钾对人成骨细胞和人白血病T淋巴细胞中氯离子通道的新型激活刺激作用。
Novel activation stimulus of chloride channels by potassium in human osteoblasts and human leukaemic T lymphocytes.
作者信息
Steinert M, Grissmer S
机构信息
Department of Applied Physiology, University of Ulm, Germany.
出版信息
J Physiol. 1997 May 1;500 ( Pt 3)(Pt 3):653-60. doi: 10.1113/jphysiol.1997.sp022050.
Abstract
- The whole-cell recording mode of the patch-clamp technique was used to study the effect of extracellular K+ and Rb+ on membrane currents in human osteoblasts, in a human osteoblast-like cell line, and in the Jurkat human leukaemic T cell line. 2. Increasing the extracellular concentration of K+ increased the membrane conductance of the cells in a concentration-dependent manner. This increase in membrane conductance was due to the activation of a Cl- conductance. Rb+ also induced this conductance, but conductance was less than half that seen in K+. 3. The Cl- channel blockers 4,4'-diisothiocyanatostilbene-2,2'-disulphonic acid (DIDS) and 4-acetamido-4'-isothiocyanatostilbene 2,2'-disulphonic acid (SITS) blocked the K(+)-induced Cl- current in a voltage-dependent manner. The degree of blockade increased with membrane depolarization to a maximum level at 40 mV. At potentials above this value the block appeared to decrease. 4. Both tonicity and K+ were required for maximal activation of the Cl- conductance since the K(+)-induced Cl- conductance could be inhibited by hypertonic solutions and the activation of a volume-sensitive Cl- conductance by hypotonic solutions could be enhanced by extracellular K+. 5. We conclude that an outwardly rectifying Cl- conductance can be activated either upon osmotic swelling or by an increase in extracellular K+. Both activation pathways may be involved in cell volume regulation and seem to apply to volume-sensitive Cl- channels in general since we observe this phenomenon in two different cell types, in human osteoblasts as well as in human leukaemic T lymphocytes.
摘要
- 采用膜片钳技术的全细胞记录模式,研究细胞外钾离子(K⁺)和铷离子(Rb⁺)对人成骨细胞、人成骨样细胞系以及Jurkat人白血病T细胞系膜电流的影响。2. 增加细胞外K⁺浓度会以浓度依赖的方式增加细胞的膜电导。这种膜电导的增加是由于氯离子(Cl⁻)电导的激活。Rb⁺也能诱导这种电导,但电导小于K⁺诱导的一半。3. Cl⁻通道阻滞剂4,4'-二异硫氰酸根合芪-2,2'-二磺酸(DIDS)和4-乙酰氨基-4'-异硫氰酸根合芪-2,2'-二磺酸(SITS)以电压依赖的方式阻断K⁺诱导的Cl⁻电流。阻断程度随着膜去极化增加,在40 mV时达到最大水平。在高于该值的电位下,阻断作用似乎减弱。4. 渗透压和K⁺都是Cl⁻电导最大激活所必需的,因为K⁺诱导的Cl⁻电导可被高渗溶液抑制,而低渗溶液激活的容积敏感性Cl⁻电导可被细胞外K⁺增强。5. 我们得出结论,外向整流Cl⁻电导可在渗透性肿胀或细胞外K⁺增加时被激活。这两种激活途径可能都参与细胞体积调节,并且似乎普遍适用于容积敏感性Cl⁻通道,因为我们在两种不同的细胞类型,即人成骨细胞和人白血病T淋巴细胞中都观察到了这种现象。
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