二价阳离子化合物对天然AMPA受体通道的电压依赖性阻断
Voltage-dependent block of native AMPA receptor channels by dicationic compounds.
作者信息
Tikhonov D B, Samoilova M V, Buldakova S L, Gmiro V E, Magazanik L G
机构信息
Sechenov Institute of Evolutionary Physiology and Biochemistry, RAS, Thorez pr., 44, St.-Petersburg, 194223 Russia.
出版信息
Br J Pharmacol. 2000 Jan;129(2):265-74. doi: 10.1038/sj.bjp.0703043.
Abstract
- The kinetics of open channel block of GluR2-containing and GluR2-lacking AMPA receptors (AMPAR) by dicationic compounds (IEM-1460, IEM-1754, and IEM-1925) have been studied in rat hippocampal neurones using whole-cell patch clamp recording and concentration-jump techniques. Neurones were isolated from hippocampal slices by vibrodissociation. 2. The dicationic compounds were approximately 100 - 200 times more potent as blockers of GluR2-lacking AMPAR than as blockers of GluR2-containing AMPAR. The subunit specificity of channel block is determined by the blocking rate constant of a dicationic compound, whereas differences in unblocking rate constants account for differences in potency. 3. Hyperpolarization may decrease the block produced by IEM-1460 and IEM-1754 block due to the voltage-dependence of the unblocking rate constants for these compounds. This suggests that dicationic compounds permeate the AMPAR channel at negative membrane potentials. The effect was particularly apparent for GluR2-lacking AMPAR. These findings indicate that the presence of GluR2-subunit(s) in AMPAR hinders the binding of the cationic compounds and their permeation through the channel. 4. The most potent compound tested was IEM-1925. The presence of a phenylcyclohexyl moiety instead of an adamantane moiety, as in IEM-1460 and IEM1754, is probably responsible for the higher potency of IEM-1925. Dicationic compounds are important not only as pharmacological tools, but also as templates for the synthesis of new selective AMPAR blockers which may be potential therapeutic agents.
摘要
- 利用全细胞膜片钳记录和浓度阶跃技术,在大鼠海马神经元中研究了二价化合物(IEM - 1460、IEM - 1754和IEM - 1925)对含GluR2和不含GluR2的α-氨基-3-羟基-5-甲基-4-异恶唑丙酸受体(AMPAR)的开放通道阻滞动力学。通过振动解离从海马切片中分离出神经元。2. 二价化合物作为不含GluR2的AMPAR阻滞剂的效力比作为含GluR2的AMPAR阻滞剂的效力高约100 - 200倍。通道阻滞的亚基特异性由二价化合物的阻滞速率常数决定,而解除阻滞速率常数的差异则导致效力差异。3. 超极化可能会降低IEM - 1460和IEM - 1754产生的阻滞,这是由于这些化合物的解除阻滞速率常数具有电压依赖性。这表明二价化合物在负膜电位下可渗透AMPAR通道。这种效应在不含GluR2的AMPAR中尤为明显。这些发现表明,AMPAR中GluR2亚基的存在会阻碍阳离子化合物的结合及其通过通道的渗透。4. 测试的最有效化合物是IEM - 1925。与IEM - 1460和IEM - 1754不同,IEM - 1925中存在苯环己基部分而非金刚烷部分,这可能是其效力更高的原因。二价化合物不仅作为药理学工具很重要,而且作为合成新型选择性AMPAR阻滞剂的模板也很重要,这些阻滞剂可能是潜在的治疗药物。
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