咪唑啉化合物对胰岛素分泌的刺激作用并非源于与非肾上腺素能受体咪唑克生结合位点的相互作用。
Stimulation of insulin secretion by imidazoline compounds is not due to interaction with non-adrenoceptor idazoxan binding sites.
作者信息
Brown C A, Loweth A C, Smith S A, Morgan N G
机构信息
Department of Biological Sciences, Keele University, Staffs.
出版信息
Br J Pharmacol. 1993 Feb;108(2):312-7. doi: 10.1111/j.1476-5381.1993.tb12801.x.
Abstract
- The potency of interaction of several imidazoline compounds with non-adrenoceptor idazoxan binding sites (NAIBS) in rat liver membranes was compared with their ability to alter insulin secretion from rat pancreatic islets. 2. NAIBS could be labelled specifically with [3H]-idazoxan in both rat liver membranes and in rat islet homogenates. Liver binding sites exhibited a KD for [3H]-idazoxan of 24 nM and a Bmax of 264 fmol mg-1 protein. 3. Binding of [3H]-idazoxan to NAIBS in rat liver membranes was displaced effectively by unlabelled idazoxan (IC50 0.1 microM) and by UK14304 (IC50 0.5 microM). However, two other imidazoline compounds efaroxan and RX821002, which are related in structure to idazoxan, were much less effective as displacers. 4. In insulin secretion experiments, the ATP-sensitive potassium channel agonist diazoxide (250 microM) was able to suppress the rise in insulin secretion induced by 20 mM glucose. Both efaroxan and RX821002 (100 microM) antagonized the inhibitory effect of diazoxide on glucose-induced insulin secretion. By contrast, neither idazoxan (100 microM) nor UK14304 (50 microM), was able to overcome significantly the inhibitory effect of diazoxide. 5. The ability of 100 microM efaroxan to antagonize the suppression of insulin secretion mediated by diazoxide, was not prevented by idazoxan (up to 100 microM) or by UK14304 (up to 50 microM). 6. The results indicate that the stimulatory effects of imidazoline compounds on insulin secretion are not due to interaction with NAIBS similar to those present in rat liver.
摘要
- 将几种咪唑啉化合物与大鼠肝细胞膜中非肾上腺素能咪唑克生结合位点(NAIBS)的相互作用强度,与其改变大鼠胰岛胰岛素分泌的能力进行了比较。2. 在大鼠肝细胞膜和大鼠胰岛匀浆中,NAIBS均可被[3H] - 咪唑克生特异性标记。肝结合位点对[3H] - 咪唑克生的解离常数(KD)为24 nM,最大结合容量(Bmax)为264 fmol mg-1蛋白质。3. 未标记的咪唑克生(IC50 0.1 microM)和UK14304(IC50 0.5 microM)可有效取代大鼠肝细胞膜中[3H] - 咪唑克生与NAIBS的结合。然而,另外两种与咪唑克生结构相关的咪唑啉化合物依酚氯铵和RX821002作为取代剂的效果则要差得多。4. 在胰岛素分泌实验中,ATP敏感性钾通道激动剂二氮嗪(250 microM)能够抑制20 mM葡萄糖诱导的胰岛素分泌增加。依酚氯铵和RX821002(100 microM)均可拮抗二氮嗪对葡萄糖诱导的胰岛素分泌的抑制作用。相比之下,咪唑克生(100 microM)和UK14304(50 microM)均不能显著克服二氮嗪的抑制作用。5. 100 microM依酚氯铵拮抗二氮嗪介导的胰岛素分泌抑制作用的能力,不受咪唑克生(高达100 microM)或UK14304(高达50 microM)的影响。6. 结果表明,咪唑啉化合物对胰岛素分泌的刺激作用并非源于与大鼠肝脏中存在的类似NAIBS的相互作用。
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