Artalejo C R, Garcia A G
Br J Pharmacol. 1986 Aug;88(4):757-65. doi: 10.1111/j.1476-5381.1986.tb16248.x.
Calcium ionophore A23187 increases the rate of spontaneous catecholamine release from cat adrenal glands perfused at 37 degrees C with oxygenated Krebs bicarbonate solution, in a time- and Ca-concentration-dependent manner. The secretory profile obtained with the ionophore was not modified in the presence of the Ca channel activator Bay K 8644. Ouabain also enhanced the rate of spontaneous catecholamine outputs in a time- and concentration-dependent manner. The threshold ouabain concentration capable of producing a clear, yet delayed secretory response was 10(-6) M. Increasing ouabain concentrations up to 10(-4) M enhanced catecholamine release and shortened the time to peak release. The dihydropyridine Ca channel activator Bay K 8644 (10(-6) M) markedly potentiated the secretory effects of all ouabain concentrations used (10(-7)-10(-4) M). However, the most impressive potentiations were seen at 10(-5)M ouabain; while at this concentration ouabain alone released 2.6 +/- 0.07 micrograms catecholamines per 30 min, in the presence of Bay K 8644 the release was 73.4 +/- 5.7 micrograms per 30 min. Conversely, at a fixed ouabain concentration (10(-5) M), the potentiation was also dependent on the Bay K 8644 concentration (10(-8)-10(-5) M). Although K deprivation inhibits Na pumping as does ouabain, Bay K 8644 did not modify the rate of catecholamine release evoked by K removal from the perfusion medium. Potassium deletion, nimodipine or high Mg all reversed the fully developed secretory response evoked by ouabain plus Bay K 8644. In glands depolarized by continuous perfusion with high K solutions, once the secretory response was inactivated, the introduction of ouabain caused an enhancement of the catecholamine secretory rate. This increase was dependent on the extracellular Na concentration and was not affected by Bay K 8644. In the presence of 6 mm Na the secretory effects of Bay K 8644 plus ouabain were abolished. 7 These results are compatible with the following conclusions: (i) Bay K 8644 potentiates only those catecholamine secretory responses that are known to be mediated through the activation of voltagesensitive Ca channels; the drug does not seem to affect secretory responses by acting on the membrane Na/Ca exchange system or at some intracellular Ca-dependent component of the secretory machinery of Ca buffering systems. (ii) It is likely that ouabain enhances the rates of adrenal catecholamine release by a dual mechanism: chromaffin cell depolarization and activation of a membrane Na/Ca exchange system.
钙离子载体A23187能以时间和钙离子浓度依赖的方式,提高在37℃用含氧的 Krebs 碳酸氢盐溶液灌注的猫肾上腺中儿茶酚胺的自发释放速率。在存在钙通道激活剂Bay K 8644的情况下,用离子载体获得的分泌模式未被改变。哇巴因也以时间和浓度依赖的方式提高了儿茶酚胺的自发输出速率。能够产生明显但延迟的分泌反应的哇巴因阈值浓度为10^(-6) M。将哇巴因浓度增加至10^(-4) M可增强儿茶酚胺释放并缩短释放峰值时间。二氢吡啶类钙通道激活剂Bay K 8644(10^(-6) M)显著增强了所有所用哇巴因浓度(10^(-7)-10^(-4) M)的分泌作用。然而,在10^(-5)M哇巴因时观察到最显著的增强作用;在此浓度下,单独使用哇巴因时每30分钟释放2.6±0.07微克儿茶酚胺,在Bay K 8644存在时,释放量为每30分钟73.4±5.7微克。相反,在固定的哇巴因浓度(10^(-5) M)下,增强作用也取决于Bay K 8644的浓度(10^(-8)-10^(-5) M)。尽管钾缺乏与哇巴因一样抑制钠泵,但Bay K 8644并未改变从灌注培养基中去除钾所诱发的儿茶酚胺释放速率。钾缺失、尼莫地平或高镁均可逆转哇巴因加Bay K 8644所诱发的完全发展的分泌反应。在用高钾溶液持续灌注使腺体去极化的情况下,一旦分泌反应失活,引入哇巴因会导致儿茶酚胺分泌速率增强。这种增加依赖于细胞外钠浓度,且不受Bay K 8644影响。在存在6 mM钠的情况下,Bay K 8644加哇巴因的分泌作用被消除。这些结果与以下结论相符:(i)Bay K 8644仅增强那些已知通过电压敏感性钙通道激活介导的儿茶酚胺分泌反应;该药物似乎不会通过作用于膜钠/钙交换系统或分泌机制或钙缓冲系统的某些细胞内钙依赖性成分来影响分泌反应。(ii)哇巴因可能通过双重机制提高肾上腺儿茶酚胺释放速率:嗜铬细胞去极化和膜钠/钙交换系统的激活。