可乐定和妥拉唑啉样化合物在组胺和α-肾上腺素能受体位点的构效关系。
Structure-activity relationships of clonidine- and tolazoline-like compounds at histamine and alpha-adrenoceptor sites.
作者信息
Malta E, Ong J S, Raper C, Tawa P E, Vaughan G N
出版信息
Br J Pharmacol. 1980 Aug;69(4):679-88. doi: 10.1111/j.1476-5381.1980.tb07922.x.
Abstract
1 Thirty clonidine- and tolazoline-like compounds with differing phenyl ring substituents were tested for agonistic actions at histamine H1-receptors (guinea-pig ileum), histamine H2-receptors (guinea-pig driven right ventricular strips), post-junctional alpha-adrenoceptors (rat desheathed was deferens) and pre-junctional alpha-adrenoceptors (inhibition of sympathetic stimulation in guinea-pig driven left atria). 2 All compounds were inactive at histamine H1-receptors, while 21 of the 30 compounds displayed varying stimulant activity at H2-receptors. 3 At post-junctional alpha-receptors all 30 compounds produced stimulant actions, whereas at prejunctional alpha-receptors the compounds displayed either agonistic or antagonistic actions. 4 Thus structure-activity-relationships (SAR) could only be validated for histamine H2- and post-junctional alpha-receptor effects. These studies show that the most potent compounds are those with 2,6-phenyl substituents in which rotation is restricted so that the two rings are aplanar. Electronic effects of the substituents have a greater influence on activity at H2- than at alpha-receptors. 5 The major difference in SAR involves the influence of substituents in the 3, 4 or 5 positions on the phenyl ring. The presence of these substituents abolish significant activity at H2-receptors, while alpha-receptor stimulant activity is retained.
摘要
- 对30种具有不同苯环取代基的可乐定和妥拉唑啉样化合物进行了测试,以观察它们对组胺H1受体(豚鼠回肠)、组胺H2受体(豚鼠驱动的右心室条带)、节后α-肾上腺素能受体(大鼠去鞘输精管)和节前α-肾上腺素能受体(抑制豚鼠驱动的左心房交感神经刺激)的激动作用。2. 所有化合物对组胺H1受体均无活性,而30种化合物中有21种在H2受体上表现出不同程度的刺激活性。3. 在节后α受体上,所有30种化合物均产生刺激作用,而在节前α受体上,这些化合物表现出激动或拮抗作用。4. 因此,结构-活性关系(SAR)仅在组胺H2和节后α受体效应方面得到验证。这些研究表明,最有效的化合物是那些在2,6位有苯取代基的化合物,其中旋转受到限制,使得两个环处于非平面状态。取代基的电子效应在H2受体上对活性的影响比对α受体上的影响更大。5. SAR的主要差异涉及苯环3、4或5位取代基的影响。这些取代基的存在消除了在H2受体上的显著活性,而α受体刺激活性得以保留。
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