胆碱能刺激可激活犬幽门环行肌细胞中的一种非选择性阳离子电流。
Cholinergic stimulation activates a non-selective cation current in canine pyloric circular muscle cells.
作者信息
Vogalis F, Sanders K M
机构信息
Department of Physiology, University of Nevada, School of Medicine, Reno 89557.
出版信息
J Physiol. 1990 Oct;429:223-36. doi: 10.1113/jphysiol.1990.sp018253.
Abstract
- Cholinergic stimulation of circular muscle from the canine pyloric sphincter results in excitatory junction potentials and an increase in slow-wave frequency. Experiments were performed on isolated pyloric muscle cells to determine the effects of acetylcholine on membrane conductance and voltage-dependent ionic currents. 2. Acetylcholine depolarized circular muscle cells and increased membrane conductance. Under voltage clamp, these effects were associated with the development of an inward current. 3. The ACh-dependent current (IACh) reversed at about -20 mV and was about equally selective for potassium and sodium. Changes in the chloride gradient had no effect on the reversal potential of IACh. 4. The response to ACh was blocked by atropine suggesting that the response was mediated by muscarinic receptors. IACh could not be elicited in the presence of ions normally used to block potassium currents (e.g. bath-applied TEA+ and replacement of Ki+ with Csi+. 5. In some cells single-channel openings could be resolved in response to ACh. These channels had a slope conductance of 30 pS, and open probability increased with depolarization. 6. Acetylcholine had little or no effect on voltage-dependent Ca2+ currents, and increased voltage-dependent outward currents. The latter effect may have been due to increased release of Ca2+ from internal stores. 7. The non-selective cationic current elicited by ACh can explain the excitatory junction potentials in pyloric muscle cells that are generated by transmural nerve stimulation and may also explain the chronotropic effects of ACh on slow waves.
摘要
- 犬幽门括约肌环形肌的胆碱能刺激可导致兴奋性接头电位和慢波频率增加。对分离的幽门肌细胞进行实验,以确定乙酰胆碱对膜电导和电压依赖性离子电流的影响。2. 乙酰胆碱使环形肌细胞去极化并增加膜电导。在电压钳制下,这些效应与内向电流的产生有关。3. 乙酰胆碱依赖性电流(IACh)在约-20 mV时反转,对钾和钠的选择性大致相同。氯离子梯度的变化对IACh的反转电位没有影响。4. 对乙酰胆碱的反应被阿托品阻断,表明该反应是由毒蕈碱受体介导的。在通常用于阻断钾电流的离子存在时(例如浴槽中加入TEA+并用Cs+替代K+),无法诱发IACh。5. 在一些细胞中,可分辨出对乙酰胆碱反应的单通道开放。这些通道的斜率电导为30 pS,开放概率随去极化而增加。6. 乙酰胆碱对电压依赖性Ca2+电流几乎没有影响,但增加了电压依赖性外向电流。后一种效应可能是由于细胞内钙库释放的Ca2+增加所致。7. 乙酰胆碱引发的非选择性阳离子电流可以解释经壁神经刺激在幽门肌细胞中产生的兴奋性接头电位,也可以解释乙酰胆碱对慢波的变时效应。
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