大麻素受体激动剂在神经病理性疼痛大鼠模型中的镇痛和抗炎作用。

Analgesic and antiinflammatory effects of cannabinoid receptor agonists in a rat model of neuropathic pain.

机构信息

Animal Physiology, Biology and Biotechnology, ND5/132, Ruhr-University Bochum, 44780, Bochum, Germany.

出版信息

Naunyn Schmiedebergs Arch Pharmacol. 2009 Jun;379(6):627-36. doi: 10.1007/s00210-008-0386-4. Epub 2009 Jan 18.

PMID:19152053

Abstract

Cannabinoid receptor (CB) agonists are known to attenuate allodynia in a range of pain models, but their long-term effects and their mechanisms of action are controversial. The present study compares the antiallodynic effects of long-term treatment with a mixed CB1/CB2 (WIN55,212-2) and a selective CB2 (GW405833) cannabinoid receptor agonist and correlates these effects with their influences on spinal cord (SC) glial activation. The substances were applied daily in a rat neuropathic pain model. Tactile allodynia was assessed, and the development of gliosis was illustrated with immunohistochemical methods. Both substances reduced mechanical allodynia. Their analgesic effect was accompanied by a significant reduction in reactive gliosis and cathepsins (CAT) X and S expression. A daily injection of either substance for 8 days was sufficient to induce a sustained antiallodynic effect, which persisted up to 6 days after the last injection. The re-appearance of mechanical allodynia after this period was associated with a breakout of a strong gliotic response in the lumbar SC. Our results emphasize the therapeutic efficacy of cannabinoid receptor agonists and their inhibitory effects on the formation of gliosis.

摘要

大麻素受体 (CB) 激动剂已知可减轻多种疼痛模型中的痛觉过敏，但它们的长期效果及其作用机制存在争议。本研究比较了长期治疗混合 CB1/CB2（WIN55,212-2）和选择性 CB2（GW405833）大麻素受体激动剂的抗痛觉过敏作用，并将这些作用与它们对脊髓 (SC) 神经胶质激活的影响相关联。这些物质在大鼠神经性疼痛模型中每天应用。触觉痛觉过敏通过免疫组织化学方法评估，神经胶质增生的发展。两种物质均减轻机械性痛觉过敏。它们的镇痛作用伴随着反应性神经胶质增生和组织蛋白酶 (CAT) X 和 S 表达的显著减少。每天注射任何一种物质 8 天足以引起持续的抗痛觉过敏作用，这种作用持续到最后一次注射后 6 天。在此期间机械性痛觉过敏再次出现与腰椎 SC 中强烈的神经胶质反应爆发有关。我们的结果强调了大麻素受体激动剂的治疗效果及其对神经胶质形成的抑制作用。

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大麻素受体激动剂在神经病理性疼痛大鼠模型中的镇痛和抗炎作用。

Analgesic and antiinflammatory effects of cannabinoid receptor agonists in a rat model of neuropathic pain.

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