Le Grand B, Talmant J M, Rieu J P, Patoiseau J F, Colpaert F C, John G W
Division of Cardiovascular Diseases, Centre de Recherche Pierre Fabre, Castres, France.
J Cardiovasc Pharmacol. 1995 Nov;26(5):803-9. doi: 10.1097/00005344-199511000-00018.
Action potential duration (APD) lengthening is believed to underlie the cardiac arrhythmogenicity of ketanserin, a serotonin (5-HT)2A/2C receptor antagonist. We wished to determine (a) whether this activity involves blockade of 5-HT2A/2C receptors and (b) the precise mechanism of ketanserin-induced APD prolongation. APs were recorded in guinea pig isolated papillary muscles by conventional "floating" microelectrodes, and potassium currents in guinea pig isolated myocytes were recorded in the whole-cell configuration. Ketanserin (1-10 microM) increased APD (EC50 value for enhancing APD at 90% repolarization (APD90) 3.1 +/- 2.7 microM, n = 24), without affecting resting potential, maximum upstroke velocity (Vmax) or AP amplitude (APA). Pirenperone (10 microM), a ketanserin congener, similarly increased APD90 from 204 +/- 3 to 241 +/- 7 ms (p < 0.001, n = 6). No increase in APD was observed, however, with ritanserin or ICI 170809, even at high concentrations (10 microM, n = 6, respectively), two 5-HT2A/2C receptor antagonists chemically distinct from ketanserin, thereby excluding the involvement of 5-HT2A/2C receptors in mediating APD lengthening. That APD prolongation was mediated specifically by the benzolyl-piperidine moiety of ketanserin and pirenperone was confirmed by 1-propyl-4(4-fluorobenzoyl)piperidine (PFBP), which evoked APD lengthening effects remarkably similar to those produced by ketanserin and pirenperone (EC50 3.73 +/- 2.6 microM, n = 12). In isolated cardiomyocytes, ketanserin (1-32 microM) selectively and concentration-dependently reduced the IKr component of the delayed outward current (IK) without affecting the inward rectifier current, IK1. Thus, ketanserin (32 microM) significantly reduced IK at a potential value of -20 mV from 813 +/- 65 to 569 +/- 55 pA (p < 0.001, n = 6), whereas at a potential value of -110 mV, IK1 was not significantly affected (730 +/- 103 vs. 603 +/- 143 pA, respectively; n=6). The results demonstrate that APD is prolonged by ketanserin and congeners but not be chemically different 5-HT2A/2C receptor antagonists. The benzoyl-piperidine moiety appears to mediate the APD-prolonging effects of ketanserin and pirenperone specifically. Furthermore, ketanserin-induced APD lengthening does not appear to involve 5-HT2A/2C receptors but is consecutive to direct blockade of myocardial potassium channels.
酮色林是一种血清素(5-HT)2A/2C受体拮抗剂,据信动作电位持续时间(APD)延长是其致心律失常性的基础。我们希望确定:(a)这种活性是否涉及5-HT2A/2C受体的阻断;(b)酮色林诱导APD延长的确切机制。通过传统的“漂浮”微电极记录豚鼠离体乳头肌中的动作电位,并采用全细胞模式记录豚鼠离体心肌细胞中的钾电流。酮色林(1-10 microM)可增加APD(90%复极化时增强APD的EC50值(APD90)为3.1±2.7 microM,n = 24),而不影响静息电位、最大除极速度(Vmax)或动作电位幅度(APA)。酮色林的同系物匹仑哌隆(10 microM)同样可使APD90从204±3 ms增加至241±7 ms(p < 0.001,n = 6)。然而,即使在高浓度(分别为10 microM,n = 6)下,利坦色林或ICI 170809(两种化学结构与酮色林不同的5-HT2A/2C受体拮抗剂)也未观察到APD增加,从而排除了5-HT2A/2C受体参与介导APD延长的可能性。1-丙基-4(4-氟苯甲酰基)哌啶(PFBP)证实了酮色林和匹仑哌隆的APD延长作用是由其苯甲酰基 - 哌啶部分特异性介导的,PFBP引起的APD延长效应与酮色林和匹仑哌隆产生的效应非常相似(EC50为3.73±2.6 microM,n = 12)。在离体心肌细胞中,酮色林(1-32 microM)选择性地且浓度依赖性地降低延迟外向电流(IK)的IKr成分,而不影响内向整流电流IK1。因此,酮色林(32 microM)在-20 mV电位值时可使IK从813±65 pA显著降低至569±55 pA(p < 0.001,n = 6),而在-110 mV电位值时,IK1未受到显著影响(分别为730±103 pA和603±143 pA;n = 6)。结果表明,酮色林及其同系物可延长APD,但化学结构不同的5-HT2A/2C受体拮抗剂则不能。苯甲酰基 - 哌啶部分似乎特异性地介导了酮色林和匹仑哌隆的APD延长效应。此外,酮色林诱导的APD延长似乎不涉及5-HT2A/2C受体,而是直接阻断心肌钾通道的结果。
