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对哺乳动物生物钟进行药物靶向研究发现了一种治疗骨关节炎所致疼痛的新型镇痛药。

Pharmacological targeting of the mammalian clock reveals a novel analgesic for osteoarthritis-induced pain.

作者信息

Das Vaskar, Kc Ranjan, Li Xin, Varma Disha, Qiu Sujun, Kroin Jeffrey S, Forsyth Christopher B, Keshavarzian Ali, van Wijnen Andre J, Park Thomas J, Stein Gary S, O-Sullivan Insug, Burris Thomas P, Im Hee-Jeong

机构信息

Department of Anesthesiology, Rush University Medical Center, Chicago, IL, USA; Department of Biochemistry, Rush University Medical Center, Chicago, IL, USA.

Department of Biochemistry, Rush University Medical Center, Chicago, IL, USA.

出版信息

Gene. 2018 May 20;655:1-12. doi: 10.1016/j.gene.2018.02.048. Epub 2018 Feb 20.

Abstract

Environmental disruption of the circadian rhythm is linked with increased pain due to osteoarthritis (OA). We aimed to characterize the role of the clock gene in OA-induced pain more systemically using both genetic and pharmacological approaches. Genetically modified mice, (bmal1f/fNav1.8CreERT mice), generated by deleting the critical clock gene, bmal1, from Nav1.8 sensory neurons, were resistant to the development of mechanical hyperalgesia associated with OA induced by partial medial meniscectomy (PMM) of the knee. In wild-type mice, induction of OA by PMM surgery led to a substantial increase in BMAL1 expression in DRG neurons. Interestingly, pharmacological activation of the REV-ERB (a negative regulator of bmal1 transcription) with SR9009 resulted in reduction of BMAL1 expression, and a significant decrease in mechanical hyperalgesia associated with OA. Cartilage degeneration was also significantly reduced in mice treated with the REV-ERB agonist SR9009. Based on these data, we also assessed the effect of pharmacological activation of REV-ERB using a model of environmental circadian disruption with its associated mechanical hyperalgesia, and noted that SR9009 was an effective analgesic in this model as well. Our data clearly demonstrate that genetic disruption of the molecular clock, via deletion of bmal1 in the sensory neurons of the DRG, decreases pain in a model of OA. Furthermore, pharmacological activation of REV-ERB leading to suppression of BMAL1 expression may be an effective method for treating OA-related pain, as well as to reduce joint damage associated with this disease.

摘要

昼夜节律的环境紊乱与骨关节炎(OA)导致的疼痛加剧有关。我们旨在通过基因和药理学方法更系统地表征时钟基因在OA诱导疼痛中的作用。通过从Nav1.8感觉神经元中删除关键时钟基因bmal1而产生的转基因小鼠(bmal1f/fNav1.8CreERT小鼠)对膝关节部分内侧半月板切除术(PMM)诱导的与OA相关的机械性痛觉过敏的发展具有抗性。在野生型小鼠中,PMM手术诱导OA导致DRG神经元中BMAL1表达大幅增加。有趣的是,用SR9009对REV-ERB(bmal1转录的负调节因子)进行药理学激活导致BMAL1表达降低,以及与OA相关的机械性痛觉过敏显著降低。用REV-ERB激动剂SR9009治疗的小鼠软骨退变也显著减少。基于这些数据,我们还使用环境昼夜节律紊乱及其相关机械性痛觉过敏模型评估了REV-ERB药理学激活的效果,并注意到SR9009在该模型中也是一种有效的镇痛药。我们的数据清楚地表明,通过在DRG感觉神经元中删除bmal1对分子时钟进行基因破坏,可减轻OA模型中的疼痛。此外,导致BMAL1表达受抑制的REV-ERB药理学激活可能是治疗OA相关疼痛以及减少与该疾病相关的关节损伤的有效方法。

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