Eglen R M, Hudson A L, Kendall D A, Nutt D J, Morgan N G, Wilson V G, Dillon M P
Medicinal Chemistry Department, Roche Bioscience, Palo Alto, CA 94304, USA.
Trends Pharmacol Sci. 1998 Sep;19(9):381-90. doi: 10.1016/s0165-6147(98)01244-9.
Although imidazoline sites have been the subject of research for several years, there is still controversy about their structure, diversity and physiology. The I1 site is thought to exist principally as a binding site and is widely purported to play a role in controlling systemic blood pressure, although this is still unclear. The majority of I2 sites are widely accepted as being allosteric sites on monoamine oxidase; however, even with selective ligands, their exact function remains to be determined. A putative I3 site modulates insulin secretion and could represent the first functional site to be pharmacologically defined with selective agonists and antagonists. The structure and relevance of the proposed endogenous ligand 'clonidine-displacing substance' remains elusive. A potential candidate for this substance is agmatine; however, although it is capable of displacing bound clonidine from imidazoline sites, it lacks the functionality ascribed to the clonidine-displacing substance. In this review, Richard M. Eglen and colleagues assess our knowledge of imidazoline sites in the light of recent data.
尽管咪唑啉位点已成为数年的研究对象,但关于其结构、多样性和生理学仍存在争议。I1位点被认为主要作为一个结合位点存在,尽管其在控制全身血压方面的作用仍不明确,但普遍认为它在这方面发挥作用。大多数I2位点被广泛认为是单胺氧化酶上的变构位点;然而,即使有选择性配体,它们的确切功能仍有待确定。一个假定的I3位点调节胰岛素分泌,可能代表第一个用选择性激动剂和拮抗剂进行药理学定义的功能位点。所提出的内源性配体“可乐定置换物质”的结构和相关性仍然难以捉摸。胍丁胺是这种物质的一个潜在候选者;然而,尽管它能够从咪唑啉位点置换结合的可乐定,但它缺乏赋予可乐定置换物质的功能。在这篇综述中,理查德·M·埃glen及其同事根据最新数据评估了我们对咪唑啉位点的了解。