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哺乳动物和鸟类离体I型半规管毛细胞中的钾电流。

Potassium currents in mammalian and avian isolated type I semicircular canal hair cells.

作者信息

Rennie K J, Correia M J

机构信息

Department of Otolaryngology, University of Texas Medical Branch, Galveston 77555.

出版信息

J Neurophysiol. 1994 Jan;71(1):317-29. doi: 10.1152/jn.1994.71.1.317.

DOI:10.1152/jn.1994.71.1.317
PMID:8158233
Abstract
  1. Type I vestibular hair cells were isolated from the cristae ampullares of the semicircular canals of the Mongolian gerbil (Meriones unguiculatus) and the white king pigeon (Columba livia). Dissociated type I cells were distinguished from type II hair cells by their neck to plate ratio (NPR) and their characteristic amphora shape. 2. The membrane properties of gerbil and pigeon type I hair cells were studied in whole-cell voltage- and current-clamp using the perforated patch technique with amphotericin B as the perforating agent. 3. In whole-cell current-clamp, the average zero-current potential, Vz, measured for pigeon type I hair cells, was -70 +/- 7 (SD) mV (n = 18) and -71 +/- 11 mV (n = 83) for gerbil type I hair cells. 4. At Vz, for both gerbil and pigeon type I hair cells, a potassium current (IKI) was > or = 50% activated. This current deactivated rapidly when the membrane potential was hyperpolarized below -90 mV. 5. IKI was blocked by externally applied 4-aminopyridine (4-AP) (5 mM) and by internally applied 20 mM tetraethylammonium (TEA). It was also reduced when 4 mM barium was present in the external solution. The degree of block by barium increased as the membrane potential became more positive. External cesium (5 mM) blocked the inward component of IKI. When IKI was pharmacologically blocked, Vz depolarized by approximately 40 mV. Therefore IKI appears to be a delayed rectifier and to set the more negative Vz noted for isolated type I hair cells when compared to isolated type II hair cells, which do not have IKI. 6. A second, smaller potassium current was present at membrane potential depolarizations above -40 mV. This current was blocked by 30-50 mM, externally applied TEA, 100 microM quinidine, 100 nM apamin, but not 100 nM charybdotoxin, indicating that this is a calcium-activated potassium current, IK(Ca), different from the maxi-K calcium-activated potassium current found in most other hair cells.
摘要
  1. 从蒙古沙鼠(长爪沙鼠)和白王鸽(家鸽)的半规管壶腹嵴中分离出I型前庭毛细胞。解离后的I型细胞通过其颈板比(NPR)和特有的双耳瓶形状与II型毛细胞区分开来。2. 使用两性霉素B作为穿孔剂的穿孔膜片钳技术,在全细胞电压钳和电流钳模式下研究了沙鼠和鸽I型毛细胞的膜特性。3. 在全细胞电流钳模式下,测得鸽I型毛细胞的平均零电流电位Vz为-70±7(标准差)mV(n = 18),沙鼠I型毛细胞的为-71±11 mV(n = 83)。4. 在Vz时,沙鼠和鸽I型毛细胞的钾电流(IKI)均被激活≥50%。当膜电位超极化至-90 mV以下时,该电流迅速失活。5. IKI可被细胞外施加的4-氨基吡啶(4-AP)(5 mM)和细胞内施加的20 mM四乙铵(TEA)阻断。当细胞外溶液中存在4 mM钡时,IKI也会减小。随着膜电位变得更正,钡的阻断程度增加。细胞外铯(5 mM)阻断IKI的内向成分。当IKI被药物阻断时,Vz去极化约40 mV。因此,IKI似乎是一种延迟整流器,与没有IKI的分离II型毛细胞相比,它能使分离的I型毛细胞的Vz更负。6. 在膜电位去极化至-40 mV以上时,存在第二种较小的钾电流。该电流可被细胞外施加的30 - 50 mM TEA、100 μM奎尼丁、100 nM蜂毒明肽阻断,但不能被100 nM大电导钙激活钾通道阻断剂阻断,这表明这是一种钙激活钾电流IK(Ca),与大多数其他毛细胞中发现的大电导钙激活钾电流不同。

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