小鼠胰腺β细胞中的体内同步膜电位振荡:胰岛间缺乏协调性。
In vivo synchronous membrane potential oscillations in mouse pancreatic beta-cells: lack of co-ordination between islets.
作者信息
Valdeolmillos M, Gomis A, Sánchez-Andrés J V
机构信息
Departamento de Fisiología, Facultad de Medicina, Universidad de Alicante, Spain.
出版信息
J Physiol. 1996 May 15;493 ( Pt 1)(Pt 1):9-18. doi: 10.1113/jphysiol.1996.sp021361.
Abstract
- The properties of the oscillations in electrical activity of different beta-cells within the same islet of Langerhans, and of different islets within the same pancreas, recorded in vivo, are described. 2. Simultaneous recordings of two cells within the same islet showed that the oscillations were synchronous. A rapid increase in blood glucose led to the simultaneous appearance of a transitory phase of continuous electrical activity in both cells. These results indicate that under physiological conditions, the islets operate as a functional syncytium. 3. Simultaneous recordings of cells from two different islets within the same pancreas showed that the oscillations in the electrical activity were not synchronous, which suggests that each islet is a functionally independent unit. Rapid changes in blood glucose led to the appearance of a transitory phase of increased electrical activity in both islets, although of different duration. These results suggest that the endocrine pancreas lacks a pacemaker driving the electrical activity of all the islets. 4. The comparison of the degree of activation of different islets, simultaneously recorded at different glucose concentrations, indicated that all the islets had a similar sensitivity to glucose. Furthermore, when the glucose concentration was increased, the electrical activity in both islets increased in parallel, suggesting that the amount of insulin released due to the increase in glycaemia was produced by the simultaneous response of all the islets and not by the recruitment of islets with different sensitivities to glucose. 5. Our results predict that the synchronous electrical activity of all the cells within an islet will result in widespread intracellular calcium oscillations and pulsatile insulin secretion. The periodicity of the pulses of insulin secretion in different islets is suggested to be of slightly different length and asynchronous.
摘要
- 本文描述了在体内记录的同一胰岛内不同β细胞以及同一胰腺内不同胰岛的电活动振荡特性。2. 对同一胰岛内两个细胞的同步记录显示,振荡是同步的。血糖的快速升高导致两个细胞同时出现持续电活动的短暂阶段。这些结果表明,在生理条件下,胰岛作为一个功能合胞体发挥作用。3. 对同一胰腺内两个不同胰岛细胞的同步记录显示,电活动振荡不同步,这表明每个胰岛是一个功能独立的单元。血糖的快速变化导致两个胰岛都出现电活动增加的短暂阶段,尽管持续时间不同。这些结果表明,内分泌胰腺缺乏驱动所有胰岛电活动的起搏器。4. 在不同葡萄糖浓度下同时记录不同胰岛的激活程度比较表明,所有胰岛对葡萄糖具有相似的敏感性。此外,当葡萄糖浓度升高时,两个胰岛的电活动平行增加,这表明血糖升高导致的胰岛素释放量是由所有胰岛的同时反应产生的,而不是由对葡萄糖敏感性不同的胰岛的募集产生的。5. 我们的结果预测,胰岛内所有细胞的同步电活动将导致广泛的细胞内钙振荡和脉冲式胰岛素分泌。不同胰岛中胰岛素分泌脉冲的周期长度略有不同且不同步。
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