甲苯磺丁脲和二氮嗪对体内记录的小鼠胰腺β细胞电活动的调节作用。

Regulation by tolbutamide and diazoxide of the electrical activity in mouse pancreatic beta-cells recorded in vivo.

作者信息

Gomis A, Valdeolmillos M

机构信息

Instituto de Neurociencias-Departamento de Fisiología, Universidad Miguel Hernandez, Facultad de Medicina, Alicante, Spain.

出版信息

Br J Pharmacol. 1998 Feb;123(3):443-8. doi: 10.1038/sj.bjp.0701628.

DOI:10.1038/sj.bjp.0701628

PMID:9504385

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1565189/

Abstract

The glucose-dependence of beta-cell electrical activity and the effects of tolbutamide and diazoxide were studied in anaesthetized mice. 2. In untreated animals there was a direct relationship between glycaemia and the burst pattern of electrical activity. Animals with high glucose concentration showed continuous electrical activity. The application of insulin led to a steady decrease in blood glucose concentration and a transition from continuous to oscillatory activity at 7.7+/-0.1 mM glucose (mean+/-s.d.) and a subsequent transition from oscillatory to silent at 4.7+/-0.6 mM glucose. 3. At physiological blood glucose concentrations the electrical activity was oscillatory. The injection of tolbutamide (1800 mg kg[-1]) transformed this oscillatory pattern into one of continuous electrical activity. The increased electrical activity was associated with a decrease in blood glucose concentration from 7.1+/-0.9 (control) to 5.5+/-1.0 mM (10 min after tolbutamide injection). The effects of tolbutamide are consistent with a direct blocking effect on the K(ATP) channel that leads to membrane depolarization. 4. The injection of diazoxide (6000 mg kg[-1]) hyperpolarized the cells and transformed the oscillatory pattern into a silent one. This is consistent with a direct stimulant effect by diazoxide on the K(ATP) channel. The use of tolbutamide or diazoxide correspondingly led to the lengthening or shortening of the active phase of electrical activity, respectively. This indicates that in vivo, such activity can be modulated by the relative degree of activation or inhibition of the K(ATP) channel. 5. These results indicate that under physiological conditions, tolbutamide and diazoxide have direct and opposite effects on the electrical activity of pancreatic beta-cells, most likely through their action on K(ATP) channels. This is consistent with previous work carried out on in vitro models and explains the drugs hypo- and hyperglycaemic effects.

摘要

在麻醉小鼠中研究了β细胞电活动的葡萄糖依赖性以及甲苯磺丁脲和二氮嗪的作用。2. 在未治疗的动物中，血糖与电活动的爆发模式之间存在直接关系。高葡萄糖浓度的动物表现出持续的电活动。注射胰岛素导致血糖浓度稳步下降，并在葡萄糖浓度为7.7±0.1 mM（平均值±标准差）时从持续活动转变为振荡活动，随后在葡萄糖浓度为4.7±0.6 mM时从振荡活动转变为静息状态。3. 在生理血糖浓度下，电活动呈振荡性。注射甲苯磺丁脲（1800 mg kg[-1]）将这种振荡模式转变为持续电活动模式。电活动增加与血糖浓度从对照时的7.1±0.9 mM降至注射甲苯磺丁脲10分钟后的5.5±1.0 mM有关。甲苯磺丁脲的作用与对K(ATP)通道的直接阻断作用一致，该作用导致膜去极化。4. 注射二氮嗪（6000 mg kg[-1]）使细胞超极化，并将振荡模式转变为静息模式。这与二氮嗪对K(ATP)通道的直接刺激作用一致。使用甲苯磺丁脲或二氮嗪分别相应地导致电活动活跃期的延长或缩短。这表明在体内，这种活动可通过K(ATP)通道的相对激活或抑制程度进行调节。5. 这些结果表明，在生理条件下，甲苯磺丁脲和二氮嗪对胰腺β细胞的电活动具有直接且相反的作用，很可能是通过它们对K(ATP)通道的作用。这与先前在体外模型上进行的工作一致，并解释了药物的降血糖和升血糖作用。