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葡萄糖诱导的K+ATP通道关闭与单个小鼠胰腺β细胞中[Ca2+]i升高之间的关系。

The relationship between glucose-induced K+ATP channel closure and the rise in [Ca2+]i in single mouse pancreatic beta-cells.

作者信息

Valdeolmillos M, Nadal A, Contreras D, Soria B

机构信息

Department of Physiology, School of Medicine, University of Alicante, Spain.

出版信息

J Physiol. 1992 Sep;455:173-86. doi: 10.1113/jphysiol.1992.sp019295.

DOI:10.1113/jphysiol.1992.sp019295
PMID:1484353
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1175638/
Abstract
  1. Intracellular calcium [Ca2+]i and channel activity were simultaneously recorded in single, dissociated mouse beta-cells kept in culture for 1-3 days. [Ca2+]i was estimated from microfluorometric ratio methods using Indo-1. Channel activity was measured using the cell-attached configuration of the patch-clamp technique. 2. At low glucose concentrations (0.3 mM), resting K+ATP channel activity was prevalent. Increasing glucose up to 16 mM, produced a gradual decrease in K+ATP channel activity over a time course of 90-120 s (temperature = 23 degrees C) and an increase in [Ca2+]i. 3. In the majority of experiments, glucose elicited biphasic action currents (action potentials) which preceded the rise in [Ca2+]i. There was a close correlation between spike frequency and the levels of [Ca2+]i. 4. The sulphonylurea tolbutamide (1 mM) blocked K+ATP channels in 10-20 s. K+ATP channel blockade was associated with a quick rise in [Ca2+]i. 5. When K+ATP channel activity was stimulated in the presence of diazoxide (100 microM), increasing the glucose concentration from 3 to 16 mM produced a decrease in [Ca2+]i. Only when diazoxide was removed did glucose produce an increase in [Ca2+]i. 6. In a small population of cells, glucose (16 mM) produced a small decrease in K+ATP channel activity but not an increase in [Ca2+]i. In such cells, tolbutamide blocked K+ATP channels and produced an increase in [Ca2+]i. 7. These results demonstrate a close correlation between K+ATP channel activity and [Ca2+]i in beta-cells. The findings are consistent with the model in which glucose metabolism produces a rise in [Ca2+]i through the blockade of K+ATP channels, membrane depolarization and calcium current activation.
摘要
  1. 在培养1 - 3天的单个解离小鼠β细胞中同时记录细胞内钙浓度[Ca2+]i和通道活性。[Ca2+]i通过使用吲哚-1的微荧光比率法估算。通道活性使用膜片钳技术的细胞贴附式配置进行测量。2. 在低葡萄糖浓度(0.3 mM)时,静息K+ATP通道活性占主导。将葡萄糖浓度增加至16 mM,在90 - 120秒的时间进程中(温度 = 23摄氏度)K+ATP通道活性逐渐降低,且[Ca2+]i增加。3. 在大多数实验中,葡萄糖引发双相动作电流(动作电位),其先于[Ca2+]i升高。峰频率与[Ca2+]i水平之间存在密切相关性。4. 磺酰脲类药物甲苯磺丁脲(1 mM)在10 - 20秒内阻断K+ATP通道。K+ATP通道阻断与[Ca2+]i快速升高相关。5. 当在二氮嗪(100 microM)存在下刺激K+ATP通道活性时,将葡萄糖浓度从3 mM增加至16 mM会导致[Ca2+]i降低。仅在去除二氮嗪后葡萄糖才会使[Ca2+]i增加。6. 在一小部分细胞中,葡萄糖(16 mM)使K+ATP通道活性略有降低,但未使[Ca2+]i增加。在这类细胞中,甲苯磺丁脲阻断K+ATP通道并使[Ca2+]i增加。7. 这些结果表明β细胞中K+ATP通道活性与[Ca2+]i之间存在密切相关性。这些发现与以下模型一致:葡萄糖代谢通过阻断K+ATP通道、膜去极化和钙电流激活导致[Ca2+]i升高。

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