Díaz M, Sepúlveda F V
AFRC Babraham Institute, Babraham, Cambridge, UK.
Pflugers Arch. 1995 Jun;430(2):168-80. doi: 10.1007/BF00374647.
The whole-cell configuration of the patch-clamp technique was used to examine K+ currents in HeLa cells. Under quasi-physiological ionic gradients, using an intracellular solution containing 10(-7) mol/l free Ca2+, mainly outward currents were observed. Large inwardly rectifying currents were elicited in symmetrical 145 mmol/l KCl. Replacement of all extracellular K+ by isomolar Na+, greatly decreased inward currents and shifted the reversal potential as expected for K+ selectivity. The inwardly rectifying K+ currents exhibited little or no apparent voltage dependence within the range of from -120 mV to 120 mV. A square-root relationship between chord conductance and [K+] at negative potentials could be established. The inwardly rectifying nature of the currents was unaltered after removal of intracellular Mg2+ and chelation with ATP and ethylenediaminetetraacetic acid (EDTA). Permeability ratios for other monovalent cations relative to K+ were: K+ (1.0) > Rb+ (0.86) > Cs+ (0.12) > Li (0.08) > Na+ (0.03). Slope conductance ratios measured at -100 mV were: Rb+ (1.66) > K+ (1.0) > Na+ (0.09) > Li (0.08) > Cs+ (0.06). K+ conductance was highly sensitive to intracellular free Ca2+ concentration. The relationship between conductance at 0 mV and Ca2+ concentration was well described by a Hill expression with a dissociation constant, KD, of 70 nmol/l and a Hill coefficient, n, of 1.81. Extracellular Ba2+ blocked the currents in a concentration- and voltage-dependent manner. The dependence of the KD for the blockade was analysed using a Woodhull-type treatment, locating the ion interaction site at 19% of the distance across the electrical field of the membrane and a KD (0 mV) of 7 mmol/l. Tetraethylammonium and 4-aminopyridine were without effect whilst quinine and quinidine blocked the currents with concentrations for half-maximum effects equal to 7 mumol/l and 3.5 mumol/l, respectively. The unfractionated venom of the scorpion Leiurus quinquestriatus (LQV) blocked the K+ currents of HeLa cells. The toxins apamin and scyllatoxin had no detectable effect whilst charybdotoxin, a component of LQV, blocked in a voltage-dependent manner with half-maximal concentrations of 40 nmol/l at -120 mV and 189 nmol/l at 60 mV; blockade by charybdotoxin accounts for the effect of LQV. Application of ionomycin (5-10 mumol/l), histamine (1 mmol/l) or bradykinin (1-10 mumol/l) to cells dialysed with low-buffered intracellular solutions induced K+ currents showing inward rectification and a lack of voltage dependence.
采用膜片钳技术的全细胞模式检测HeLa细胞中的钾离子电流。在准生理离子梯度条件下,使用含有10⁻⁷mol/L游离钙离子的细胞内溶液,主要观察到外向电流。在对称的145mmol/L氯化钾溶液中可诱发出大的内向整流电流。用等摩尔的钠离子替代所有细胞外钾离子,极大地降低了内向电流,并使反转电位如预期的钾离子选择性那样发生偏移。内向整流钾离子电流在-120mV至120mV范围内几乎没有或没有明显的电压依赖性。在负电位下,弦电导与[钾离子]之间可建立平方根关系。去除细胞内镁离子并用ATP和乙二胺四乙酸(EDTA)螯合后,电流的内向整流特性未改变。其他单价阳离子相对于钾离子的通透率为:钾离子(1.0)>铷离子(0.86)>铯离子(0.12)>锂离子(0.08)>钠离子(0.03)。在-100mV处测得的斜率电导比为:铷离子(1.66)>钾离子(1.0)>钠离子(0.09)>锂离子(0.08)>铯离子(0.06)。钾离子电导对细胞内游离钙离子浓度高度敏感。0mV时的电导与钙离子浓度之间的关系可用Hill表达式很好地描述,解离常数KD为70nmol/L,Hill系数n为1.81。细胞外钡离子以浓度和电压依赖性方式阻断电流。使用Woodhull型处理方法分析阻断的KD依赖性,将离子相互作用位点定位在跨膜电场距离的19%处,KD(0mV)为7mmol/L。四乙铵和4-氨基吡啶无作用,而奎宁和奎尼丁分别以7μmol/L和3.5μmol/L的半数最大效应浓度阻断电流。蝎子Leiurus quinquestriatus的粗毒(LQV)阻断HeLa细胞的钾离子电流。毒素蜂毒明肽和刺尾鱼毒素未检测到作用,而LQV的一种成分大蝎毒素以电压依赖性方式阻断,在-120mV时半数最大浓度为40nmol/L,在60mV时为189nmol/L;大蝎毒素的阻断作用解释了LQV的效应。将离子霉素(5 - 10μmol/L)、组胺(1mmol/L)或缓激肽(1 - 10μmol/L)应用于用低缓冲细胞内溶液透析的细胞,可诱导出显示内向整流且缺乏电压依赖性的钾离子电流。
