Aira Zigor, Barrenetxea Teresa, Buesa Itsaso, Azkue Jon Jatsu
Department of Neurosciences, School of Medicine and Dentistry, University of the Basque Country, PO Box 699, 48080 Bilbao, Spain.
Department of Neurosciences, School of Medicine and Dentistry, University of the Basque Country, PO Box 699, 48080 Bilbao, Spain.
Brain Res. 2015 Jan 12;1594:190-203. doi: 10.1016/j.brainres.2014.11.009. Epub 2014 Nov 15.
Interactions of opioid receptors with other receptor families can be made use of to improve analgesia and reduce adverse effects of opioid analgesics. We investigated interactions of the α2-adrenergic receptor (α2AR) with opioid receptors of the mu (MOR) and delta (DOR) types in the spinal dorsal horn in an animal model of neuropathic pain induced by spinal nerve ligation. Nine days after nerve injury, immunoreactivity for the α2AR subtype A (α2AAR) was increased both in tissue homogenates and at pre- and post-synaptic sites in transverse sections. The efficacy of spinally administered α2AAR agonist guanfacine at reducing C-fiber-evoked field potentials was increased in nerve-ligated rats. This reducing effect was impaired by simultaneous administration of DOR antagonist naltrindole, but not MOR antagonist CTOP, suggesting that concurrent DOR activation was required for α2AAR-mediated inhibition. While DOR agonist deltorphin II and MOR agonist DAMGO both effectively depressed C-fiber-evoked spinal field potentials, DOR- but not MOR-mediated depression was enhanced by subclinical guanfacine. In conscious, nerve-ligated rats, chronically administered deltorphin II produced stable thermal and mechanical antinociception over the 9 following days after nerve injury without apparent signs of habituation. Such an effect was dramatically enhanced by co-administration of a low dose of guanfacine, which reversed thermal and mechanical thresholds to levels near those prior to injury. The results suggest that spinal, α2AAR-mediated antinociception is increased after nerve injury and based on DOR co-activation. We demonstrate in vivo that α2AAR/DOR interaction can be exploited to provide effective behavioral antinociception during neuropathic pain.
阿片受体与其他受体家族的相互作用可用于改善镇痛效果并减少阿片类镇痛药的不良反应。我们在脊髓神经结扎诱导的神经性疼痛动物模型中,研究了脊髓背角中α2-肾上腺素能受体(α2AR)与μ型(MOR)和δ型(DOR)阿片受体的相互作用。神经损伤9天后,α2AR A亚型(α2AAR)的免疫反应性在组织匀浆以及横切面上的突触前和突触后位点均增加。在神经结扎的大鼠中,脊髓给予α2AAR激动剂胍法辛降低C纤维诱发的场电位的效果增强。同时给予DOR拮抗剂纳曲吲哚会削弱这种降低作用,但MOR拮抗剂CTOP则不会,这表明α2AAR介导的抑制作用需要同时激活DOR。虽然DOR激动剂二丙诺啡和MOR激动剂DAMGO均能有效抑制C纤维诱发的脊髓场电位,但亚临床剂量的胍法辛会增强DOR而非MOR介导的抑制作用。在清醒的神经结扎大鼠中,长期给予二丙诺啡在神经损伤后的接下来9天内产生稳定的热和机械性抗伤害感受,且无明显的耐受迹象。低剂量胍法辛的共同给药可显著增强这种效果,使热和机械阈值恢复到接近损伤前的水平。结果表明,脊髓中α2AAR介导的抗伤害感受在神经损伤后增强,且基于DOR的共同激活。我们在体内证明,α2AAR/DOR相互作用可用于在神经性疼痛期间提供有效的行为性抗伤害感受。
