大鼠海马体中的氧感应持续性钠通道
Oxygen-sensing persistent sodium channels in rat hippocampus.
作者信息
Hammarström A K, Gage P W
机构信息
Membrane Biology Program, John Curtin School of Medical Research, Australian National University, PO Box 334, Canberra, ACT, 2601 Australia.
出版信息
J Physiol. 2000 Nov 15;529 Pt 1(Pt 1):107-18. doi: 10.1111/j.1469-7793.2000.00107.x.
Abstract
- Persistent sodium channel activity was recorded before and during hypoxia from cell-attached and inside-out patches obtained from cultured hippocampal neurons at a pipette potential (Vp) of +30 mV. Average mean current (IU) of these channels was very low under normoxic conditions and was similar in cell-attached and excised inside-out patches (-0.018 +/- 0.010 and -0.025 +/- 0.008 pA, respectively, n = 24). 2. Hypoxia increased the activity of persistent sodium channels in 10 cell-attached patches (IU increased from -0. 026 +/- 0.016 pA in control to -0.156 +/- 0.034 pA during hypoxia, n = 4, P = 0.013). The increased persistent sodium channel activity was most prominent at a VP between +70 and +30 mV (membrane potential, Vm = -70 to -30 mV) and could be blocked by lidocaine, TTX or R56865 (n = 5). Sodium cyanide (NaCN, 5 mM; 0.5-5 min) increased persistent sodium channel activity in cell-attached patches (n = 3) in a similar manner. 3. Hypoxia also increased sodium channel activity in inside-out patches from hippocampal neurons. Within 2-4 min of exposure to hypoxia, I had increased 9-fold to -0. 18 +/- 0.04 pA (n = 21, P = 0.001). Sodium channel activity increased further with longer exposures to hypoxia. 4. The hypoxia-induced sodium channel activity in inside-out patches could be inhibited by exposure to 10-100 microM lidocaine applied via the bath solution (I = -0.03 +/- 0.01 pA, n = 8) or by perfusion of the pipette tip with 1 microM TTX (I = -0.01 +/- 0.01 pA, n = 3). 5. The reducing agent dithiothreitol (DTT, 2-5 mM) rapidly abolished the increase in sodium channel activity caused by hypoxia in excised patches (I = -0.01 +/- 0.01 pA, n = 4). Similarly, reduced glutathione (GSH, 5-20 mM) also reversed the hypoxia-induced increase in sodium channel activity (IU = -0.02 +/- 0.02 pA, n = 5). 6. These results suggest that persistent sodium channels in neurons can sense O2 levels in excised patches of plasma membrane. Hypoxia triggers an increase in sodium channel activity. The redox reaction involved in increasing the sodium channel activity probably occurs in an auxiliary regulatory protein, co-localized in the plasma membrane.
摘要
- 在培养的海马神经元上,从细胞贴附式和内向外膜片钳记录缺氧前后在吸管电位(Vp)为+30 mV时的持续钠通道活性。在常氧条件下,这些通道的平均电流(IU)非常低,在细胞贴附式和切除的内向外膜片中相似(分别为-0.018±0.010和-0.025±0.008 pA,n = 24)。2. 缺氧增加了10个细胞贴附式膜片中持续钠通道的活性(IU从对照时的-0.026±0.016 pA增加到缺氧时的-0.156±0.034 pA,n = 4,P = 0.013)。持续钠通道活性增加在VP为+70至+30 mV(膜电位,Vm = -70至-30 mV)时最为显著,并且可被利多卡因、TTX或R56865阻断(n = 5)。氰化钠(NaCN,5 mM;0.5 - 5分钟)以类似方式增加细胞贴附式膜片中持续钠通道的活性(n = 3)。3. 缺氧也增加了海马神经元内向外膜片中的钠通道活性。在暴露于缺氧2 - 4分钟内,电流增加了9倍至-0.18±0.04 pA(n = 21,P = 0.001)。随着缺氧暴露时间延长,钠通道活性进一步增加。4. 内向外膜片中缺氧诱导的钠通道活性可通过浴液中加入10 - 100 μM利多卡因(I = -0.03±0.01 pA,n = 8)或用1 μM TTX灌注吸管尖端(I = -0.01±0.01 pA,n = 3)来抑制。5. 还原剂二硫苏糖醇(DTT,2 - 5 mM)迅速消除了切除膜片中缺氧引起的钠通道活性增加(I = -0.01±0.01 pA)。同样,还原型谷胱甘肽(GSH,5 - 20 mM)也逆转了缺氧诱导的钠通道活性增加(IU = -0.02±0.02 pA,n = 5)。6. 这些结果表明,神经元中的持续钠通道可以感知质膜切除膜片中的O2水平。缺氧触发钠通道活性增加。参与增加钠通道活性的氧化还原反应可能发生在共定位在质膜中的辅助调节蛋白中。
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