意义。该信号可能在缺血或损伤诱导的PGE2释放后增强,并可能导致损伤相关的神经发生增加。
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Prostaglandin E2 induces glutamate release from subventricular zone astrocytes.

It was recently reported that in one of the adult neurogenetic zones, the subventricular zone (SVZ), astrocyte-like cells release glutamate upon intracellular Ca2+ increases. However, the signals that control Ca2+ activity and glutamate release from SVZ astrocytes are not known. Here, we examined whether prostaglandin E2 (PGE2), which induces glutamate release from mature astrocytes, is such a signal. Using the gramicidin-perforated patch-clamp technique, we show that the activity of N-Methyl-D-Aspartate receptor (NMDAR) channel in neuroblasts is a high fidelity sensor of ambient glutamate levels. Using such sensors, we found that application of PGE2 led to increased ambient glutamate levels in the SVZ. In parallel experiments, PGE2 induced an increase in intracellular Ca2+ levels in SVZ cells, in particular astrocyte-like cells, as shown using Ca2+ imaging. Finally, a PGE2 enzyme immunoassay showed that the choroid plexus of the lateral ventricle and to a lesser extent the SVZ (ten-fold less) released PGE2. These findings suggest that PGE2 is a physiological signal for inducing glutamate release from SVZ astrocytes that is important for controlling neuroblast survival and proliferation. This signal may be accentuated following ischemia or injury-induced PGE2 release and may contribute to the injury-associated increased neurogenesis.

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Neuron glia biology
Neuron glia biology 医学-神经科学
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