Division of Pharmacology, Cardiff School of Pharmacy & Pharmaceutical Sciences, Cardiff University, King Edward VII Avenue, Cathays Park, Cardiff, Wales CF10 3NB, UK.
Eur J Pharmacol. 2013 Sep 5;715(1-3):370-80. doi: 10.1016/j.ejphar.2013.04.034. Epub 2013 May 9.
Trace amines including β-phenylethylamine (β-PEA) and amphetamines classically exert pharmacological actions via indirect sympathomimetic mechanisms. However, there is evidence for other mechanisms and this study explores the receptors mediating vasoconstriction in rat aorta. β-PEA, d-amphetamine, MDMA, cathinone and methylphenidate caused concentration-dependent contractions of rat isolated aortic rings which were unaffected by prazosin (1 μM), ICI-118,551 (1 μM), cocaine (10 μM) and pargyline (10 μM), to inhibit α1- and β2-adrenoceptors, neuronal transport and monoamine oxidase (MAO), respectively. Octopamine concentration-response curves, however, were shifted to the right. In the presence of the inhibitors, the rate of onset of octopamine contractions was slowed. Lineweaver-Burk analysis of the kinetics of the response generated different KM values for octopamine in the absence (2.35 × 10(-6)M) and presence (6.09 × 10(-5)M) of inhibitors, indicating mediation by different receptors. Tryptamine-induced vasoconstriction also resisted blockade by adrenergic inhibitors and the 5-HT1A, 1B, 1D and 5-HT2A receptor antagonists, methiothepin (50 nM) and ketanserin (30 nM), respectively. Trace amines and amphetamines therefore exert vasoconstriction independently of adrenoceptors, neuronal transport and 5-HT receptor activation. There was no evidence of tachyphylaxis or cross-tachyphylaxis of the vasoconstriction to these amines. Tyramine was a partial agonist and in its presence, β-PEA, d-amphetamine and octopamine were antagonised indicating that they all act through a common receptor for which tyramine serves as an antagonist. We conclude that the vasoconstriction is via TAAR-1, because of structural similarities between amines, ability to stimulate recombinant trace amine-associated receptor 1 (TAAR-1) and the presence of TAAR-1 in rat aorta.
包括β-苯乙胺(β-PEA)和苯丙胺类在内的痕量胺经典地通过间接拟交感神经机制发挥药理学作用。然而,有证据表明存在其他机制,本研究探讨了介导大鼠主动脉收缩的受体。β-PEA、d-苯丙胺、MDMA、去甲麻黄碱和哌甲酯引起大鼠离体主动脉环的浓度依赖性收缩,这些收缩不受哌唑嗪(1 μM)、ICI-118,551(1 μM)、可卡因(10 μM)和帕吉林(10 μM)的影响,分别抑制α1-和β2-肾上腺素能受体、神经元转运和单胺氧化酶(MAO)。然而,章鱼胺浓度-反应曲线向右移位。在抑制剂存在的情况下,章鱼胺收缩的起始速度减慢。对反应动力学的Lineweaver-Burk 分析为不存在(2.35×10(-6)M)和存在抑制剂时(6.09×10(-5)M)章鱼胺生成不同的 KM 值,表明由不同的受体介导。色胺引起的血管收缩也抵抗肾上腺素能抑制剂和 5-HT1A、1B、1D 和 5-HT2A 受体拮抗剂,麦硫新(50 nM)和酮色林(30 nM)的阻断,分别。痕量胺和苯丙胺因此独立于肾上腺素能受体、神经元转运和 5-HT 受体激活引起血管收缩。这些胺引起的血管收缩没有出现脱敏或交叉脱敏的证据。酪胺是部分激动剂,在其存在下,β-PEA、d-苯丙胺和章鱼胺被拮抗,表明它们都通过一个共同的受体起作用,而酪胺是其拮抗剂。我们得出的结论是,血管收缩是通过 TAAR-1 介导的,因为胺之间存在结构相似性、能够刺激重组痕量胺相关受体 1(TAAR-1)以及 TAAR-1 存在于大鼠主动脉中。
