代谢阻断对离体小鼠感觉神经元细胞内钙调节的影响。
Effects of metabolic blockade on the regulation of intracellular calcium in dissociated mouse sensory neurones.
作者信息
Duchen M R, Valdeolmillos M, O'Neill S C, Eisner D A
机构信息
Department of Physiology, University College London.
出版信息
J Physiol. 1990 May;424:411-26. doi: 10.1113/jphysiol.1990.sp018074.
Abstract
- Impaired intracellular Ca2+ concentration ([Ca2+]i) regulation may underlie alterations in neuronal function during hypoxia or hypoglycaemia and may initiate cell damage. We have used the Ca2(+)-sensitive fluorophore, Fura-2, to study the regulation of [Ca2+]i in neurones isolated from mouse dorsal root ganglia. Mean resting [Ca2+]i was 163 +/- 11 nM (mean +/- S.E.M., n = 38). 2. Depolarization by exposure to 20 or 30 mM-K+ caused a rapid Co2(+)- and Cd2(+)-sensitive rise in [Ca2+]i, which subsequently declined with a time course usually fitted by the sum of two exponential functions. 3. Interference with mitochondrial function (by CN- or FCPP) or with glycolysis (by glucose removal) all raised [Ca2+]i by up to 220%. Addition of FCCP in the presence of CN- further increased [Ca2+]i. The response to CN- was still seen in the absence of extracellular Ca2+, although it attenuated rapidly, indicating release from an intracellular store. 4. Either CN- or glucose removal increased the rise in [Ca2+]i induced by K+ 2- to 3-fold and slowed recovery, suggesting interference with sequestration or extrusion of [Ca2+]i. 5. Resting [Ca2+]i rose when external Na+ was replaced by Li+ or N-methyl-D-glucamine, demonstrating the presence of a Na(+)-Ca2+ exchange process. However, Na+ replacement had only a slight effect on the handling of a Ca2+ load. 6. We conclude that (i) Ca2+ is released into the cytoplasm from intracellular organelles when energy supplies are reduced: (ii) that the extrusion or sequestration of Ca2+ entering the cell during electrical activity is rapidly impaired by interference with mitochondrial metabolism: and (iii) Na(+)-Ca2+ exchange makes only a small contribution to intracellular Ca2+ homeostasis. 7. [Ca2+]i would thus be expected to rise in vivo during hypoxia or hypoglycaemia and may initiate alterations in neuronal function. However, if a rise in Ca2+ is an important cause of cell damage in cerebral hypoxaemia, the combination of excitation and hypoxia will lead to the largest increases in [Ca2+]i, while hypoxia alone appears to cause only a small increase in [Ca2+]i in quiescent cells.
摘要
- 细胞内钙离子浓度([Ca2+]i)调节受损可能是缺氧或低血糖期间神经元功能改变的基础,并可能引发细胞损伤。我们使用钙离子敏感荧光团Fura-2来研究从小鼠背根神经节分离出的神经元中[Ca2+]i的调节情况。平均静息[Ca2+]i为163±11 nM(平均值±标准误,n = 38)。2. 暴露于20或30 mM - K+导致去极化,引起[Ca2+]i迅速升高,且对Co2+和Cd2+敏感,随后其下降过程通常符合两个指数函数之和的时间进程。3. 干扰线粒体功能(通过CN-或FCCP)或糖酵解(通过去除葡萄糖)均使[Ca2+]i升高达220%。在存在CN-的情况下添加FCCP进一步增加了[Ca2+]i。在无细胞外钙离子时仍可见对CN-的反应,尽管其迅速减弱,表明是从细胞内储存库释放。4. CN-或去除葡萄糖使K+诱导的[Ca2+]i升高增加2至3倍,并减缓恢复,提示对[Ca2+]i的螯合或外排存在干扰。5. 当外部Na+被Li+或N - 甲基 - D - 葡萄糖胺替代时,静息[Ca2+]i升高,表明存在Na(+)-Ca2+交换过程。然而,Na+替代对钙离子负荷的处理仅有轻微影响。6. 我们得出结论:(i)当能量供应减少时,钙离子从细胞内细胞器释放到细胞质中;(ii)在电活动期间进入细胞的钙离子的外排或螯合会因干扰线粒体代谢而迅速受损;(iii)Na(+)-Ca2+交换对细胞内钙离子稳态的贡献很小。7. 因此,预计在体内缺氧或低血糖期间[Ca2+]i会升高,并可能引发神经元功能改变。然而,如果钙离子升高是脑缺氧时细胞损伤的重要原因,兴奋与缺氧的联合作用将导致[Ca2+]i最大程度升高,而单独缺氧似乎仅使静止细胞中的[Ca2+]i有小幅升高。
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