环磷酸腺苷对小鼠胰腺β细胞对各种氨基酸的反应有不同影响。

Cyclic adenosine monophosphate differently affects the response of mouse pancreatic beta-cells to various amino acids.

作者信息

Henquin J C, Meissner H P

出版信息

J Physiol. 1986 Dec;381:77-93. doi: 10.1113/jphysiol.1986.sp016314.

DOI:10.1113/jphysiol.1986.sp016314

PMID:3040964

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1182966/

Abstract

The membrane potential of mouse beta-cells was measured in parallel with 86Rb+ efflux and insulin release from mouse islets during stimulation by three types of amino acids and modulation of their effects by glucose and cyclic adenosine monophosphate (cyclic AMP) (forskolin being used to activate the adenylate cyclase). 2. In the absence of glucose, alanine and arginine accelerated 86Rb+ efflux, whereas leucine decreased it. They all depolarized the beta-cell membrane and slightly increased insulin release. Forskolin had little effect on 86Rb+ efflux, consistently potentiated insulin release but induced electrical activity only in the presence of leucine. 3. The effects of the three amino acids on 86Rb+ efflux and beta-cell membrane potential were not qualitatively altered by a non-stimulatory concentration of glucose (3 mM). However, the release of insulin induced by leucine alone or with forskolin was markedly amplified, in contrast to that of alanine or arginine, which was inhibited. 4. In the presence of a threshold concentration of glucose (7 mM), the three amino acids accelerated 86Rb+ efflux and depolarized the beta-cell membrane. With alanine and arginine, spike activity was transiently observed and coincided with a short-lived increase in insulin release. With leucine, slow waves with superimposed bursts of spikes occurred and were accompanied by a sustained release of insulin. Forskolin alone also triggered slow waves and bursts of spikes, and increased insulin release. Both effects were larger in the presence of arginine, but not in the presence of alanine. Forskolin considerably increased the electrical and secretory effects of leucine. 5. A higher concentration of glucose (10 mM) induced slow waves with bursts of spikes in all cells and stimulated insulin release. Alanine, arginine and leucine increased 86Rb+ efflux, electrical activity and insulin release. However, the changes produced by the three amino acids displayed different time course, amplitude and characteristics. Forskolin potentiated insulin release and electrical activity induced by glucose alone. These effects were not augmented by alanine, but markedly amplified by arginine or leucine. 6. Several conclusions can be drawn from this study. The three types of amino acids depolarize the beta-cell membrane by different mechanisms and produce distinct patterns of electrical activity. Slow waves with bursts of spikes occur only if a decrease in K+ permeability contributes to the depolarization.(ABSTRACT TRUNCATED AT 400 WORDS)

摘要

在三种氨基酸刺激小鼠胰岛并通过葡萄糖和环磷酸腺苷（环AMP）调节其作用（使用福斯可林激活腺苷酸环化酶）的过程中，同时测量了小鼠β细胞的膜电位、86Rb+外流和胰岛素释放。2. 在无葡萄糖的情况下，丙氨酸和精氨酸加速86Rb+外流，而亮氨酸则使其减少。它们均使β细胞膜去极化，并略微增加胰岛素释放。福斯可林对86Rb+外流影响不大，持续增强胰岛素释放，但仅在有亮氨酸存在时诱导电活动。3. 非刺激浓度的葡萄糖（3 mM）未定性改变三种氨基酸对86Rb+外流和β细胞膜电位的影响。然而，与丙氨酸或精氨酸受抑制不同，单独的亮氨酸或与福斯可林一起诱导的胰岛素释放明显增强。4. 在阈值浓度的葡萄糖（7 mM）存在下，三种氨基酸加速86Rb+外流并使β细胞膜去极化。对于丙氨酸和精氨酸，短暂观察到锋电位活动，且与胰岛素释放的短暂增加同时出现。对于亮氨酸，出现叠加锋电位爆发的慢波，并伴有胰岛素的持续释放。单独的福斯可林也引发慢波和锋电位爆发，并增加胰岛素释放。在有精氨酸存在时，这两种作用均更大，但在有丙氨酸存在时则不然。福斯可林显著增强亮氨酸的电活动和分泌作用。5. 较高浓度的葡萄糖（10 mM）在所有细胞中诱导出叠加锋电位爆发的慢波，并刺激胰岛素释放。丙氨酸、精氨酸和亮氨酸增加86Rb+外流、电活动和胰岛素释放。然而，三种氨基酸产生的变化表现出不同的时间进程、幅度和特征。福斯可林增强单独葡萄糖诱导的胰岛素释放和电活动。这些作用未被丙氨酸增强，但被精氨酸或亮氨酸显著放大。6. 从本研究中可以得出几个结论。三种类型的氨基酸通过不同机制使β细胞膜去极化，并产生不同的电活动模式。只有当钾离子通透性降低导致去极化时，才会出现叠加锋电位爆发的慢波。（摘要截选至400字）