培养的大鼠神经元中细胞内镁离子对NMDA激活通道的阻断动力学
Kinetics of the block by intracellular Mg2+ of the NMDA-activated channel in cultured rat neurons.
作者信息
Li-Smerin Y, Johnson J W
机构信息
Department of Neuroscience, University of Pittsburgh, PA 15260, USA.
出版信息
J Physiol. 1996 Feb 15;491 ( Pt 1)(Pt 1):121-35. doi: 10.1113/jphysiol.1996.sp021201.
Abstract
- Single-channel currents activated by the glutamate agonist N-methyl-D-aspartate (NMDA) were recorded from outside-out patches of cultured rat cortical neurons in the presence of intracellular Mg2+ (Mgi2+). The rate constants of the block by Mgi2+ were measured using amplitude distribution analysis. 2. At a membrane potential of 0 mV, the blocking rate constant (k+) of Mgi2+ was estimated to be 2.1 x 10(7) M-1 S-1 and the unblocking rate constant (k-) 1.7 x 15(5)s-1. The very fast rate constants of the block by Mgi2+ explain why channel flicker was not fully resolvable during block of the NMDA-activated single-channel current by Mgi2+. 3. The blocking rate constant of Mgi2+ increased with increasing concentrations of Mgi2+. The unblocking rate constant was Mgi2+ concentration independent. 4. The blocking rate constant increased e-fold per 64 mV depolarization, whereas the unblocking rate constant decreased e-fold per 133 mV depolarization. The dissociation constant (KD) calculated from the blocking rates (k-/k+) decreased e-fold per 43 mV depolarization, and had a value at 0 mV of 7.8 mM. These values are consistent with previous estimates obtained from the voltage-dependent inhibition of the single-channel current amplitude. Both results predict, based on the Woodhull model, that Mgi2+ traverses about one-third of the membrane field to reach its blocking site. 5. The unblocking rate constant of Mgi2+ is one to two orders of magnitude faster than the previously reported unblocking rate constant of extracellular Mg2+ (Mgo2+) in the physiological voltage range, and their voltage dependencies are of opposite signs. These findings are consistent with the hypothesis that there are separate binding sites in the channel for Mgi2+ and Mgo2+. 6. Based on the blocking kinetics of Mgi2+ and Mgo2+, an energy profile of three barriers and two binding sites for Mg2+ is proposed.
摘要
- 在细胞内存在Mg2+(Mgi2+)的情况下,从培养的大鼠皮层神经元的外向膜片上记录了由谷氨酸激动剂N-甲基-D-天冬氨酸(NMDA)激活的单通道电流。使用幅度分布分析测量了Mgi2+的阻断速率常数。2. 在膜电位为0 mV时,Mgi2+的阻断速率常数(k+)估计为2.1×10(7)M-1 S-1,解阻断速率常数(k-)为1.7×15(5)s-1。Mgi2+阻断的非常快速率常数解释了为什么在Mgi2+阻断NMDA激活的单通道电流期间通道闪烁不能完全分辨。3. Mgi2+的阻断速率常数随Mgi2+浓度的增加而增加。解阻断速率常数与Mgi2+浓度无关。4. 阻断速率常数每64 mV去极化增加e倍,而解阻断速率常数每133 mV去极化降低e倍。根据阻断速率(k-/k+)计算的解离常数(KD)每43 mV去极化降低e倍,在0 mV时的值为7.8 mM。这些值与先前从单通道电流幅度的电压依赖性抑制获得的估计值一致。基于伍德胡尔模型,这两个结果都预测Mgi2+穿过约三分之一的膜电场到达其阻断位点。5. 在生理电压范围内,Mgi2+的解阻断速率常数比先前报道的细胞外Mg2+(Mgo2+)的解阻断速率常数快一到两个数量级,并且它们的电压依赖性具有相反的符号。这些发现与通道中存在Mgi2+和Mgo2+的单独结合位点的假设一致。6. 基于Mgi2+和Mgo2+的阻断动力学,提出了Mg2+的三个势垒和两个结合位点的能量分布图。
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