运动神经末梢的钙电流:腺苷受体激动剂对青蛙无作用
Calcium currents at motor nerve endings: absence of effects of adenosine receptor agonists in the frog.
作者信息
Silinsky E M, Solsona C S
机构信息
Department of Pharmacology, Northwestern University Medical School, Chicago, IL 60611.
出版信息
J Physiol. 1992 Nov;457:315-28. doi: 10.1113/jphysiol.1992.sp019380.
Abstract
- The effects of adenosine (50 microM) and 2-chloroadenosine (1-25 microM) were studied on Ca2+ currents in frog motor nerve endings. 2. Ca2+ currents associated with the synchronous, neurally evoked release of acetylcholine (ACh) were measured using either perineural or patch recording methods. Tetraethylammonium and/or 3,4-diaminopyridine were employed to block K+ currents. 3. Ca2+ currents were depressed by omega-conotoxin (1.5-2.5 microM), Cd2+ (100 microM-2 mM), Co2+ (500 microM-5 mM) or by a reduction of the extracellular calcium concentration. Such currents were also observed when Sr2+ was substituted for Ca2+. Both ACh release and Ca2+ currents at motor nerve endings have been reported to be insensitive to 1,4-dihydropyridine antagonists in this species. 4. Adenosine receptor agonists did not affect Ca2+ currents at concentrations that produced maximal inhibition of ACh release. 5. The effects of adenosine receptor agonists were examined on asynchronous K(+)-dependent ACh release under conditions in which the Ca2+ concentration gradient is likely to be reversed (Ca(2+)-free Ringer solution containing 1 mM EGTA). ACh release was measured by monitoring the frequency of occurrence of miniature endplate potentials (MEPPs). In Ca(2+)-free solutions containing 1 mM EGTA, high K+ depolarization caused a decrease in MEPP frequency, presumably because it elicits the efflux of Ca2+ from the nerve ending via membrane Ca2+ channels in a reverse Ca2+ gradient. 6. The Ca2+ channel blocker Co2+, which blocks the exit of Ca2+ from the nerve ending, increased the frequency of MEPPs in a concentration-dependent manner in a reverse Ca2+ gradient. 7. Adenosine or 2-chloroadenosine inhibited ACh release in a reverse Ca2+ gradient. 8. The results suggest that blockade of Ca2+ entry is not responsible for the inhibitory effects of adenosine at frog motor nerve endings.
摘要
- 研究了腺苷(50微摩尔)和2 - 氯腺苷(1 - 25微摩尔)对蛙运动神经末梢Ca2+电流的影响。2. 使用神经周围或膜片钳记录方法测量与神经诱发的乙酰胆碱(ACh)同步释放相关的Ca2+电流。采用四乙铵和/或3,4 - 二氨基吡啶阻断K+电流。3. ω - 芋螺毒素(1.5 - 2.5微摩尔)、Cd2+(100微摩尔 - 2毫摩尔)、Co2+(500微摩尔 - 5毫摩尔)或细胞外钙浓度降低可使Ca2+电流降低。当用Sr2+替代Ca2+时也观察到这种电流。据报道,在该物种中,运动神经末梢的ACh释放和Ca2+电流对1,4 - 二氢吡啶拮抗剂不敏感。4. 腺苷受体激动剂在产生最大程度抑制ACh释放的浓度下不影响Ca2+电流。5. 在Ca2+浓度梯度可能反转的条件下(含1毫摩尔乙二醇双四乙酸的无Ca2+林格液),研究了腺苷受体激动剂对异步K+依赖性ACh释放的影响。通过监测微小终板电位(MEPPs)的出现频率来测量ACh释放。在含1毫摩尔乙二醇双四乙酸的无Ca2+溶液中,高K+去极化导致MEPP频率降低,推测是因为它通过反向Ca2+梯度使Ca2+从神经末梢经膜Ca2+通道外流。6. 阻断Ca2+从神经末梢流出的Ca2+通道阻滞剂Co2+,在反向Ca2+梯度中以浓度依赖性方式增加MEPP频率。7. 腺苷或2 - 氯腺苷在反向Ca2+梯度中抑制ACh释放。8. 结果表明,Ca2+内流的阻断不是腺苷对蛙运动神经末梢产生抑制作用的原因。
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