新生大鼠培养感觉神经元中电压依赖性钾电流被树眼镜蛇毒素同源物阻断的情况。
Blockade by dendrotoxin homologues of voltage-dependent K+ currents in cultured sensory neurones from neonatal rats.
作者信息
Hall A, Stow J, Sorensen R, Dolly J O, Owen D
机构信息
Department of Biochemistry, Imperial College of Science, Technology and Medicine, London.
出版信息
Br J Pharmacol. 1994 Nov;113(3):959-67. doi: 10.1111/j.1476-5381.1994.tb17086.x.
Abstract
- Homologues of dendrotoxin (Dtx) were isolated from the crude venom of Green and Black Mamba snakes and examined for K+ channel blocking activity in neonatal rat dorsal root ganglion cells (DRGs) by whole-cell patch clamp recording. 2. Outward potassium current activated by depolarization was composed of two major components: a slowly inactivating current (SIC, tau decay approximately 50 ms, 200 ms and 2s), and a non-inactivating current (NIC, tau decay > 2 min). Tail current analysis revealed two time constants of deactivation of total outward current, 3-12 ms and 50-150 ms (at -80 mV) which corresponded to SIC and NIC, respectively. 3. All the homologues (alpha-, beta-, gamma- and delta-Dtx and toxins I and K) blocked outward current activated by depolarization in a dose-dependent manner. The most potent in blocking total outward current was delta-Dtx (EC50 of 0.5 +/- 0.2 nM), although there were no statistically significant differences in potency between any of the homologues. 4. Qualitative differences in the nature of the block were noted between homologues. In particular, the block by delta-Dtx was time-dependent, whereas that by alpha-Dtx was not. 5. alpha-Dtx was a much better blocker of SIC (EC50 = 1.0 +/- 0.4 nM) than was delta-Dtx (EC50 = 17.6 +/- 5.8 nM). Furthermore, delta-Dtx was selective for NIC (EC50 +/- 0.24 +/- 0.03 nM) over SIC and reduced the slow component of tail currents (NIC), preferentially. On the other hand, a-Dtx did not significantly distinguish between SIC and NIC although tail current analysis showed that a-Dtxpreferentially reduced the fast component of tail currents (SIC).6. The results confirm, using direct electrophysiological methods, that homologues of dendrotoxins from Mamba snake venom block K+ channels in rat sensory neurones. Furthermore, a-Dtx and 6-Dtx distinguish between sub-types of K+ channels in these cells and may thus be useful pharmacological tools in other neuronal K+ channel studies.
摘要
- 从绿曼巴蛇和黑曼巴蛇的粗毒液中分离出树突毒素(Dtx)的同源物,并通过全细胞膜片钳记录检测其对新生大鼠背根神经节细胞(DRGs)钾离子通道的阻断活性。2. 去极化激活的外向钾电流由两个主要成分组成:一个缓慢失活电流(SIC,衰减时间常数约为50毫秒、200毫秒和2秒)和一个非失活电流(NIC,衰减时间常数>2分钟)。尾电流分析显示总外向电流去激活的两个时间常数,分别为3 - 12毫秒和50 - 150毫秒(在-80 mV时),分别对应SIC和NIC。3. 所有同源物(α -、β -、γ - 和δ - Dtx以及毒素I和K)均以剂量依赖性方式阻断去极化激活的外向电流。阻断总外向电流最有效的是δ - Dtx(EC50为0.5±0.2 nM),尽管任何同源物之间在效力上没有统计学上的显著差异。4. 注意到同源物之间在阻断性质上存在定性差异。特别是,δ - Dtx的阻断具有时间依赖性,而α - Dtx则没有。5. α - Dtx对SIC的阻断作用(EC50 = 1.0±0.4 nM)比δ - Dtx(EC50 = 17.6±5.8 nM)好得多。此外,δ - Dtx对NIC(EC50±0.24±0.03 nM)比对SIC更具选择性,并优先降低尾电流的慢成分(NIC)。另一方面,α - Dtx虽然尾电流分析表明α - Dtx优先降低尾电流的快成分(SIC),但它在SIC和NIC之间没有显著区分。6. 结果使用直接电生理方法证实,曼巴蛇毒液中树突毒素的同源物可阻断大鼠感觉神经元中的钾离子通道。此外,α - Dtx和δ - Dtx可区分这些细胞中钾离子通道的亚型,因此可能是其他神经元钾离子通道研究中有用的药理学工具。
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