探讨人类胰岛胰岛素分泌调控的药理学方法。

Pharmacological approach to understanding the control of insulin secretion in human islets.

机构信息

Unit of Endocrinology and Metabolism, Faculty of Medicine, University of Louvain, Brussels, Belgium.

Endocrine Cell Therapy Unit, University Clinics Saint-Luc, University of Louvain, Brussels, Belgium.

出版信息

Diabetes Obes Metab. 2017 Aug;19(8):1061-1070. doi: 10.1111/dom.12887. Epub 2017 Mar 31.

DOI:10.1111/dom.12887

PMID:28116849

Abstract

AIMS

To understand better the control of insulin secretion by human β cells and to identify similarities to and differences from rodent models.

METHODS

Dynamic insulin secretion was measured in perifused human islets treated with pharmacological agents of known modes of action.

RESULTS

Glucokinase activation (Ro28-1675) lowered the glucose threshold for stimulation of insulin secretion to 1 mmol/L (G1), augmented the response to G3-G5 but not to G8-G15, whereas tolbutamide remained active in G20, which indicates that not all K channels were closed by high glucose concentrations. An almost 2-fold greater response to G15 than to supramaximal tolbutamide in G3 or to KCl+diazoxide in G15 vs G3 quantified the contribution of metabolic amplification to insulin secretion. Both disruption (latrunculin-B) and stabilization (jasplakinolide) of microfilaments augmented insulin secretion without affecting metabolic amplification. Tolbutamide-induced insulin secretion was consistently greater in G10 than G3, with a threshold at 1 and maximum at 10 µmol/L tolbutamide in G10, vs 10 and 25 µmol/L in G3. Sulphonylurea effects were thus clearly glucose-dependent. Insulin secretion was also increased by inhibiting K channels other than K channels: Kv or BK channels (tetraethylammonium), TASK-1 channels (ML-365) and SK4 channels (TRAM-34). Opening K channels with diazoxide inhibited glucose-induced insulin secretion with half maximum inhibitory concentrations of 9.6 and 24 µmol/L at G7 and G15. Blockade of L-type Ca channels (nimodipine) abolished insulin secretion, whereas a blocker of T-type Ca channels (NNC-55-0396) was ineffective at specific concentrations. Blockade of Na channels (tetrodotoxin) did not affect glucose-induced insulin secretion.

CONCLUSIONS

In addition to sharing a K channel-dependent triggering pathway and a metabolic amplifying pathway, human and rodent β cells were found to display more similarities than differences in the control of insulin secretion.

摘要

目的

更好地了解人类β细胞胰岛素分泌的控制，并确定其与啮齿动物模型的相似之处和不同之处。

方法

用已知作用模式的药理学制剂处理离体灌注的人胰岛，测量动态胰岛素分泌。

结果

葡萄糖激酶激活剂（Ro28-1675）将刺激胰岛素分泌的葡萄糖阈值降低至 1mmol/L（G1），增强了对 G3-G5 的反应，但对 G8-G15 没有反应，而甲苯磺丁脲在 G20 中仍保持活性，这表明并非所有 K 通道都被高葡萄糖浓度关闭。与 G3 中的超高甲苯磺丁脲或 G15 中的 KCl+二氮嗪相比，G15 对 G15 的反应增加了近 2 倍，这量化了代谢放大对胰岛素分泌的贡献。微丝的破坏（拉曲库林-B）和稳定（jasplakinolide）都增加了胰岛素分泌，而不影响代谢放大。与 G3 相比，G10 中的甲苯磺丁脲诱导的胰岛素分泌始终更高，在 G10 中的阈值为 1 和最大为 10μmol/L 甲苯磺丁脲，而在 G3 中的阈值为 10 和 25μmol/L。磺酰脲类药物的作用显然是葡萄糖依赖性的。其他 K 通道（Kv 或 BK 通道[四乙铵]、TASK-1 通道[ML-365]和 SK4 通道[TRAM-34]）的抑制也增加了胰岛素分泌。用 diazoxide 打开 K 通道抑制葡萄糖诱导的胰岛素分泌，在 G7 和 G15 时的半最大抑制浓度分别为 9.6 和 24μmol/L。L 型钙通道（尼莫地平）的阻断剂完全消除了胰岛素分泌，而 T 型钙通道（NNC-55-0396）的阻断剂在特定浓度下无效。钠通道（河豚毒素）的阻断剂不影响葡萄糖诱导的胰岛素分泌。

结论

除了共享 K 通道依赖性触发途径和代谢放大途径外，人类和啮齿动物β 细胞在胰岛素分泌的控制方面显示出更多的相似之处，而不是差异。

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探讨人类胰岛胰岛素分泌调控的药理学方法。

Pharmacological approach to understanding the control of insulin secretion in human islets.

机构信息

出版信息

AIMS

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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