合成大麻素CP-55,940慢性治疗可改变大鼠中枢神经系统中g蛋白的表达。

T Rubino, G Patrini, M Parenti, P Massi, D Parolaro
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引用次数: 0

摘要

大鼠长期暴露于合成大麻素受体配体CP-55,940 (0.4 mg/kg, ig 11天),诱导对镇痛的耐受性,减少自发运动活动和后肢伸展的发生率。第11天末次注射后1小时处死大鼠,采用原位杂交法观察处理对全脑g蛋白α亚基表达的影响。慢性大麻素暴露显著降低G α (s)、G α (i)和G α (o) mRNA水平。在所有含有基底放射自显像信号的脑区,α (s)-亚基的信息都减少了;丘脑减少了25%,中脑减少了45%。此外,耐受大鼠的基础G α (i)表达减少,其中前脑(63%)、小脑(58%)和中脑(38%)的减少幅度最大。G α (o)表达减少(25%)更为局部化,仅存在于大脑的吻侧部分(皮层、纹状体和嗅觉区)。α -亚基基因表达的改变并没有引起蛋白质数量的变化。我们的研究结果表明,除了受体修饰外,g蛋白表达的改变可能是与大麻素耐受性发展相关的分子事件。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Chronic treatment with a synthetic cannabinoid CP-55,940 alters G-protein expression in the rat central nervous system.

Prolonged exposure of rats to the synthetic cannabinoid receptor ligand, CP-55,940 (0.4 mg/kg, i.p. for 11 days), induced tolerance to analgesia, to the reduction in spontaneous locomotor activity and the incidence of splayed hind limbs. One hour after the last injection on day 11, the rats were killed and in situ hybridization was used to investigate the effect of treatment on G-protein alpha-subunit expression throughout the brain. Chronic cannabinoid exposure markedly reduced G alpha(s), G alpha(i) and G alpha(o) mRNA levels. The message for the alpha(s)-subunit was decreased in all the brain areas containing the basal autoradiographic signal; the decrease ranging from 25% in the thalamus to 45% in the mesencephalon. Also the basal G alpha(i) expression was reduced in tolerant rats showing the greatest decrease in the forebrain (63%) in the cerebellum (58%) and in the mesencephalon (38%). The reduction in G alpha(o) expression (25%) was more localized, being present only in the rostral portion of the brain (cortex, striatum and olfactory area). The alterations in alpha-subunits gene expression were not followed by any change in the amount of proteins. Our results indicate that, besides the receptor modification, alteration to the G-protein expression could be a molecular event associated with the development of cannabinoid tolerance.

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