Garrino M G, Henquin J C
Br J Pharmacol. 1987 Mar;90(3):583-91. doi: 10.1111/j.1476-5381.1987.tb11209.x.
Adamantane derivatives were found to increase insulin release in vitro. Mouse islets were used to study the mechanisms and molecular requirements of that hitherto unrecognised property. At a non-stimulatory concentration of glucose (3 mM), 1-adamantanamine (1 mM) reversibly inhibited 86Rb efflux from islet cells, depolarized the beta-cell membrane, induced electrical activity, stimulated 45Ca uptake and efflux, and triggered insulin release. Omission of extracellular Ca2+ abolished the secretory response but only partially inhibited the acceleration of 45Ca efflux. At a stimulatory concentration of glucose (10 mM), 1-adamantanamine reversibly increased 86Rb efflux, potentiated electrical activity (lengthening of the slow waves with spikes), augmented 45Ca uptake and efflux, and increased insulin release. The effects of adamantanamine were dose-dependent, with a threshold concentration of 10 microM for stimulation release. 2-Adamantanamine was as potent as 1-adamantanamine. In contrast, substitution of the amino group by a carboxyl group (1-adamantanecarboxylic acid) decreased the effectiveness by about 65%, and substitution by a hydroxyl group (1-adamantanol) suppressed it. It is concluded that adamantane derivatives bearing an amino group decrease K+ permeability of the beta-cell membrane and thereby cause depolarization. This activates voltage-dependent Ca channels, permits Ca2+ influx and eventually stimulates insulin release. They may also mobilize cellular Ca2+, but this effect is not sufficient to cause release.
发现金刚烷衍生物可在体外增加胰岛素释放。使用小鼠胰岛来研究这种迄今未被认识的特性的机制和分子要求。在非刺激性葡萄糖浓度(3 mM)下,1-金刚烷胺(1 mM)可逆地抑制胰岛细胞的86Rb外流,使β细胞膜去极化,诱导电活动,刺激45Ca摄取和外流,并触发胰岛素释放。去除细胞外Ca2+消除了分泌反应,但仅部分抑制了45Ca外流的加速。在刺激性葡萄糖浓度(10 mM)下,1-金刚烷胺可逆地增加86Rb外流,增强电活动(慢波加尖峰延长),增加45Ca摄取和外流,并增加胰岛素释放。金刚烷胺的作用呈剂量依赖性,刺激释放的阈值浓度为10 microM。2-金刚烷胺与1-金刚烷胺效力相同。相比之下,用羧基取代氨基(1-金刚烷羧酸)使效力降低约65%,用羟基取代(1-金刚烷醇)则抑制了该作用。结论是带有氨基的金刚烷衍生物降低β细胞膜的K+通透性,从而导致去极化。这激活电压依赖性Ca通道,允许Ca2+内流并最终刺激胰岛素释放。它们也可能动员细胞内Ca2+,但这种作用不足以引起释放。