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通过通道共享在胰腺β细胞簇中出现有组织的爆发活动。

Emergence of organized bursting in clusters of pancreatic beta-cells by channel sharing.

作者信息

Sherman A, Rinzel J, Keizer J

机构信息

National Institute of Diabetes and Digestive and Kidney Diseases-Mathematical Research Branch, Bethesda, Maryland.

出版信息

Biophys J. 1988 Sep;54(3):411-25. doi: 10.1016/S0006-3495(88)82975-8.

DOI:10.1016/S0006-3495(88)82975-8
PMID:2850029
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1330341/
Abstract

Pancreatic beta-cells in an intact Islet of Langerhans exhibit bursting electrical behavior. The Chay-Keizer model describes this using a calcium-activated potassium (K-Ca) channel, but cannot account for the irregular spiking of isolated beta-cells. Atwater I., L. Rosario, and E. Rojas, Cell Calcium. 4:451-461, proposed that the K-Ca channels, which are rarely open, are shared by several cells. This suggests that the chaotic behavior of isolated cells is stochastic. We have revised the Chay-Keizer model to incorporate voltage clamp data of Rorsman and Trube and extended it to include stochastic K-Ca channels. This model can describe the behavior of single cells, as well as that of clusters of cells tightly coupled by gap junctions. As the size of the clusters is increased, the electrical activity shows a transition from chaotic spiking to regular bursting. Although the model of coupling is over-simplified, the simulations lend support to the hypothesis that bursting is the result of channel sharing.

摘要

完整胰岛中的胰腺β细胞表现出爆发性电活动。Chay-Keizer模型用钙激活钾(K-Ca)通道对此进行描述,但无法解释分离的β细胞的不规则尖峰。阿特沃特、I. 罗萨里奥和E. 罗哈斯在《细胞钙》第4卷第451 - 461页提出,很少开放的K-Ca通道由几个细胞共享。这表明分离细胞的混沌行为是随机的。我们对Chay-Keizer模型进行了修订,纳入了罗斯曼和特鲁贝的电压钳数据,并将其扩展以包括随机K-Ca通道。该模型可以描述单个细胞以及通过缝隙连接紧密耦合的细胞簇的行为。随着细胞簇大小的增加,电活动表现出从混沌尖峰到规则爆发的转变。尽管耦合模型过于简化,但模拟结果支持了爆发是通道共享结果的假说。

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