椎实螺(Lymnaea stagnalis)神经元中质子电流的特性分析
Characterization of proton currents in neurones of the snail, Lymnaea stagnalis.
作者信息
Byerly L, Suen Y
机构信息
Department of Biological Sciences, University of Southern California, Los Angeles 90089-0371.
出版信息
J Physiol. 1989 Jun;413:75-89. doi: 10.1113/jphysiol.1989.sp017642.
Abstract
- Internal perfusion voltage-clamp and inside-out patch-clamp techniques were used to study the voltage-dependent H+ currents in snail neurone cell bodies. 2. In whole cells the voltage-activated outward H+ current was measured 60 ms after stepping to +40 mV with an internal pH (pHi) of 5.9 and no internal K+([K+]i = 0), and the delayed K+ current was measured 60 ms after stepping to +40 mV with pHi = 7.3 and [K+]i = 74 mM. The mean H+ and K+ current densities were 14.6 +/- 7.8 and 38.2 +/- 14.0 nA/nF, respectively, giving a mean ratio of the H+ to K+ current of 0.4 +/- 0.2. There is not a strong correlation between the densities of the two kinds of outward currents found in different cells. 3. Inside-out patch studies reveal that the H+ and K+ currents are distributed quite differently in the membrane. While 85% of all patches had K+ current, only five out of thirty-eight patches studied had H+ currents. In those five patches the H+ currents measured at +30 mV ranged from 10.7 to 21.0 pA, and the ratio of the H+ and K+ currents at +30 mV was 0.83 +/- 0.38. The mean H+ and K+ currents for all thirty-eight patches were 1.9 +/- 4.9 and 10.5 +/- 7.9 pA, respectively. 4. The current distribution patterns demonstrate that the H+ current does not flow through the delayed K+ current channels even though the two currents have similar voltage dependence and time course. 5. The relative ability of various extracellular divalent cations to block the H+ current was found to be Cu2+ approximately equal to Zn2+ greater than Ni2+ greater than Cd2+ greater than Co2+ greater than Mn2+ greater than Mg2+ = Ca2+ = Ba2+. Since 100 microM-Zn2+ blocks the H+ current more than it blocks the Ca2+ current, it can be used to reduce the contamination of Ca2+ current measurements by the H+ current. 6. The magnitude of the H+ current has a stronger temperature sensitivity than does the magnitude of the delayed K+ current. The Q10 of the H+ current magnitude is 2.1 +/- 0.4, while the Q10 of the K+ current magnitude is 1.4 +/- 0.04. This suggests a higher activation energy may be involved in the conduction of the H+ current than for K+ current. 7. The smooth time course of the H+ current measured in patches indicates that the size of the unitary H+ current is very small.(ABSTRACT TRUNCATED AT 400 WORDS)
摘要
- 采用细胞内灌注电压钳和内面向外膜片钳技术研究蜗牛神经元胞体中的电压依赖性H⁺电流。2. 在全细胞中,当细胞内pH值(pHi)为5.9且细胞内无K⁺([K⁺]i = 0)时,在阶跃到+40 mV 60毫秒后测量电压激活的外向H⁺电流;当pHi = 7.3且[K⁺]i = 74 mM时,在阶跃到+40 mV 60毫秒后测量延迟K⁺电流。H⁺和K⁺电流的平均密度分别为14.6±7.8和38.2±14.0 nA/nF,H⁺与K⁺电流的平均比值为0.4±0.2。在不同细胞中发现的两种外向电流密度之间没有很强的相关性。3. 内面向外膜片研究表明,H⁺和K⁺电流在膜中的分布有很大差异。虽然所有膜片中85%有K⁺电流,但在研究的38个膜片中只有5个有H⁺电流。在这5个膜片中,在+30 mV时测量的H⁺电流范围为10.7至21.0 pA,在+30 mV时H⁺与K⁺电流的比值为0.83±0.38。所有38个膜片的H⁺和K⁺电流平均值分别为1.9±4.9和10.5±7.9 pA。4. 电流分布模式表明,即使H⁺电流和延迟K⁺电流具有相似的电压依赖性和时间进程,H⁺电流也不通过延迟K⁺电流通道。5. 发现各种细胞外二价阳离子阻断H⁺电流的相对能力为Cu²⁺≈Zn²⁺>Ni²⁺>Cd²⁺>Co²⁺>Mn²⁺>Mg²⁺ = Ca²⁺ = Ba²⁺。由于100 μM的Zn²⁺对H⁺电流的阻断作用大于对Ca²⁺电流的阻断作用,因此它可用于减少H⁺电流对Ca²⁺电流测量的污染。6. H⁺电流的大小比延迟K⁺电流的大小具有更强的温度敏感性。H⁺电流大小的Q10为2.1±0.4,而K⁺电流大小的Q10为1.4±0.04。这表明H⁺电流传导过程中涉及的活化能可能比K⁺电流更高。7. 在膜片中测量的H⁺电流的平滑时间进程表明,单个H⁺电流的大小非常小。(摘要截短于400字)
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