在枪乌贼Alloteuthis的巨轴突与施万细胞之间的空间中钾离子的积累。渗透压变化的影响。

K+ accumulation in the space between giant axon and Schwann cell in the squid Alloteuthis. Effects of changes in osmolarity.

作者信息

Astion M L, Coles J A, Orkand R K, Abbott N J

机构信息

Marine Biological Association Laboratory, Citadel Hill, Plymouth, United Kingdom.

出版信息

Biophys J. 1988 Feb;53(2):281-5. doi: 10.1016/S0006-3495(88)83090-X.

DOI:10.1016/S0006-3495(88)83090-X

PMID:3345336

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1330149/

Abstract

In a train of impulses in squid giant axon, accumulation of extracellular potassium causes successive afterhyperpolarizations to be progressively less negative. In Loligo, Frankenhaeuser and Hodgkin had satisfactorily accounted for the characteristics of this effect with a model in which the axon is surrounded by a space, width theta, and a barrier of permeability P. In axons isolated from Alloteuthis, we found that the model fitted the observations quite well. Superfusing the axon with hypotonic artificial seawater (ASW) caused theta and P to decrease, and, conversely, hypertonic ASW caused them to increase: this would be the case if both the space and the pathway through the barrier were extracellular. In some cases, in normal ASW, the afterhyperpolarizations in a train decreased very little, less than 0.7 mV. In these extreme cases, theta was estimated to be 190 nm and P to be 7 x 10(-4) cm s-1, both several times the values of 30 nm and 6 x 10(-5) cm s-1 estimated by Frankenhaeuser and Hodgkin. We suggest that in vivo the periaxonal space may be considerably wider than that seen in conventionally fixed squid tissue.

摘要

在枪乌贼巨大轴突的一串冲动中，细胞外钾离子的积累会导致相继的超极化后电位逐渐减少其负电位值。在枪乌贼属动物中，弗兰肯豪泽和霍奇金用一个模型令人满意地解释了这种效应的特征，在该模型中，轴突被一个宽度为θ的空间和一个通透率为P的屏障所包围。在从异枪乌贼分离出的轴突中，我们发现该模型与观察结果拟合得相当好。用低渗人工海水（ASW）对轴突进行灌流会使θ和P降低，相反，高渗ASW会使它们升高：如果空间和穿过屏障的通道都是细胞外的，就会出现这种情况。在某些情况下，在正常ASW中，一串冲动中的超极化后电位下降很少，不到0.7毫伏。在这些极端情况下，估计θ为190纳米，P为7×10⁻⁴厘米/秒，这两个值都是弗兰肯豪泽和霍奇金估计的30纳米和6×10⁻⁵厘米/秒的几倍。我们认为，在体内轴突周围空间可能比在传统固定的枪乌贼组织中看到的要宽得多。

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本文引用的文献

Characterization of the membranes in the giant nerve fiber of the squid.鱿鱼巨大神经纤维中膜的特性研究。

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