化学
镧硫氨酸
胍
类阿片
立体化学
酰胺
组合化学
阿片肽
肽键
受体
肽
生物化学
作者
Justyna Piekielna‐Ciesielska,Renata Perlikowska,Katarzyna Gach,Anna Janecka
出处
期刊:Current Drug Targets
[Bentham Science]
日期:2013-05-01
卷期号:14 (7): 798-816
被引量:28
标识
DOI:10.2174/1389450111314070008
摘要
Endogenous opioid peptides have been studied extensively as potential therapeutics for the treatment of pain. The major problems of using natural opioid peptides as drug candidates are their poor receptor specificity, metabolic instability and inability to reach the brain after systemic administration. A lot of synthetic efforts have been made to opioid analogs with improved pharmacological properties. One important structural modification leading to such analogs is cyclization of linear sequences. Intramolecular cyclization has been shown to improve biological properties of various bioactive peptides. Cyclization reduces conformational freedom responsible for the simultaneous activation of two or more receptors, increases metabolic stability and lipophilicity which may result in a longer half-life and easier penetration across biological membranes. This review deals with various strategies that have been employed to synthesize cyclic analogs of opioid peptides. Discussed are such bridging bonds as amide and amine linkages, sulfur-containing bonds, including monosulfide, disulfide and dithioether bridges, bismethylene bonds, monosulfide bridges of lanthionine and, finally, carbonyl and guanidine linkages. Opioid affinities and activities of cyclic analogs are given and compared with linear opioid peptides. Analgesic activities of analogs evaluated in the in vivo pain tests are also discussed. Keywords: Amide bonds, monosulfide bonds, disulfide bonds, carbonyl and guanidine bridges, opioid receptor affinity, analgesic activity.
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