细胞外核苷酸可激活大鼠破骨细胞中的非选择性阳离子通道和钙依赖性钾通道。
Extracellular nucleotides activate non-selective cation and Ca(2+)-dependent K+ channels in rat osteoclasts.
作者信息
Weidema A F, Barbera J, Dixon S J, Sims S M
机构信息
Department of Physiology, Faculty of Medicine and Dentistry, University of Western Ontario, London, Canada.
出版信息
J Physiol. 1997 Sep 1;503 ( Pt 2)(Pt 2):303-15. doi: 10.1111/j.1469-7793.1997.303bh.x.
Abstract
- Extracellular ATP elevates cytosolic free Ca2+ concentration ([Ca2+]i) in osteoclasts, but its effects on ion channels have not been reported previously. Membrane currents and [Ca2+]i were recorded in isolated rat osteoclasts using patch clamp and fluorescence techniques. 2. At negative membrane potentials, ATP (1-100 microM) activated an inward current that peaked rapidly and then declined. A later current was outward at potentials positive to the equilibrium potential for K+ (EK) and showed oscillations. 3. The initial inward current, studied in isolation using Cs+ in the electrode solution, showed rapid activation, inward rectification and reversal at +3 +/- 4 mV. Reduction of [Na+]o to 10 mM shifted the reversal potential to -21 +/- 3 mV, indicating that ATP activates a non-selective cation current, consistent with involvement of P2X receptors. 4. The later current activated by ATP, studied with K+ in the electrode solution, exhibited a linear I-V relationship, and reversed at -71 +/- 4 mV. The reversal potential shifted 51 mV per 10-fold change of [K+]o, indicating that ATP activates a K+ current (IK). 5. In fura-2-loaded cells, ATP caused elevation of [Ca2+]i that persisted in Ca(2+)-free solution, indicating that ATP induced release of Ca2+ from intracellular stores, consistent with involvement of P2Y receptors. Simultaneous patch clamp and fluorescence recordings revealed that IK was associated with the elevation of [Ca2+]i. Using a Ca2+ ionophore (4Br-A23187) to elevate [Ca2+]i, IK activated when [Ca2+]i exceeded approximately 400 nM, with half-maximal activation at 580 +/- 50 nM. 6. In cell-attached patches, ATP activated a channel with a conductance of 48 +/- 6 pS, that reversed director, near EK. Channel open probability increased with elevation of [Ca2+]i, indicating the Ca2+ dependence of this channel. 7. These results demonstrate that rat osteoclasts express two types of purinoceptors. P2X receptors give rise to non-selective cation current. P2Y receptors mediate Ca2+ release from stores, causing activation of a Ca(2+)-dependent K+ channel.
摘要
- 细胞外ATP可提高破骨细胞胞质游离Ca2+浓度([Ca2+]i),但其对离子通道的影响此前尚未见报道。采用膜片钳和荧光技术记录分离的大鼠破骨细胞的膜电流和[Ca2+]i。2. 在负膜电位下,ATP(1 - 100 microM)激活内向电流,该电流迅速达到峰值然后下降。随后的电流在高于K+平衡电位(EK)的电位下为外向,并表现出振荡。3. 使用电极溶液中的Cs+单独研究初始内向电流,其显示出快速激活、内向整流并在+3 +/- 4 mV处反转。将[Na+]o降低至10 mM可使反转电位移至 - 21 +/- 3 mV,表明ATP激活非选择性阳离子电流,这与P2X受体的参与一致。4. 用电极溶液中的K+研究ATP激活的随后电流,其呈现线性I-V关系,并在 - 71 +/- 4 mV处反转。反转电位随[K+]o每10倍变化移动51 mV,表明ATP激活K+电流(IK)。5. 在加载fura-2的细胞中,ATP导致[Ca2+]i升高,且在无Ca2+溶液中持续存在,表明ATP诱导Ca2+从细胞内储存释放,这与P2Y受体的参与一致。同时进行的膜片钳和荧光记录显示IK与[Ca2+]i升高相关。使用Ca2+离子载体(4Br-A23187)提高[Ca2+]i,当[Ca2+]i超过约400 nM时IK激活,半数最大激活浓度为580 +/- 50 nM。6. 在细胞贴附式膜片中,ATP激活一个电导为48 +/- 6 pS的通道,该通道在接近EK处反转方向。通道开放概率随[Ca2+]i升高而增加,表明该通道对Ca2+有依赖性。7. 这些结果表明大鼠破骨细胞表达两种类型的嘌呤受体。P2X受体产生非选择性阳离子电流。P2Y受体介导Ca2+从储存中释放,导致Ca2+依赖性K+通道激活。
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