培养的大鼠小脑颗粒细胞中钙离子动员机制之间的相互作用。
Interactions between Ca2+ mobilizing mechanisms in cultured rat cerebellar granule cells.
作者信息
Irving A J, Collingridge G L, Schofield J G
机构信息
Department of Biochemistry, School of Medical Sciences, University of Bristol.
出版信息
J Physiol. 1992 Oct;456:667-80. doi: 10.1113/jphysiol.1992.sp019360.
Abstract
- The interactions between IP3 receptor-mediated and Ca(2+)-induced Ca2+ release were investigated in cerebellar granule cell bodies, using the techniques of microfluorimetry and image analysis. 2. The IP3-sensitive Ca2+ release mechanism was activated using acetylcholine (ACh) and the selective metabotropic glutamate receptor agonist 1-aminocyclopentane-1S,3R-dicarboxylic acid (ACPD). Caffeine was used to activate, and ryanodine to inhibit, the Ca(2+)-induced Ca2+ release process. Thapsigargin was used to deplete intracellular Ca2+ stores. 3. Transient applications of caffeine (5-50 mM), ACPD (50-500 microM) and ACh (0.05-1 microM) mobilized intracellular Ca2+ ([Ca2+]i). Ca2+ mobilizing responses to 50 mM caffeine and 1 microM ACh increased with time in culture until day 4. However, beyond this period the responsiveness of cells to caffeine, but not to ACh, declined markedly. 4. Responses induced by ACPD and ACh were inhibited in the presence of caffeine at concentrations below those which mobilized Ca2+ (1-5 mM). This effect was not due to Ca2+ pool depletion, elevation of cAMP or inhibition of phosphodiesterases. 5. Prior challenge with ACh or ACPD inhibited Ca2+ mobilization induced by caffeine (50 mM). Transient exposure to caffeine inhibited subsequent responses to ACh through a mechanism which involved store depletion. 6. Thapsigargin (0.1-1 microM) inhibited, to a similar extent, Ca2+ mobilization induced by caffeine, ACPD and ACh. 7. Ryanodine (10 microM) antagonized Ca2+ mobilization induced by caffeine, ACh and ACPD. However, the ability of ryanodine to block inositol 1,4,5-trisphosphate-linked agonist responses varied considerably between cells. The sensitivity of ACh-induced responses to ryanodine correlated with the sensitivity of the cells to caffeine. 8. The possible explanations for the pronounced interactions between IP3 receptor-mediated and Ca(2+)-induced Ca2+ release processes in cerebellar granule cells are discussed.
摘要
- 运用显微荧光测定法和图像分析技术,在小脑颗粒细胞体中研究了肌醇三磷酸(IP3)受体介导的和Ca(2+)诱导的Ca2+释放之间的相互作用。2. 使用乙酰胆碱(ACh)和选择性代谢型谷氨酸受体激动剂1-氨基环戊烷-1S,3R-二羧酸(ACPD)激活IP3敏感的Ca2+释放机制。用咖啡因激活,用ryanodine抑制Ca(2+)诱导的Ca2+释放过程。用毒胡萝卜素耗尽细胞内Ca2+储备。3. 短暂施加咖啡因(5 - 50 mM)、ACPD(50 - 500 microM)和ACh(0.05 - 1 microM)可动员细胞内Ca2+([Ca2+]i)。对50 mM咖啡因和1 microM ACh的Ca2+动员反应在培养至第4天前随时间增加。然而,在此之后,细胞对咖啡因而非对ACh的反应性显著下降。4. 在低于能动员Ca2+的浓度(1 - 5 mM)的咖啡因存在下,ACPD和ACh诱导的反应受到抑制。这种效应不是由于Ca2+池耗竭、cAMP升高或磷酸二酯酶抑制。5. 预先用ACh或ACPD刺激可抑制咖啡因(50 mM)诱导的Ca2+动员。短暂暴露于咖啡因通过一种涉及储存耗竭的机制抑制随后对ACh的反应。6. 毒胡萝卜素(0.1 - 1 microM)在相似程度上抑制咖啡因、ACPD和ACh诱导的Ca2+动员。7. Ryanodine(10 microM)拮抗咖啡因、ACh和ACPD诱导的Ca2+动员。然而,ryanodine阻断肌醇1,4,5 - 三磷酸连接的激动剂反应的能力在细胞间有很大差异。ACh诱导的反应对ryanodine的敏感性与细胞对咖啡因的敏感性相关。8. 讨论了小脑颗粒细胞中IP3受体介导的和Ca(2+)诱导的Ca2+释放过程之间明显相互作用的可能解释。
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