Department of Neurosciences, School of Medicine, University of New Mexico Health Sciences Center, Albuquerque, NM 87131, USA.
Center for Molecular Discovery (CMD) Innovation, Discovery and Training Complex (IDTC), University of New Mexico Health Sciences Center, Albuquerque, NM 87131, USA.
Neurosci Lett. 2023 Sep 25;814:137419. doi: 10.1016/j.neulet.2023.137419. Epub 2023 Aug 7.
During the onset of neuropathic pain from a variety of etiologies, nociceptors become hypersensitized, releasing neurotransmitters and other factors from centrally-projecting nerve terminals within the dorsal spinal cord. Consequently, glial cells (astrocytes and microglia) in the spinal cord are activated and mediate the release of proinflammatory cytokines that act to enhance pain transmission and sensitize mechanical non-nociceptive fibers which ultimately results in light touch hypersensitivity, clinically observed as allodynia. Pramipexole, a D2/D3 preferring agonist, is FDA-approved for the treatment of Parkinson's disease and demonstrates efficacy in animal models of inflammatory pain. The clinical-stage investigational drug, R(+) enantiomer of pramipexole, dexpramipexole, is virtually devoid of D2/D3 agonist actions and is efficacious in animal models of inflammatory and neuropathic pain. The current experiments focus on the application of a mouse model of sciatic nerve neuropathy, chronic constriction injury (CCI), that leads to allodynia and is previously characterized to generate spinal glial activation with consequent release IL-1β. We hypothesized that both pramipexole and dexpramipexole reverse CCI-induced chronic neuropathy in mice, and in human monocyte cell culture studies (THP-1 cells), pramipexole prevents IL-1β production. Additionally, we hypothesized that in rat primary splenocyte culture, dexpramixole increases mRNA for the anti-inflammatory and pleiotropic cytokine, interleukin-10 (IL-10). Results show that following intravenous pramipexole or dexpramipexole, a profound decrease in allodynia was observed by 1 hr, with allodynia returning 24 hr post-injection. Pramipexole significantly blunted IL-1β protein production from stimulated human monocytes and dexpramipexole induced elevated IL-10 mRNA expression from rat splenocytes. The data support that clinically-approved compounds like pramipexole and dexpramipexole support their application as anti-inflammatory agents to mitigate chronic neuropathy, and provide a blueprint for future, multifaceted approaches for opioid-independent neuropathic pain treatment.
在各种病因引起的神经性疼痛发作期间,伤害感受器变得超敏,从中枢投射到脊髓背侧的神经末梢释放神经递质和其他因子。因此,脊髓中的神经胶质细胞(星形胶质细胞和小胶质细胞)被激活,并介导促炎细胞因子的释放,这些细胞因子增强疼痛传递,并使机械性非伤害性纤维敏化,最终导致轻触过敏,临床上观察到的表现为痛觉过敏。普拉克索是一种 D2/D3 受体优先激动剂,已被 FDA 批准用于治疗帕金森病,并在炎症性疼痛的动物模型中显示出疗效。处于临床阶段的研究性药物,普拉克索的 R(+)对映异构体 dexpramipexole,几乎没有 D2/D3 激动剂作用,在炎症性和神经性疼痛的动物模型中有效。目前的实验集中在应用坐骨神经神经病的小鼠模型,慢性缩窄性损伤(CCI),导致痛觉过敏,并以前面的特征产生脊髓神经胶质细胞激活,随之释放 IL-1β。我们假设普拉克索和 dexpramipexole 均可逆转 CCI 诱导的小鼠慢性神经病,并且在人类单核细胞细胞培养研究(THP-1 细胞)中,普拉克索可预防 IL-1β 的产生。此外,我们假设在大鼠原代脾细胞培养中,dexpramixole 增加抗炎和多效细胞因子白细胞介素-10(IL-10)的 mRNA。结果表明,静脉内给予普拉克索或 dexpramipexole 后,1 小时内观察到痛觉过敏显著降低,注射后 24 小时痛觉过敏恢复。普拉克索显著减弱了刺激的人单核细胞中 IL-1β 蛋白的产生,而 dexpramipexole 诱导了大鼠脾细胞中 IL-10 mRNA 的表达升高。数据支持像普拉克索和 dexpramipexole 这样的临床批准化合物可作为抗炎剂来减轻慢性神经病,为未来非阿片类神经性疼痛治疗的多方面方法提供了蓝图。
