Pharmacological analysis of vasoconstrictor responses to periarterial purinergic nerve stimulation

X.-P. Yang, S. Chiba
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引用次数: 6

Abstract

1. Periarterial electrical nerve stimulation at a low frequency (1 Hz) readily induced a vasoconstrictor response of the canine splenic artery in a pulse number-related manner (1-30 pulses of trains). The vasoconstrictor response to trains of up to 10 pulses at 1 Hz of stimulation appeared to be monophasic, whereas it became clearly distinguished into two phases at a longer train of 30 pulses. 2. The monophasic vasoconstrictor responses to trains of 1, 3 or 10 pulses were not modified by an alpha1-adrenoceptor blocking agent, prazosin (0.1 microM), but were completely inhibited by the P2X receptor desensitization with alpha,beta-methylene adenosine 5'-triphosphate (alpha,beta-methylene ATP; 1 microM). The 1st phase of vasoconstriction induced by a train length of 30 pulses was not influenced by the treatment with prazosin, but was abolished by alpha,beta-methylene ATP. The 2nd phase response was markedly inhibited by prazosin, and the remaining response of this phase was blocked by alpha,beta-methylene ATP. 3. Rauwolscine (0.3 microM), an alpha2-adrenoceptor antagonist, enhanced the vasoconstrictor responses to trains of 1, 3 or 10 pulses. Particularly at 10 pulses of electrical stimulation, the vasoconstrictor responses were significantly potentiated. The blockade of neuronal uptake of noradrenaline with imipramine (1 microM) did not affect the vasoconstrictor responses to trains of 1, 3 or 10 pulses. 4. It is concluded that short pulse trains of stimulation at a low frequency may selectively activate a purinergic component of sympathetic cotransmission, and the prejunctional alpha2-adrenergic feedback mechanism may tonically participate into the modulation of ATP release. Imipramine-sensitive neuronal uptake mechanism may not play an important role in regulating vascular responses to periarterial purinergic nerve stimulation.
血管收缩剂对动脉周围嘌呤能神经刺激反应的药理学分析
1低频率(1hz)的动脉周围电神经刺激很容易诱导犬脾动脉以脉冲数相关的方式(1 - 30脉冲列)收缩血管。在1赫兹的刺激下,血管收缩剂对多达10个脉冲的反应似乎是单相的,而在更长的30个脉冲的反应中,血管收缩剂的反应明显分为两个阶段。2 α1-肾上腺素受体阻滞剂prazosin (0.1 μM)对1、3或10脉冲序列的单相血管收缩反应没有改变,但α,β-亚甲基腺苷5 ' -三磷酸(α,β-甲基ATP)对P2X受体脱敏作用完全抑制;1μM)。30脉冲序列引起的第一阶段血管收缩不受普拉唑嗪处理的影响,但被α,β-亚甲基ATP消除。prazosin明显抑制第2期反应,α,β-亚甲基ATP阻断第2期反应。α2-肾上腺素受体拮抗剂Rauwolscine (0.3 μM)对1、3或10次脉冲的血管收缩反应增强。特别是在10脉冲的电刺激下,血管收缩反应明显增强。丙咪嗪(1 μM)阻断神经元对去甲肾上腺素的摄取,对1、3或10次脉冲的血管收缩反应没有影响。由此可见,低频短脉冲刺激可选择性激活交感神经共递中的嘌呤能成分,而突触前α2-肾上腺素能反馈机制可能参与ATP释放的调节。丙咪嗪敏感的神经元摄取机制可能在调节血管对动脉周围嘌呤能神经刺激的反应中不起重要作用。
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