嗜铬细胞动作电位及其在大鼠肾上腺髓质肾上腺素分泌中的可能作用。
Chromaffin cell action potentials and their possible role in adrenaline secretion from rat adrenal medulla.
作者信息
Kidokoro Y, Ritchie A K
出版信息
J Physiol. 1980 Oct;307:199-216. doi: 10.1113/jphysiol.1980.sp013431.
Abstract
- The role of action potentials in adrenaline secretion was investigated in the rat adrenal medulla. The effects of various treatments on adrenaline secretion from the perfused adrenal medulla were compared with the effects of similar treatments on spike frequency in dissociated adrenal chromaffin cells. 2. KCl concentrations between 10 and 20 mM increased the extracellularly recorded spike frequency of dissociated adrenal chromaffin cells. Upon perfusion by a KCl concentration of 30 mM there was an initial brief burst of spikes followed by a period of inactivity in the continued presence of 30 mM-Kcl. Tetrodotoxin (TTX, 6 microM) decreased the amplitude and frequency of the KCl evoked spikes. 3. The rate of adrenaline secretion from the isolated perfused rat adrenal gland increased as the KCl concentration was raised to 10 and up to 120 mM. Secretion which was evoked by KCl concentrations between 10 and 20 mM was partially inhibited by TTX. At KCl concentrations of 30 mM or greater evoked secretion was no longer affected by TTX. 4. CoCl2 (5 mM) blocked KCl increase of spike frequency and also blocked stimulation of adrenaline secretion by all concentrations of KCl tested. 5. Tetraethylammonium chloride (10 mM), which decreased spike frequency but greatly prolonged the spike duration, enhanced secretion induced by 15 mM-Kcl. 6. The results are consistent with the following interpretation. The TTX insensitive portion of the KCl stimulated adrenaline secretion is due to Ca influx through voltage dependent Ca channels which are open as a consequence of the steady-state level of KCl depolarization. The TTX sensitive portion of secretion is indicative of an extra increment of Ca influx during spike activity enhanced by KCl. This increment of Ca influx may occur through voltage dependent Ca channels whose activation is facilitated by the voltage changes caused during the TTX sensitive Na component of the spike and possibly through the Na channel itself. 7. Stimulation of secretion by acetylcholine (ACh) in the perfused adrenal medulla was half maximal at 15 microM and began to saturate around 50 microM. Release was partially inhibited by TTX only when the concentration of ACh was 10 microM or less. The possible role of action potentials in ACh stimulated adrenaline release is discussed.
摘要
- 在大鼠肾上腺髓质中研究了动作电位在肾上腺素分泌中的作用。将各种处理对灌流肾上腺髓质肾上腺素分泌的影响与类似处理对解离的肾上腺嗜铬细胞动作电位频率的影响进行了比较。2. 10至20毫摩尔的氯化钾浓度增加了解离的肾上腺嗜铬细胞细胞外记录的动作电位频率。用30毫摩尔的氯化钾浓度灌流时,最初有一阵短暂的动作电位发放,随后在持续存在30毫摩尔氯化钾的情况下出现一段静止期。河豚毒素(TTX,6微摩尔)降低了氯化钾诱发的动作电位的幅度和频率。3. 随着氯化钾浓度升高至10至120毫摩尔,离体灌流大鼠肾上腺的肾上腺素分泌速率增加。10至20毫摩尔的氯化钾浓度诱发的分泌被TTX部分抑制。在30毫摩尔或更高的氯化钾浓度下诱发的分泌不再受TTX影响。4. 氯化钴(5毫摩尔)阻断了氯化钾引起的动作电位频率增加,也阻断了所有测试浓度的氯化钾对肾上腺素分泌的刺激。5. 四乙铵氯化物(10毫摩尔)降低了动作电位频率,但大大延长了动作电位持续时间,增强了15毫摩尔氯化钾诱发的分泌。6. 结果与以下解释一致。氯化钾刺激的肾上腺素分泌中对TTX不敏感的部分是由于钙通过电压依赖性钙通道内流,这些通道因氯化钾去极化的稳态水平而开放。分泌中对TTX敏感的部分表明在氯化钾增强的动作电位活动期间钙内流有额外增加。这种钙内流的增加可能通过电压依赖性钙通道发生,其激活因动作电位中对TTX敏感的钠成分期间引起的电压变化而促进,并且可能通过钠通道本身。7. 在灌流的肾上腺髓质中,乙酰胆碱(ACh)刺激分泌在15微摩尔时达到最大反应的一半,在50微摩尔左右开始饱和。仅当ACh浓度为10微摩尔或更低时,释放才被TTX部分抑制。讨论了动作电位在ACh刺激的肾上腺素释放中的可能作用。
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