金刚烷衍生物对重组AMPA受体和天然AMPA/海人酸受体开放通道的阻断作用
Block of open channels of recombinant AMPA receptors and native AMPA/kainate receptors by adamantane derivatives.
作者信息
Magazanik L G, Buldakova S L, Samoilova M V, Gmiro V E, Mellor I R, Usherwood P N
机构信息
Sechenov Institute of Evolutionary Physiology and Biochemistry, Russian Academy of Sciences, St Petersburg, Russia.
出版信息
J Physiol. 1997 Dec 15;505 ( Pt 3)(Pt 3):655-63. doi: 10.1111/j.1469-7793.1997.655ba.x.
Abstract
- The effects of two adamantane derivatives, 1-trimethylammonio-5-(1-adamantane-methyl-ammoniopentane dibromide) (IEM-1460) and 1-ammonio-5-(1-adamantane-methylammoniopentane dibromide) (IEM-1754) on kainate-induced currents were studied in Xenopus oocytes expressing recombinant ionotropic glutamate receptors and in freshly isolated neurones from rat hippocampal slices. 2. The adamantane derivatives caused use- and voltage-dependent block of open channels of recombinant AMPA receptors. This antagonism was dependent on receptor subunit composition; channels gated by recombinant, homomeric GluR1 and GluR3 receptors exhibited a higher sensitivity to block than those gated by receptors containing edited GluR2 subunits. In the former cases, IEM-1460 had an IC50 of 1.6 microM at a holding potential (Vh) of -80 mV and IEM-1754 was 3.8 times less potent than IEM-1460. In contrast, 100 microM IEM-1460 inhibited responses to 100 microM kainate of receptors containing edited GluR2 subunits by only 7.8 +/- 2.4% (n = 5 oocytes at a Vh of -80 mV. 3. Native AMPA/kainate receptors in isolated hippocampal cells were inhibited by adamantane derivatives in a use- and voltage-dependent manner. This antagonism was dependent on cell type: pyramidal neurones were less sensitive to IEM-1460 (IC50 = 1617 microM at Vh = -80 mV) than interneurones (IC50 = 1.6 microM at Vh = -80 mV). IEM-1460 and IEM-1754 were equipotent when applied to pyramidal neurones, but IEM-1754 was less potent (approximately 3 times) than IEM-1460 when applied to interneurones. 4. It is concluded that the presence of the edited GluR2 subunit in recombinant AMPA receptors and native AMPA/kainate receptors inhibits channel block by organic cations and that adamantane derivatives are potentially valuable tools for identifying classes of AMPA/kainate receptors and their roles in synaptic transmission.
摘要
- 在表达重组离子型谷氨酸受体的非洲爪蟾卵母细胞以及从大鼠海马切片新鲜分离的神经元中,研究了两种金刚烷衍生物,即1 - 三甲基铵 - 5 -(1 - 金刚烷甲基铵戊烷二溴化物)(IEM - 1460)和1 - 铵 - 5 -(1 - 金刚烷甲基铵戊烷二溴化物)(IEM - 1754)对海人酸诱导电流的影响。2. 金刚烷衍生物对重组AMPA受体的开放通道产生使用和电压依赖性阻断。这种拮抗作用取决于受体亚基组成;由重组同聚体GluR1和GluR3受体门控的通道比含有编辑型GluR2亚基的受体门控的通道对阻断表现出更高的敏感性。在前一种情况下,在 - 80 mV的钳制电位(Vh)下,IEM - 1460的IC50为1.6 μM,IEM - 1754的效力比IEM - 1460低3.8倍。相比之下,100 μM的IEM - 1460在 - 80 mV的Vh下仅抑制含有编辑型GluR2亚基的受体对100 μM海人酸的反应7.8±2.4%(n = 5个卵母细胞)。3. 分离的海马细胞中的天然AMPA/海人酸受体被金刚烷衍生物以使用和电压依赖性方式抑制。这种拮抗作用取决于细胞类型:锥体神经元对IEM - 1460的敏感性低于中间神经元(在Vh = - 80 mV时,锥体神经元的IC50 = 1617 μM,中间神经元的IC50 = 1.6 μM)。当应用于锥体神经元时,IEM - 1460和IEM - 1754效力相当,但当应用于中间神经元时,IEM - 1754的效力比IEM - 1460低(约3倍)。4. 得出的结论是,重组AMPA受体和天然AMPA/海人酸受体中编辑型GluR2亚基的存在抑制了有机阳离子对通道的阻断,并且金刚烷衍生物是识别AMPA/海人酸受体类别及其在突触传递中作用的潜在有价值的工具。
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