Robertson B, Taylor W R
Br J Pharmacol. 1986 Dec;89(4):661-72. doi: 10.1111/j.1476-5381.1986.tb11170.x.
Calcium and potassium currents were examined in dialysed, isolated dorsal root ganglion neurones of the cat by use of a single electrode voltage clamp. Two calcium currents were identified, a low threshold inactivating (transient) current and a higher threshold slowly inactivating (sustained) current. Both currents were blocked by 1 mM cadmium and replacement of calcium with manganese, which revealed an underlying nonspecific outward current. The sustained current disappeared with internal dialysis over a period of 20 to 30 min. (-)-Baclofen (100 microM) and gamma-aminobutyric acid (GABA, 100 microM) were found to reduce the peak amplitude of the sustained calcium current, an effect which became more pronounced with increasing concentrations of external magnesium (1-5 mM). In 5 mM external magnesium, 100 microM baclofen reduced the calcium current by 28%. The voltage-activated delayed rectifier appeared to be the most prominent potassium current in these cells. We were unable to find any evidence for a significant contribution from calcium-activated potassium conductance or a transient potassium conductance under our recording conditions. Baclofen and GABA at 100 microM had no consistent effect on the voltage-activated potassium current. Baclofen did not change the resting potassium conductance.
运用单电极电压钳技术,对经透析处理的猫离体背根神经节神经元的钙电流和钾电流进行了检测。确定了两种钙电流,一种是低阈值失活(瞬态)电流,另一种是高阈值缓慢失活(持续)电流。两种电流均被1 mM镉阻断,并用锰替代钙后,揭示出一种潜在的非特异性外向电流。持续电流在20至30分钟的内部透析过程中消失。发现(-)-巴氯芬(100 microM)和γ-氨基丁酸(GABA,100 microM)可降低持续钙电流的峰值幅度,随着外部镁浓度(1-5 mM)增加,这种效应变得更加明显。在5 mM外部镁存在的情况下,100 microM巴氯芬使钙电流降低了28%。电压激活延迟整流器似乎是这些细胞中最主要的钾电流。在我们的记录条件下,未找到钙激活钾电导或瞬态钾电导有显著贡献的任何证据。100 microM的巴氯芬和GABA对电压激活钾电流没有一致的影响。巴氯芬未改变静息钾电导。