Effects of ethanol exposure on brain sodium channels.

Alcohol and drug research Pub Date : 1985-01-01
W A Hunt, M J Mullin
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Abstract

Ethanol, like other general anesthetics, probably acts through an interaction with excitable membranes. When ethanol is present in membranes, the lipid structure of membranes is disordered. This effect can lead to alterations in functional entities that require a particular lipid environment. Sodium channels, requiring such an environment, have been studied for their sensitivity to ethanol. In synaptosomes, ethanol in vitro reversibly inhibits sodium influx stimulated by batrachotoxin or veratridine in concentrations equivalent to those found in animals during ethanol intoxication. Only the maximum stimulation of the toxins is altered by ethanol. The potencies of aliphatic alcohols are directly related to their lipid solubilities. Acute and chronic ethanol administration reduces the effectiveness of ethanol in vitro. This tolerance dissipates after a single dose of ethanol as it is eliminated from the body. However, after 4 days of ethanol treatment, the tolerance lasts for over 20 days. These data suggest that ethanol might disrupt one of the basic processes of neural function by acting directly on the environment of the sodium channel. The channel appears to be able to adapt to the presence of ethanol through the induction of tolerance.

乙醇暴露对脑钠通道的影响。
乙醇和其他全身麻醉剂一样,可能通过与可兴奋膜的相互作用而起作用。当乙醇存在于膜中时,膜的脂质结构被打乱。这种效应可以导致需要特定脂质环境的功能实体的改变。需要这样一个环境的钠通道,已经研究了它们对乙醇的敏感性。在突触体中,乙醇在体外可逆地抑制由蛇曲霉毒素或蛇曲霉碱刺激的钠内流,其浓度相当于乙醇中毒时在动物体内发现的浓度。只有毒素的最大刺激被乙醇改变。脂肪醇的效价与其脂溶性直接相关。急性和慢性给药会降低乙醇在体外的有效性。这种耐受性在单剂量乙醇被排出体外后就会消失。然而,乙醇处理4天后,耐受性持续20天以上。这些数据表明,乙醇可能通过直接作用于钠通道的环境而破坏神经功能的一个基本过程。该通道似乎能够通过诱导耐受性来适应乙醇的存在。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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