Dubocovich M L, Langer S Z
Br J Pharmacol. 1980 Nov;70(3):383-93. doi: 10.1111/j.1476-5381.1980.tb08714.x.
1 The action of morphine, naturally occurring and synthetic opiate peptides on [3H]-noradrenaline release induced by nerve stimulation was studied in the isolated nerve muscle preparation of the cat nictitating membrane under experimental conditions in which the alpha-presynaptic receptors were blocked by phentolamine 1 microM. 2 Morphine and the naturally occurring peptides: [Met5]-enkephalin, [Leu5]-enkephalin and beta-endorphin reduced 3H-transmitter overflow and responses to nerve stimulation from the cat nictitating membrane, effects which were completely antagonized by naloxone 0.3 microM. The relative order of potency for the inhibition of the stimulation-induced 3H-transmitter overflow at the level of the IC50 (microM) was as follows: [Met5]-enkephalin (0.020 microM) greater than or equal to [Leu5]-enkephalin (0.036 microM) > morphine (0.3 microM) > beta-endorphin (1 microM). 3 The synthetic opiate pentapeptides: BW 180 C (Tyr-D-Ala-Gly-Phe-D-Leu), and BW834 C (Tyr-D-Ala-Gly-pClPhe-DLeu), which are resistant to enzymatic degradation were more potent than the enkephalins in reducing the stimulation-evoked transmitter overflow from the cat nictitating membrane. On the other hand, the tetrapeptide BW832 C, which lacks the D-leucine terminal of BW180 C l was less potent than the enkephalins in inhibiting neurotransmission. 4 In the presence of phenoxybenzamine 1 microM, 3H-transmitter overflow was increased 8 fold and the inhibition of neurotransmission by methionine-enkephalin was not affected. Exposure to phenoxybenzamine 10 microM increased [3H]-noradrenaline overflow 15 fold and antagonized the effects of methionine enkephalin on transmitter release. 5 In the cat nictitating membrane the inhibitory presynaptic opiate receptors are different from the presynaptic alpha-autoreceptors which regulate the release of noradrenaline elicited by nerve depolarization through a negative feed-back mechanism.
在实验条件下,使用1微摩尔酚妥拉明阻断α-突触前受体,研究了吗啡、天然存在的和合成的阿片肽对猫瞬膜分离神经肌肉标本中神经刺激诱导的[3H]-去甲肾上腺素释放的作用。
吗啡和天然存在的肽:[Met5]-脑啡肽、[Leu5]-脑啡肽和β-内啡肽减少了猫瞬膜的3H-递质溢出和对神经刺激的反应,这些作用被0.3微摩尔纳洛酮完全拮抗。在IC50(微摩尔)水平上抑制刺激诱导的3H-递质溢出的相对效力顺序如下:[Met5]-脑啡肽(0.020微摩尔)≥[Leu5]-脑啡肽(0.036微摩尔)>吗啡(0.3微摩尔)>β-内啡肽(1微摩尔)。
抗酶解的合成阿片五肽:BW 180 C(Tyr-D-Ala-Gly-Phe-D-Leu)和BW834 C(Tyr-D-Ala-Gly-pClPhe-DLeu)在减少猫瞬膜刺激诱发的递质溢出方面比脑啡肽更有效。另一方面,缺少BW180 C的D-亮氨酸末端的四肽BW832 C在抑制神经传递方面比脑啡肽效力更低。
在存在1微摩尔苯氧苄胺的情况下,3H-递质溢出增加了8倍,甲硫氨酸脑啡肽对神经传递的抑制作用不受影响。暴露于10微摩尔苯氧苄胺使[3H]-去甲肾上腺素溢出增加了15倍,并拮抗了甲硫氨酸脑啡肽对递质释放的作用。
在猫瞬膜中,抑制性突触前阿片受体不同于通过负反馈机制调节神经去极化引起的去甲肾上腺素释放的突触前α-自身受体。