胰腺β细胞膜电压噪声测量:钙通道特性
Voltage noise measurements across the pancreatic beta-cell membrane: calcium channel characteristics.
作者信息
Atwater I, Dawson C M, Eddlestone G T, Rojas E
出版信息
J Physiol. 1981 May;314:195-212. doi: 10.1113/jphysiol.1981.sp013701.
Abstract
- Membrane potential fluctuations were measured in cells from mouse Islets of Langerhans identified as beta-cells by the characteristic pattern of electrical activity induced by 11 mM-D-glucose. 2. The membrane potential was controlled by adjusting the external potassium concentration, [K+]o, keeping the sum [Na+]o plus [K+]o constant. In the absence of glucose, when [K+]o is raised, the resulting depolarization is accompanied by a significant increase in voltage noise. 3 The amplitude and time course of the voltage noise were measured under various experimental conditions. The variance of the fluctuating voltage decreased monotonically along the depolarization induced by sudden increase in [K+]o, suggesting a monotonic reduction in the number of elementary events. 4. The frequency characteristics of the excess noise could be analysed as the sum of 1/f and 1/f2 components. While the 1/f component remained unaffected by the external application of 20mM-tetraethylammonium (TEA) and either 2 mM-Mn2+ or 2 mM-Co2+, the 1/f2 component was suppressed by both Mn2+ and Co2+. 5. The corner frequency, fc, of the 1/f2 component depended on membrane potential, which was adjusted by adjusting the [K+]o jump. These results support the idea that fc in these experiments is a measure of the channel relaxation. 6. Measurements of the input resistance in the frequency range from 0 to 25 Hz were used to obtain a rough estimate of the size of the channel conductance as 5 x 10(-12) omega (-1).
摘要
- 在来自小鼠胰岛的细胞中测量膜电位波动,这些细胞通过11 mM - D - 葡萄糖诱导的特征性电活动模式被鉴定为β细胞。2. 通过调节外部钾离子浓度[K⁺]ₒ来控制膜电位,保持[Na⁺]ₒ加[K⁺]ₒ的总和恒定。在无葡萄糖时,当[K⁺]ₒ升高,由此产生的去极化伴随着电压噪声的显著增加。3. 在各种实验条件下测量电压噪声的幅度和时间进程。由[K⁺]ₒ突然增加引起的去极化过程中,波动电压的方差单调下降,表明基本事件数量单调减少。4. 过量噪声的频率特性可分析为1/f和1/f²分量之和。虽然1/f分量不受外部施加20 mM - 四乙铵(TEA)以及2 mM - Mn²⁺或2 mM - Co²⁺的影响,但1/f²分量受到Mn²⁺和Co²⁺两者的抑制。5. 1/f²分量的转折频率fc取决于膜电位,膜电位通过调节[K⁺]ₒ跃变来调整。这些结果支持这样的观点,即这些实验中的fc是通道弛豫的一种度量。6. 在0至25 Hz频率范围内测量输入电阻,以获得通道电导大小的粗略估计值为5×10⁻¹²Ω⁻¹。
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