Kv4.2通道电流与大鼠海马神经元瞬间外向钾电流特性的比较

本研究比较了转染的Kv4.2钾电流与原代培养大鼠海马神经元上瞬间外向钾电流(IA)动力学特征。实验采用瞬时转染,细胞培养和全细胞膜片钳记录等方法。结果表明:转染的Kv4.2通道电流和海马神经元上IA均具有明显的A型电流特征。海马神经元IA的半数最大激活电位和斜率因子分别为-10.0±3.3 mV和13.9±2.6 mV;半数最大失活电位和斜率因子分别为-93.0±11.4 mV和-9.0±1.5 mV;失活后再激活恢复时间常数(T)为27.9±14.1 ms。Kv4.2的半数最大激活电位和斜率因子分别为-9.7±4.1 mV和15.8±5.7 mV;半数最大失活电位和斜率因子分别为-59.4±12.2 mV和8.0±3.1 mV;Kv4.2的灭活后再激活的恢复时间常数τ为172.8±10.0 ms。结果提示:Kv4.2通道电流可能是海马神经元上的IA电流的主要成分,但不是唯一成分。

Electrophysiological correspondence between Kv4.2 current and transient outward potassium current in the cultured rat hippocampal neuron

The present study was carried out to determine the functional properties of Kv4.2 expressed in mammalian cells in comparison with native transient potassium outward current (I(A)) in the hippocampal neurons. Transient transfection, cell culture and whole cell voltage clamp techniques were used. The results showed that I(A) in cultured rat hippocampal neurons and Kv4.2 expressed in HEK293 cells both displayed "A"-type current properties. The activation curves of I(A) and Kv4.2 were better fitted by simple Boltzmann function with V(1/2) 10.0+/-3.3 mV, k 13.9+/-2.6 mV for I(A) and V1/2 -9.7+/-4.1 mV, k 15.8+/-5.7 mV for Kv4.2, respectively. The steady-state inactivation curves of I(A) had a midpoint of -93.0+/-11.4 mV and a slope of 9.0+/-1.5 mV. The voltage-dependence of inactivation for Kv4.2 exhibited midpoint and slope values of -59.4+/-12.2 mV and 8.0+/-3.1 mV, respectively. The time constants (tau) of recovery from inactivation of I(A) and Kv4.2 were 27.9+/-14.1 ms and 172.8+/-10.0 ms, respectively. These results suggest that Kv4.2 is probably a major isoform contributing to I(A) in hippocampus neurons.