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本文引用的文献

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Genotypic m3-Muscarinic Receptors Preferentially Inhibit M-currents in DNA-transfected NG108-15 Neuroblastoma x Glioma Hybrid Cells.基因型m3-毒蕈碱受体优先抑制DNA转染的NG108-15神经母细胞瘤x胶质瘤杂交细胞中的M电流。
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Some Actions of 9-Amino-1,2,3,4-Tetrahydroacridine (THA) on Cholinergic Transmission and Membrane Currents in Rat Sympathetic Ganglia.
Eur J Neurosci. 1990;2(12):1127-1134. doi: 10.1111/j.1460-9568.1990.tb00024.x.
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M-Currents in voltage-clamped mammalian sympathetic neurones.电压钳制的哺乳动物交感神经元中的M电流。
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Muscarinic suppression of a novel voltage-sensitive K+ current in a vertebrate neurone.毒蕈碱对脊椎动物神经元中一种新型电压敏感性钾电流的抑制作用。
Nature. 1980 Feb 14;283(5748):673-6. doi: 10.1038/283673a0.
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Release of calcium ions linked to the activation of potassium conductance in a caffeine-treated sympathetic neurone.钙离子的释放与经咖啡因处理的交感神经元中钾离子电导的激活相关。
J Physiol. 1980 Jan;298:251-69. doi: 10.1113/jphysiol.1980.sp013079.
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Pharmacological inhibition of the M-current.M电流的药理学抑制
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Theory and operation of a single microelectrode voltage clamp.单微电极电压钳的理论与操作
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Hyperpolarization following activation of K+ channels by excitatory postsynaptic potentials.兴奋性突触后电位激活钾离子通道后发生的超极化。
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M-currents and other potassium currents in bullfrog sympathetic neurones.牛蛙交感神经元中的M电流及其他钾电流
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啮齿动物神经母细胞瘤x胶质瘤杂交细胞中M电流的动力学和药理学特性。

Kinetic and pharmacological properties of the M-current in rodent neuroblastoma x glioma hybrid cells.

作者信息

Robbins J, Trouslard J, Marsh S J, Brown D A

机构信息

Department of Pharmacology, University College London.

出版信息

J Physiol. 1992;451:159-85. doi: 10.1113/jphysiol.1992.sp019159.

DOI:10.1113/jphysiol.1992.sp019159
PMID:1403809
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1176156/
Abstract
  1. The M-like current IK(M,ng) in differentiated NG108-15 mouse neuroblastoma x rat glioma hybrid cells has been studied using tight-seal, whole-cell patch-clamp recording. 2. When calculated from steady-state current-voltage curves, the conductance underlying IK(M,ng) showed a Boltzmann dependence on voltage with half-activation voltage Vo = -44 mV (in 3 mM [K+]) and slope factor (a) = 8.1 mV/e-fold increase in conductance. In 12 mM [K+] Vo = -38 mV and a = 6.9 mV. The deactivation reciprocal time constant accelerated with hyperpolarization with slope factor 17 mV/e-fold voltage change. 3. The reversal potential for deactivation tail currents varied with external [K+] as if PNa/PK were 0.005. 4. Steady-state current was increased on removing external Ca2+. In the presence of external Ca2+, reactivation of IK(M, ng) after a hyperpolarizing step was delayed. This delay was preceded by an inward Ca2+ current, and coincided with an increase in intracellular [Ca2+] as measured with Indo-1 fluorescence. Elevation of intracellular [Ca2+] with caffeine also reduced IK(M, ng). 5. IK(M, ng) was inhibited by external divalent cations in decreasing order of potency (mM IC50 in parentheses): Zn2+ (0.011) greater than Cu2+ (0.018) greater than Cd2+ (0.070) greater than Ni2+ (0.44) greater than Ba2+ (0.47) greater than Fe2+ (0.69) greater than Mn2+ (0.86) greater than Co2+ (0.92) greater than Ca2+ (5.6) greater than Mg2+ (16) greater than Sr2+ (33). This was not secondary to inhibition of ICa since: (i) inhibition persisted in Ca(2+)-free solution; (ii) La3+ did not inhibit IK(M, ng) at concentrations which inhibited ICa; and (iii) organic Ca2+ channel blockers were ineffective. Inhibition comprised both depression of the maximum conductance and a positive shift of the activation curve. Addition of Ca2+ (10 microM free [Ca2+]) or Ba2+ (1 mM total [Ba2+]) to the pipette solution did not significantly change IK(M, ng). 6. IK(M, ng) was reduced by 9-amino-1,2,3,4-tetrahydroacridine (IC50 8 microM) and quinine (30 microM) but was insensitive to tetraethylammonium (IC50 greater than 30 mM), 4-aminopyridine (greater than 10 mM), apamin (greater than 3 microM) or dendrotoxin (greater than 100 nM). 7. IK(M, ng) was inhibited by bradykinin (1-10 microM) or angiotensin II (1-10 microM), but not by the following other receptor agonists: acetylcholine (10 mM), muscarine (10 microM), noradrenaline (100 microM), adrenaline (100 microM), dopamine (100 microM), histamine (100 microM), 5-hydroxytryptamine (10 microM), Met-enkephalin (1 microM), glycine (100 microM), gamma-aminobutyric acid (100 microM) or baclofen (500 microM).(ABSTRACT TRUNCATED AT 400 WORDS)
摘要
  1. 利用紧密封接的全细胞膜片钳记录技术,对分化的NG108 - 15小鼠神经母细胞瘤×大鼠胶质瘤杂交细胞中的M型电流IK(M,ng)进行了研究。2. 根据稳态电流 - 电压曲线计算,IK(M,ng)的电导呈现玻尔兹曼电压依赖性,半激活电压Vo = -44 mV(在3 mM [K⁺]中),斜率因子(a) = 8.1 mV/电导增加10倍。在12 mM [K⁺]中,Vo = -38 mV,a = 6.9 mV。失活的倒数时间常数随超极化加速,斜率因子为17 mV/电压变化10倍。3. 失活尾电流的反转电位随外部[K⁺]变化,好像PNa/PK为0.005。4. 去除外部Ca²⁺时稳态电流增加。在存在外部Ca²⁺的情况下,超极化步骤后IK(M, ng)的再激活延迟。这种延迟之前有内向Ca²⁺电流,并且与用Indo - 1荧光测量的细胞内[Ca²⁺]增加同时发生。用咖啡因升高细胞内[Ca²⁺]也会降低IK(M, ng)。5. IK(M, ng)受到外部二价阳离子抑制,抑制效力顺序递减(括号内为mM IC50):Zn²⁺(0.011)>Cu²⁺(0.018)>Cd²⁺(0.070)>Ni²⁺(0.44)>Ba²⁺(0.47)>Fe²⁺(0.69)>Mn²⁺(0.86)>Co²⁺(0.92)>Ca²⁺(5.6)>Mg²⁺(16)>Sr²⁺(33)。这不是由于对ICa的抑制,因为:(i) 在无Ca²⁺溶液中抑制仍然存在;(ii) La³⁺在抑制ICa的浓度下不抑制IK(M, ng);(iii) 有机Ca²⁺通道阻滞剂无效。抑制包括最大电导的降低和激活曲线的正向移动。向移液管溶液中添加Ca²⁺(10 μM游离[Ca²⁺])或Ba²⁺(1 mM总[Ba²⁺])不会显著改变IK(M, ng)。6. IK(M, ng)被9 - 氨基 - 1,2,3,4 - 四氢吖啶(IC50 8 μM)和奎宁(30 μM)降低,但对四乙铵(IC50>30 mM)、4 - 氨基吡啶(>10 mM)、蜂毒明肽(>3 μM)或树眼镜蛇毒素(>100 nM)不敏感。7. IK(M, ng)被缓激肽(1 - 10 μM)或血管紧张素II(1 - 10 μM)抑制,但不受以下其他受体激动剂抑制:乙酰胆碱(10 mM)、毒蕈碱(10 μM)、去甲肾上腺素(100 μM)、肾上腺素(100 μM)、多巴胺(100 μM)、组胺(100 μM)、5 - 羟色胺(10 μM)、甲硫氨酸脑啡肽(1 μM)、甘氨酸(100 μM)、γ - 氨基丁酸(100 μM)或巴氯芬(500 μM)。(摘要截于400字)