γ-氨基丁酸B(GABAB)激动剂(-)-巴氯芬对大鼠脊髓背角深层神经元的体外作用。
Actions of the GABAB agonist, (-)-baclofen, on neurones in deep dorsal horn of the rat spinal cord in vitro.
作者信息
Allerton C A, Boden P R, Hill R G
机构信息
Parke-Davis Research Unit, Addenbrooke's Hospital Site, Cambridge.
出版信息
Br J Pharmacol. 1989 Jan;96(1):29-38. doi: 10.1111/j.1476-5381.1989.tb11780.x.
Abstract
- The electrophysiological actions of the GABAB agonist, (-)-baclofen, on deep dorsal horn neurones were studied using an in vitro preparation of the spinal cord of 9-16 day old rat. 2. On all neurones tested, (-)-baclofen (100 nM-30 microM) had a hyperpolarizing action which was associated with a reduction in apparent membrane input resistance. The increase in membrane conductance was dose-dependent and had a Hill coefficient of 1.0. 3. The (-)-baclofen-activated hyperpolarization persisted in the presence of bicuculline (50 microM) and Mg2+ (20 mM). 4. The reversal potential of the hyperpolarizing event was estimated at 102 mV and was made less negative by increasing the external concentration of potassium ions. 5. Over the same concentration range, (-)-baclofen also depressed the polysynaptic composite excitatory postsynaptic potentials (e.p.s.ps) evoked in these neurones by electrical stimulation of the dorsal root entry zone. 6. The potassium channel blockers caesium, applied intracellularly, and barium, applied extracellularly, depressed the postsynaptic response to baclofen but not its effect on e.p.s.ps. 7. We propose that (-)-baclofen has more than one mechanism of action in spinal dorsal horn: a postsynaptic action mediated via an increase in potassium conductance and a presynaptic action that is not associated with potassium channels and may be mediated via calcium channels. Since previous studies have demonstrated little effect of (-)-baclofen on transmitter release in spinal cord, it is possible that the postsynaptic hyperpolarizing action of (-)-baclofen may account for its clinical potency as an anti-spastic agent.
摘要
- 使用9至16日龄大鼠脊髓的体外制备方法,研究了GABAB激动剂(-)-巴氯芬对脊髓背角深层神经元的电生理作用。2. 在所有测试的神经元上,(-)-巴氯芬(100 nM至30 μM)具有超极化作用,这与表观膜输入电阻的降低有关。膜电导的增加呈剂量依赖性,希尔系数为1.0。3. 在存在荷包牡丹碱(50 μM)和镁离子(20 mM)的情况下,(-)-巴氯芬激活的超极化持续存在。4. 超极化事件的反转电位估计为102 mV,并且通过增加细胞外钾离子浓度使其负值减小。5. 在相同的浓度范围内,(-)-巴氯芬还抑制了通过电刺激背根进入区在这些神经元中诱发的多突触复合兴奋性突触后电位(e.p.s.ps)。6. 细胞内应用的钾通道阻滞剂铯和细胞外应用的钡抑制了对巴氯芬的突触后反应,但不影响其对e.p.s.ps的作用。7. 我们提出,(-)-巴氯芬在脊髓背角具有不止一种作用机制:一种通过增加钾电导介导的突触后作用和一种与钾通道无关且可能通过钙通道介导的突触前作用。由于先前的研究表明(-)-巴氯芬对脊髓中递质释放的影响很小,因此(-)-巴氯芬的突触后超极化作用可能解释了其作为抗痉挛药物的临床效力。
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