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牛蛙交感神经节细胞中对毒蕈碱敏感的钾通道的膜片钳研究。

A patch-clamp study on the muscarine-sensitive potassium channel in bullfrog sympathetic ganglion cells.

作者信息

Koyano K, Tanaka K, Kuba K

机构信息

Department of Physiology, Saga Medical School, Japan.

出版信息

J Physiol. 1992 Aug;454:231-46. doi: 10.1113/jphysiol.1992.sp019262.

DOI:10.1113/jphysiol.1992.sp019262
PMID:1474493
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1175603/
Abstract
  1. A voltage-independent K+ channel was characterized and effects of muscarine were studied in cultured bullfrog sympathetic ganglion cells using the cell-attached patch-clamp configuration. 2. Three types of single-channel current were recorded from 2- to 10-day-old cultured cells in the presence of tetraethylammonium (2-20 mM), tetrodotoxin (1-2 microM), Cd2+ (0.1 mM) and apamin (20 nM). 3. The most frequently observed channel was a voltage-independent K+ channel which was open at the resting membrane potential and had a conductance of 52.6, 78.9 and 114.9 pS at a [K+]o of 2, 40 and 100 mM, respectively. This channel was designated background K+ channel. 4. Two other channel types were observed less frequently. One had a conductance of 26 pS (external K+, 118 mM) and a long open time of several seconds at the resting membrane potential. The second channel had a smaller conductance (20 pS) and displayed a voltage-dependent activation. 5. The open probability of the background K+ channel varied between patches, ranging from 0.0005 to 0.486. The open time distribution was fitted by a single exponential with a time constant of 0.51 ms. Both of these parameters were independent of the membrane potential. The closed time distribution consisted of at least four exponentials having time constants of 0.17, 3.7, 120 ms and several seconds. 6. Muscarine (10-20 microM) applied to the membrane outside the patch pipette reversibly enhanced the activity of the background K+ channel. This effect was associated with an increase in the open probability, which resulted from an increase in the mean open time concomitant with a decrease in the mean closed time. Muscarine did not change the single-channel conductance of this channel. 7. The effects of muscarine were blocked by atropine (1 microM). 8. It is concluded that there exists a muscarine-sensitive, voltage-independent K+ channel in cultured bullfrog ganglion cells. This K+ channel appears to contribute to the generation of the resting membrane potential and underlie the slow inhibitory postsynaptic potential of these neurones in situ.
摘要
  1. 利用细胞贴附式膜片钳技术,对培养的牛蛙交感神经节细胞中的一种电压非依赖性钾通道进行了表征,并研究了毒蕈碱的作用。2. 在存在四乙铵(2 - 20 mM)、河豚毒素(1 - 2 μM)、Cd2 +(0.1 mM)和蜂毒明肽(20 nM)的情况下,从2至10日龄的培养细胞中记录到了三种单通道电流。3. 最常观察到的通道是一种电压非依赖性钾通道,它在静息膜电位时开放,在细胞外钾离子浓度分别为2、40和100 mM时,电导分别为52.6、78.9和114.9 pS。该通道被命名为背景钾通道。4. 另外两种通道类型较少被观察到。一种在静息膜电位时电导为26 pS(细胞外钾离子浓度为118 mM),开放时间长达数秒。第二种通道电导较小(20 pS),表现出电压依赖性激活。5. 背景钾通道的开放概率在不同膜片之间有所变化,范围从0.0005到0.486。开放时间分布拟合为单指数形式,时间常数为0.51 ms。这两个参数均与膜电位无关。关闭时间分布至少由四个指数组成,时间常数分别为0.17、3.7、120 ms和数秒。6. 施加到膜片吸管外膜上的毒蕈碱(10 - 20 μM)可逆地增强了背景钾通道的活性。这种作用与开放概率的增加有关,这是由于平均开放时间增加同时平均关闭时间减少所致。毒蕈碱并未改变该通道的单通道电导。7. 毒蕈碱的作用被阿托品(1 μM)阻断。8. 得出结论,培养的牛蛙神经节细胞中存在一种毒蕈碱敏感的、电压非依赖性钾通道。这种钾通道似乎有助于静息膜电位的产生,并是这些神经元在原位产生缓慢抑制性突触后电位的基础。

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