利用合成肽TPLVTLFK阐明非阿片类药物Β-Endorphin作用的分子机制

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摘要

本文综述了β-内啡肽的非阿片作用及其合成片段12-19 (TPLVTLFK, octarphin)的数据,这是一种非阿片β-内啡肽受体的选择性激动剂。利用氚标记的八鳃海豚蛋白,研究了其受体在体内的分布。发现于免疫细胞(腹膜巨噬细胞、T淋巴细胞和b淋巴细胞)、内分泌(肾上腺皮质、下丘脑)、心血管(心肌细胞)系统。结合特异性特征表明,只有未标记的β-内啡肽能取代与受体配合物的标记肽,平行测试的α-内啡肽、γ-内啡肽和脑啡肽均无活性。该肽可提高诱导型no合成酶(iNOS)、可溶性鸟苷酸环化酶(sGC)活性和靶细胞cGMP含量。结果表明,octarphin和β-内啡肽通过非阿片受体介导的激活作用是通过增加iNOS表达→增加NO产生→增加sGC活性→增加细胞内cGMP水平实现的
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Elucidation of Molecular Mechanism of the Nonopioid Β-Endorphin Action Using Synthetic Peptide TPLVTLFK
The review presents data on nonopioid action of β-endorphin and its synthetic fragment 12-19 (TPLVTLFK, octarphin), a selective agonist of a nonopioid β-endorphin receptor. Using tritium labeled octarphin, the receptor distribution in the body has been studied. It was discovered on immune cells (peritoneal macrophages, T and B-lymphocytes), endocrine (adrenal cortex, hypothalamus), cardiovascular (cardio myocytes) systems. Characteristics of the binding specificity showed that only unlabeled β-endorphin can displace the labeled octarphin from the complex with the receptor, the α-endorphin, γ-endorphin and enkephalins tested in parallel were inactive. The peptide was found to increase the activity of inducible NO-synthase (iNOS), soluble guanylate cyclase (sGC) and the content of cGMP in target cells. The results obtained suggest that the activating effect of octarphin and β-endorphin mediated through the nonopioid receptor is realized in the following way: increasing iNOS expression → increasing NO production → increasing sGC activity → increasing intracellular level of cGMP
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