细胞内钠离子和线粒体在缓冲大鼠前脑神经元中红藻氨酸诱导的细胞内游离钙离子变化中的作用。
The role of intracellular Na+ and mitochondria in buffering of kainate-induced intracellular free Ca2+ changes in rat forebrain neurones.
作者信息
Hoyt K R, Stout A K, Cardman J M, Reynolds I J
机构信息
Department of Pharmacology, University of Pittsburgh, Pittsburgh, PA 15261, USA.
出版信息
J Physiol. 1998 May 15;509 ( Pt 1)(Pt 1):103-16. doi: 10.1111/j.1469-7793.1998.103bo.x.
Abstract
- We have examined the mechanisms by which cultured central neurones from embryonic rat brain buffer intracellular Ca2+ loads following kainate receptor activation using fluorescent indicators of [Ca2+]i and [Na+]i. 2. Stimulation of cultured forebrain neurones with 100 microM kainate produced a rapid increase in [Ca2+]i that displayed a variable rate of recovery. Kainate also increased [Na+]i with a response that was slightly slower in onset and markedly slower in recovery. 3. The recovery of [Ca2+]i to baseline was not very sensitive to the [Na+]i. The magnitude of the increase in [Na+]i in response to kainate did not correlate well with the [Ca2+]i recovery time, and experimental manipulations that altered [Na+]i did not have a large impact on the rate of recovery of [Ca2+]i. 4. The recovery of [Ca2+]i to baseline was accelerated by the mitochondrial Na+-Ca2+ exchange inhibitor CGP-37157, suggesting that the recovery rate is influenced by release of Ca2+ from a mitochondrial pool and also that variation in the recovery rate is related to the extent of mitochondrial Ca2+ loading. Kainate did not alter the mitochondrial membrane potential. 5. These studies reveal that mitochondria have a central role in buffering neuronal [Ca2+]i changes mediated by non-N-methyl-D-aspartate (NMDA) glutamate receptors, and that the variation in recovery times following kainate receptor activation reflects a variable degree of mitochondrial Ca2+ loading. However, unlike NMDA receptor-mediated Ca2+ loads, kainate receptor activation has minimal effects on mitochondrial function.
摘要
- 我们利用细胞内钙离子([Ca2+]i)和钠离子([Na+]i)荧光指示剂,研究了来自胚胎大鼠脑的培养中枢神经元在 kainate 受体激活后缓冲细胞内 Ca2+ 负荷的机制。2. 用 100 microM kainate 刺激培养的前脑神经元,可使 [Ca2+]i 迅速升高,且恢复速率可变。Kainate 还可使 [Na+]i 升高,其反应起始略慢,恢复明显较慢。3. [Ca2+]i 恢复至基线对 [Na+]i 不太敏感。kainate 刺激后 [Na+]i 升高的幅度与 [Ca2+]i 恢复时间相关性不佳,改变 [Na+]i 的实验操作对 [Ca2+]i 恢复速率影响不大。4. 线粒体 Na+-Ca2+ 交换抑制剂 CGP-37157 可加速 [Ca2+]i 恢复至基线,这表明恢复速率受线粒体钙库释放 Ca2+ 的影响,且恢复速率的变化与线粒体 Ca2+ 负荷程度有关。Kainate 未改变线粒体膜电位。5. 这些研究表明,线粒体在缓冲由非 N-甲基-D-天冬氨酸(NMDA)谷氨酸受体介导的神经元 [Ca2+]i 变化中起核心作用,且 kainate 受体激活后恢复时间的变化反映了线粒体 Ca2+ 负荷程度的不同。然而,与 NMDA 受体介导的 Ca2+ 负荷不同,kainate 受体激活对线粒体功能影响极小。
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