腺苷对去甲肾上腺素释放的抑制作用。
Inhibition of noradrenaline release by adenosine.
作者信息
Wakade A R, Wakade T D
出版信息
J Physiol. 1978 Sep;282:35-49. doi: 10.1113/jphysiol.1978.sp012446.
Abstract
- Release of [3H]noradrenaline evoked by stimulation (5 Hz) of the pre-labelled rat vas deferens was reduced to 50% by adenosine (10(-6) g/ml.). Inhibition of release was dependent on the concentration of adenosine and was inversely related to the frequency of stimulation. Phenoxybenzamine did not interfere with the action of adenosine on release. 2. Exposure of the pre-labelled rat vas deferens to 135 mM-K+ released almost 10 times more [3H]noradrenaline than exposure to 45 mM-K+. Release induced by 45 mM-K+ was almost abolished by adenosine (10(-6) g/ml.) but that induced by 135 mM-K+ was reduced to only 45%. 3. Inhibition of [3H]noradrenaline release was observed in salivary gland, heart and portal vein of the rat, and in the guinea-pig heart and vas deferens. A very high concentration of adenosine (10(-4) g/ml.) reduced the release (about 50%) in the rabbit heart, but the cat heart was totally insensitive to the inhibitory action of adenosine. 4. Aminophylline (2 x 10(-4) g/ml.) antagonized the inhibitory action of adenosine (10(-6) g/ml.) on the release of [3H]noradrenaline in the phenoxybenzamine-treated vas deferens. 5. Tetraethylammonium (8 x 10(-4) g/ml.) enhanced stimulation-evoked release in the rat salivary gland by almost tenfold. In the presence of tetraethylammonium, even higher concentrations (2 x 10(-5) g/ml.) of adenosine failed to interfere with release. 6. Elevation of external K+ (19 mM) blocked stimulation-evoked release in the rat vas deferens by about 55%. Combination of high K+ and adenosine (10(-6) g/ml.), which blocked release by about 40%, caused still greater inhibition (80%) of the release. 7. The possible mechanism of action of the inhibitory effect of adenosine on the stimulation-evoked release of noradrenaline is discussed in relation to the calcium hypothesis.
摘要
- 预先标记的大鼠输精管经5Hz刺激诱发的[3H]去甲肾上腺素释放,被腺苷(10(-6)g/ml)降低至50%。释放的抑制作用取决于腺苷的浓度,且与刺激频率呈负相关。酚苄明不干扰腺苷对释放的作用。2. 预先标记的大鼠输精管暴露于135mM-K+时释放的[3H]去甲肾上腺素几乎是暴露于45mM-K+时的10倍。45mM-K+诱导的释放几乎被腺苷(10(-6)g/ml)消除,但135mM-K+诱导的释放仅降低至45%。3. 在大鼠的唾液腺、心脏和门静脉,以及豚鼠的心脏和输精管中均观察到[3H]去甲肾上腺素释放的抑制。非常高浓度的腺苷(10(-4)g/ml)使兔心脏的释放降低(约50%),但猫心脏对腺苷的抑制作用完全不敏感。4. 氨茶碱(2×10(-4)g/ml)拮抗腺苷(10(-6)g/ml)对酚苄明处理的输精管中[3H]去甲肾上腺素释放的抑制作用。5. 四乙铵(8×10(-4)g/ml)使大鼠唾液腺中刺激诱发的释放增强近10倍。在有四乙铵存在的情况下,即使更高浓度(2×10(-5)g/ml)的腺苷也无法干扰释放。6. 细胞外K+升高(19mM)使大鼠输精管中刺激诱发的释放阻断约55%。高K+与腺苷(10(-6)g/ml)联合使用时,单独使用时分别阻断释放约40%,二者联合导致释放的抑制作用更强(8%)。7. 结合钙假说讨论了腺苷对刺激诱发的去甲肾上腺素释放的抑制作用的可能作用机制。
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