地塞米松诱导的对中枢μ阿片受体的选择性抑制:啮齿动物体内和体外的功能证据
Dexamethasone-induced selective inhibition of the central mu opioid receptor: functional in vivo and in vitro evidence in rodents.
作者信息
Pieretti S, Di Giannuario A, Domenici M R, Sagratella S, Capasso A, Sorrentino L, Loizzo A
机构信息
Istituto Superiore di Sanita, Roma, Italy.
出版信息
Br J Pharmacol. 1994 Dec;113(4):1416-22. doi: 10.1111/j.1476-5381.1994.tb17155.x.
Abstract
- Endogenous corticosteroids and opioids are involved in many functions of the organism, including analgesia, cerebral excitability, stress and others. Therefore, we considered it important to gain information on the functional interaction between corticosteroids and specific opioid receptor subpopulations. 2. We have found that systemic administration (i.p.) of the potent synthetic corticosteroid, dexamethasone, reduced the antinociception induced by the highly selective mu agonist, DAMGO or by less selective mu agonists morphine and beta-endorphin administered i.c.v.. On the contrary dexamethasone exerted little or no influence on the antinociception induced by a delta 1 agonist, DPDPE and a delta 2 agonist deltorphin II. Dexamethasone potentiated the antinociception induced by the kappa agonist, U50,488. 3. In experiments performed in an in vitro model of cerebral excitability in the rat hippocampal slice, dexamethasone strongly prevented both the increase of the duration of the field potential recorded in CA1, and the appearance and number of additional population spikes induced by mu receptor agonists. 4. In both models pretreatment with cycloheximide, a protein synthesis inhibitor, prevented the antagonism by dexamethasone of responses to the mu opioid agonists. 5. Our data indicate that in the rodent brain there is an important functional interaction between the corticosteroid and the opioid systems at least at the mu receptor level, while delta and kappa receptors are modulated in different ways.
摘要
- 内源性皮质类固醇和阿片类物质参与机体的多种功能,包括镇痛、大脑兴奋性、应激等。因此,我们认为获取有关皮质类固醇与特定阿片受体亚群之间功能相互作用的信息很重要。2. 我们发现,强效合成皮质类固醇地塞米松经腹腔注射全身给药后,可降低高选择性μ激动剂DAMGO或经脑室内注射的选择性较低的μ激动剂吗啡和β-内啡肽所诱导的抗伤害感受作用。相反,地塞米松对δ1激动剂DPDPE和δ2激动剂强啡肽II所诱导的抗伤害感受作用几乎没有影响。地塞米松增强了κ激动剂U50,488所诱导的抗伤害感受作用。3. 在大鼠海马切片脑兴奋性体外模型实验中,地塞米松强烈抑制了CA1区记录的场电位持续时间的增加以及μ受体激动剂诱导的额外群体峰电位的出现和数量。4. 在这两种模型中,用蛋白质合成抑制剂环己酰亚胺预处理可防止地塞米松对μ阿片受体激动剂反应的拮抗作用。5. 我们的数据表明,在啮齿动物脑中,皮质类固醇和阿片系统之间至少在μ受体水平存在重要的功能相互作用,而δ和κ受体则以不同方式受到调节。
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