Venkataraman B V, Shams G, Hamada A, Amemiya Y, Tantishaiyakul V, Hsu F, Fashempour J, Romstedt K J, Miller D D, Feller D R
Division of Pharmacology, College of Pharmacy, Ohio State University, Columbus 43210.
Naunyn Schmiedebergs Arch Pharmacol. 1991 Oct;344(4):454-63. doi: 10.1007/BF00172586.
Potencies of new aromatic substituted fluoro or iodo analogues of catecholimidazolines on functional responses in rat aorta (alpha 1) and platelets (alpha 2) were quantified. (1) When compared either on the basis of EC50 or the dissociation constant (KA), 5-fluorocatecholimidazoline was as potent as the reference alpha 1-adrenoceptor agonist, phenylephrine in the vascular tissue. The maximum contraction of aorta produced by the fluoro analogue was, however, 17% higher than that of phenylephrine. The time required for 1/2 relaxation of the tissue after 5-fluoro hydroxy imidazoline was at least twice as long as that of the phenylephrine. The catechol moiety as well as fluorine substitution at the critical 5-position of the aromatic ring is essential for higher alpha 1 adrenoceptor-mediated potency. (2) As compared to the fluoro analogues, the adrenoceptor-mediated potencies of iodo-analogues were relatively weak on vascular tissue. Naphazoline and its analogues were partial agonists on vascular tissue with dissociation constants which ranged from 110 to 2600 nmol/l. (3) Imidazole analogues were generally less potent agonist than the imidazolines by one order of magnitude. (4) The vacular effects of all agonists were competitively blocked by prazosin with KB values which ranged from 0.04 to 0.48 nmol/l. Since the variation in KB values were within normal limits, the action of new imidazolines on rat aorta appears to be mediated mainly by the activation of the alpha 1-adrenoceptor. Prazosin 10 nmol/l abolished the vascular response of some partial agonists. This indicates a slightly different mode of interaction of agonists with the transduction process. (5) Carbon 4-substituted imidazolines produced little or no alpha 1 adrenoceptor-mediated intrinsic activity, but competitive receptor blocking potency was comparable to that of phentolamine. (6) Medetomidine was a partial agonist on the rat aorta with a KA of 260 nmol/l. When investigated as a blocker, the KB of medetomidine against phenylephrine was approximately 5600 nmol/l. The variation in the latter value was high. (7) In acetylsalicylic acid-treated human platelets, the alpha 2-adrenoceptor-mediated aggregatory effect of all fluoro analogues was weak. Iodo or naphazoline analogues did not initiate platelet aggregation but blocked the aggregation induced by epinephrine. The affinity of naphazoline for the alpha 2-adrenoceptor was 1100 nmol/l. The IC50 of medetomidine for platelet anti-aggregatory effect was 3300 nmol/l, which compares favorably with other imidazoline type of blockers of platelet aggregation. (8) Sympathomimetic vasoconstrictor actions and platelet aggregation effects of these compounds can be dissociated.(ABSTRACT TRUNCATED AT 400 WORDS)
对新型芳香族取代的儿茶酚咪唑啉类氟或碘类似物对大鼠主动脉(α1)和血小板(α2)功能反应的效能进行了定量分析。(1)基于半数有效浓度(EC50)或解离常数(KA)进行比较时,5-氟儿茶酚咪唑啉在血管组织中与参考α1-肾上腺素能受体激动剂去氧肾上腺素的效能相当。然而,氟类似物引起的主动脉最大收缩比去氧肾上腺素高17%。5-氟羟基咪唑啉作用后组织达到1/2松弛所需的时间至少是去氧肾上腺素的两倍。儿茶酚部分以及芳香环关键5位的氟取代对于更高的α1肾上腺素能受体介导的效能至关重要。(2)与氟类似物相比,碘类似物的肾上腺素能受体介导的效能在血管组织上相对较弱。萘甲唑啉及其类似物是血管组织上的部分激动剂,解离常数范围为110至2600 nmol/l。(3)咪唑类似物通常比咪唑啉类激动剂的效能低一个数量级。(4)所有激动剂的血管效应均被哌唑嗪竞争性阻断,KB值范围为0.04至0.48 nmol/l。由于KB值的变化在正常范围内,新型咪唑啉类对大鼠主动脉的作用似乎主要通过α1-肾上腺素能受体的激活介导。10 nmol/l的哌唑嗪消除了一些部分激动剂的血管反应。这表明激动剂与转导过程的相互作用模式略有不同。(5)4-碳取代的咪唑啉产生很少或没有α1肾上腺素能受体介导的内在活性,但竞争性受体阻断效能与酚妥拉明相当。(6)美托咪定是大鼠主动脉上的部分激动剂,KA为260 nmol/l。作为阻断剂研究时,美托咪定对去氧肾上腺素的KB约为5600 nmol/l。后一数值的变化很大。(7)在乙酰水杨酸处理的人血小板中,所有氟类似物的α2-肾上腺素能受体介导的聚集作用较弱。碘或萘甲唑啉类似物不引发血小板聚集,但阻断肾上腺素诱导的聚集。萘甲唑啉对α2-肾上腺素能受体的亲和力为1100 nmol/l。美托咪定对血小板抗聚集作用的IC50为3300 nmol/l,与其他咪唑啉类血小板聚集阻断剂相比具有优势。(8)这些化合物的拟交感神经血管收缩作用和血小板聚集作用可以分离。(摘要截断于400字)
