用离子选择性微电极测量普通滨螺神经元内的游离镁。
Intracellular free magnesium in neurones of Helix aspersa measured with ion-selective micro-electrodes.
作者信息
Alvarez-Leefmans F J, Gamiño S M, Rink T J
出版信息
J Physiol. 1984 Sep;354:303-17. doi: 10.1113/jphysiol.1984.sp015377.
Cytoplasmic free Mg2+ concentration, [Mg2+]i, was measured in identified neuronal cell bodies of the suboesophageal ganglia of Helix aspersa, using Mg2+-selective micro-electrodes. In calibration solutions, the electrodes showed significant interference from K+, but not from Na+, or Ca2+, at concentrations found intracellularly. Therefore, in order to calibrate the electrodes properly, it was necessary first to obtain an accurate value for intracellular free K+ concentration [( K+]i). The mean value for [K+]i was 91 mM (S.E. of the mean +/- 2.2 mM, n = 8), measured with K+-sensitive 'liquid ion exchanger micro-electrodes'. In seven experiments, which met stringent criteria for satisfactory impalement and electrode calibration, the mean [Mg2+]i was 0.66 mM (S.E. of the mean +/- 0.05 mM). The mean [Mg2+]i in cells that had spontaneous spike activity was not significantly different from that in quiescent cells. If Mg2+ was in electrochemical equilibrium, the ratio [Mg2+]i/[Mg2+]o would be about 55. Mg2+ is therefore not passively distributed across the neuronal membrane and an outwardly directed extrusion mechanism must exist to keep [Mg2+]i low and constant, even in cells undergoing spike activity.
利用镁离子选择性微电极,在花园蜗牛食管下神经节中已识别的神经元细胞体中测量了细胞质游离镁离子浓度[Mg2+]i。在校准溶液中,在细胞内发现的浓度下,电极显示出受到钾离子的显著干扰,但不受钠离子或钙离子的干扰。因此,为了正确校准电极,首先有必要获得细胞内游离钾离子浓度[(K+]i)的准确值。用钾离子敏感的“液体离子交换剂微电极”测量的[K+]i平均值为91 mM(平均值的标准误差±2.2 mM,n = 8)。在七个满足令人满意的刺入和电极校准严格标准的实验中,平均[Mg2+]i为0.66 mM(平均值的标准误差±0.05 mM)。具有自发尖峰活动的细胞中的平均[Mg2+]i与静止细胞中的平均[Mg2+]i没有显著差异。如果镁离子处于电化学平衡状态,[Mg2+]i/[Mg2+]o的比值将约为55。因此,镁离子不是被动地分布在神经元膜上,即使在经历尖峰活动的细胞中,也必须存在一种向外的挤压机制来保持[Mg2+]i低且恒定。
Zotero 插件