细胞内pH对兔气管平滑肌钙激活钾通道的影响。
Effects of intracellular pH on calcium-activated potassium channels in rabbit tracheal smooth muscle.
作者信息
Kume H, Takagi K, Satake T, Tokuno H, Tomita T
机构信息
Second Department of Internal Medicine, Nagoya University, Japan.
出版信息
J Physiol. 1990 May;424:445-57. doi: 10.1113/jphysiol.1990.sp018076.
Abstract
- The effects of intracellular pH (pHi) on calcium-activated potassium channels (Ca2(+)-activated K+ channels) were studied in membrane patches of smooth muscle freshly dispersed from the rabbit trachea. Single-channel currents were recorded with an 'inside-out' patch clamp technique, mainly at 0 mV, with the external (electrode) medium containing 130 mM-K+ and the internal (bath) medium 6 mM-K+. 2. With an internal Ca2+ concentration ([Ca2+]i) of 1 microM, the fraction of time during which the channel was in an open state (the open probability, Po) was more than 0.8 at pHi 7.4. The channel activity nearly disappeared at pHi 7.0. The [Ca2+]i-Po relationship was shifted to higher [Ca2+]i by acidosis, the shift being approximately an 8-fold increase for a fall in pHi of 0.5 units. 3. The membrane potential and current intensity (V-I) relationship of single channels between +30 and -50 mV was shifted in a hyperpolarizing direction by intracellular acidosis. The shift was roughly 10 mV for 1 pH unit at 1 microM [Ca2+]i. At pHi 7.4 [Ca2+]i 1 microM, the V-Po relationship was shifted in a depolarizing direction by acidification. When [Ca2+]i was increased to 10 microM, V-Po relationship became less sensitive to V as well as pHi changes. 4. When Po was high, the probability density function of open and closed time distributions could be fitted by two exponentials. When Po was decreased to less than 0.3, either by reducing [Ca2+]i or by lowering pHi, another component having long closed times appeared. At similar Po values, the time constant of open time distribution was smaller with lower pHi. 5. It is concluded that the main effect of an increase in intracellular hydrogen ions is to decrease the open probability of the Ca2(+)-activated K+ channel, by reducing the sensitivity to Ca2+ and also shortening the open state.
摘要
- 利用从兔气管新鲜分离的平滑肌细胞膜片,研究了细胞内pH值(pHi)对钙激活钾通道(Ca2(+)-激活K+通道)的影响。采用“内面向外”的膜片钳技术记录单通道电流,主要在0 mV下进行,外部(电极)溶液含130 mM - K+,内部(浴槽)溶液含6 mM - K+。2. 当细胞内Ca2+浓度([Ca2+]i)为1 μM时,在pHi 7.4条件下通道处于开放状态的时间比例(开放概率,Po)超过0.8。在pHi 7.0时通道活性几乎消失。酸中毒使[Ca2+]i - Po关系向更高的[Ca2+]i偏移,pHi下降0.5个单位时,这种偏移约为8倍的增加。3. 在+30至 -50 mV之间,单通道的膜电位与电流强度(V - I)关系因细胞内酸中毒而向超极化方向偏移。在1 μM [Ca2+]i时,每1个pH单位的偏移约为10 mV。在pHi 7.4、[Ca2+]i 1 μM时,V - Po关系因酸化而向去极化方向偏移。当[Ca2+]i增加到10 μM时,V - Po关系对V以及pHi变化的敏感性降低。4. 当Po较高时,开放和关闭时间分布的概率密度函数可用两个指数函数拟合。当Po降低到小于0.3时,无论是通过降低[Ca2+]i还是降低pHi,都会出现另一个具有长关闭时间的成分。在相似的Po值下,开放时间分布的时间常数在较低pHi时更小。5. 得出结论:细胞内氢离子增加的主要作用是通过降低对Ca2+的敏感性并缩短开放状态,来降低Ca2(+)-激活K+通道的开放概率。
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