Hino N, Ochi R, Yanagisawa T
Pflugers Arch. 1982 Sep;394(3):243-9. doi: 10.1007/BF00589099.
The aminoglycoside antibiotic, gentamicin (GM), depressed the plateau phase and shortened the duration of the action potential in guinea pig papillary muscle. Its effect on the membrane currents was studied by a single sucrose gap voltage clamp method. The slow inward current (is) was remarkably diminished by GM with little change in its time course, in the voltage-dependency of the steady-state inactivation and activation or in its reversal potential. The maximal amplitude of is, obtained by subtracting the Co2+-resistant current, was reduced to 57% by 0.1 mmol/l GM and almost reduced to zero by 1 mmol/l GM. The efficacy of GM in inhibiting (is) was reduced by increasing the external Ca2+ concentration from 1.8 to 5.4 or 10.8 mmol/l, but not by the application of adrenaline. The time-dependent outward current (ik) was also decreased by GM but only at higher concentrations. It is proposed that the depressant action of GM on is was due to a blockade of slow channels, whereby GM may have dislocated Ca from the binding sites at slow channels on the external surface of the membrane.
氨基糖苷类抗生素庆大霉素(GM)可使豚鼠乳头肌动作电位的平台期压低,并缩短其动作电位时程。采用单蔗糖间隙电压钳法研究了其对膜电流的影响。GM可使慢内向电流(is)显著减小,而其时间进程、稳态失活和激活的电压依赖性或其反转电位几乎无变化。通过减去抗Co2+电流获得的is最大幅值,在0.1 mmol/l GM作用下降低至57%,在1 mmol/l GM作用下几乎降至零。将细胞外Ca2+浓度从1.8 mmol/l增加至5.4或10.8 mmol/l可降低GM抑制is的效能,但应用肾上腺素则无此作用。时间依赖性外向电流(ik)也可被GM降低,但仅在较高浓度时出现。有人提出,GM对is的抑制作用是由于其阻断了慢通道,由此GM可能使Ca从膜外表面慢通道的结合位点上移位。