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正常大鼠垂体前叶细胞中电压依赖性钾电流的多个成分

Multiple components of voltage-dependent potassium current in normal rat anterior pituitary cells.

作者信息

Herrington J, Lingle C J

机构信息

Department of Anesthesiology, Washington University School of Medicine, St. Louis, Missouri 63110.

出版信息

J Neurophysiol. 1994 Aug;72(2):719-29. doi: 10.1152/jn.1994.72.2.719.

DOI:10.1152/jn.1994.72.2.719
PMID:7983530
Abstract
  1. Voltage-dependent K+ currents were studied in normal rat anterior pituitary cells using the patch-clamp technique. To obtain cultures enriched for lactotrophs, density gradient centrifugation was performed on pituitary cells isolated from lactating rats. 2. Depolarizations to about -30 mV from a holding potential of -80 mV activate a rapidly inactivating [time constant (tau) approximately 15-20 ms at -20 mV]K+ current. This transient current activated at low voltages (termed IA) is abolished by 5 mM external 4-aminopyridine (4-AP) but is largely resistant to external tetraethylammonium (TEA) (< or = 30 mM). 3. Recovery from inactivation of IA is fast, with a tau of 100-200 ms at -80 mV. Deactivation is also fast (tau approximately 2.2 ms at -50 mV). The voltage of half-activation of IA is approximately -20 mV. The current is completely inactivated at a holding potential of -40 mV. 4. Voltage-dependent K+ current activated by depolarizations from a holding potential of -40 mV was first detectable at about -20 mV (high voltage-activated) and had a time course that varied among cells. 5. Deactivation of high voltage-activated K+ current was best described by the sum of two exponentials, with tau of about 3.7 and 30 ms at -50 mV. Both components reversed close to the equilibrium potential for K+. 6. The amplitudes of the two tail currents were independent of each other when variable-duration commands were used to activate current. The amplitude of the fast component was largest with 10- to 20-ms commands to +40 mV and was reduced (< or = 50%) with 136-ms commands. The slow component amplitude reached a peak by 40 ms and remained constant for commands < or = 136 ms at +40 mV. 7. The contribution of each component to the total high voltage-activated tail current was variable among cells, with the amount of fast component correlating with the amount of inactivation produced by commands to +40 mV. 8. The two components of tail current activated by depolarizations from the -40 mV holding potential were abolished by external TEA (10 mM). 4-AP (5 mM externally) selectively abolished the fast component of high voltage-activated tail current while only partially reducing the slow component. 9. These results suggest that normal rat anterior pituitary cells possess at least three distinct types of voltage-dependent K+ current: a low voltage-activated, transient current (IA) and two high voltage-activated currents.(ABSTRACT TRUNCATED AT 400 WORDS)
摘要
  1. 采用膜片钳技术研究正常大鼠垂体前叶细胞的电压依赖性钾电流。为获得富含催乳素细胞的培养物,对从泌乳大鼠分离的垂体细胞进行密度梯度离心。2. 从 -80 mV 的钳制电位去极化至约 -30 mV 可激活一种快速失活的钾电流(在 -20 mV 时时间常数(τ)约为 15 - 20 ms)。这种在低电压下激活的瞬时电流(称为 IA)可被 5 mM 细胞外 4 - 氨基吡啶(4 - AP)阻断,但对细胞外四乙铵(TEA)(≤30 mM)具有很大抗性。3. IA 失活后的恢复很快,在 -80 mV 时 τ 为 100 - 200 ms。去激活也很快(在 -50 mV 时 τ 约为 2.2 ms)。IA 的半激活电压约为 -20 mV。在 -40 mV 的钳制电位下电流完全失活。4. 从 -40 mV 的钳制电位去极化激活的电压依赖性钾电流在约 -20 mV 时首次可检测到(高电压激活),其时间进程在不同细胞间有所变化。5. 高电压激活钾电流的去激活最好用两个指数之和来描述,在 -50 mV 时 τ 约为 3.7 和 30 ms。两个成分都在接近钾的平衡电位处反转。6. 当使用可变持续时间的指令激活电流时,两个尾电流的幅度相互独立。快速成分的幅度在向 +40 mV 施加 10 - 20 ms 指令时最大,在施加 136 ms 指令时减小(≤50%)。慢速成分的幅度在 40 ms 时达到峰值,在向 +40 mV 施加≤136 ms 指令时保持恒定。7. 每个成分对总高电压激活尾电流的贡献在不同细胞间有所变化,快速成分的量与向 +40 mV 指令产生的失活量相关。8. 从 -40 mV 钳制电位去极化激活的尾电流的两个成分可被细胞外 TEA(10 mM)阻断。4 - AP(细胞外 5 mM)选择性地阻断高电压激活尾电流的快速成分,而仅部分降低慢速成分。9. 这些结果表明正常大鼠垂体前叶细胞至少拥有三种不同类型的电压依赖性钾电流:一种低电压激活的瞬时电流(IA)和两种高电压激活电流。(摘要截短至 400 字)

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