Yu Li-Na, Sun Li-Hong, Wang Min, Wang Lie-Ju, Wu Ying, Yu Jing, Wang Wen-Na, Zhang Feng-Jiang, Li Xue, Yan Min
Department of Anesthesiology, The Second Affiliated Hospital, School of Medicine, Zhejiang University, Hangzhou, China.
Jiangsu Province Key Laboratory of Anesthesiology, Jiangsu Province Key Laboratory of Anesthesia and Analgesia Application Technology, Xuzhou Medical University, Xuzhou, China.
Pain Physician. 2017 May;20(4):E563-E574.
There are numerous studies implicating that EphB receptors and ephrinB ligands play important roles in modulating the transduction of spinal nociceptive information. EphrinB-EphB signaling may contribute to hyperalgesia via various kinds of downstream molecules, the mechanisms of which have not been completely understood.
The aim of the present study was to identify whether ephrinB-EphB signaling could contribute to hyperalgesia through ERK5/CREB pathway.
Controlled animal study.
University laboratory.
This study attempted to detect the changes of pain behaviors and the protein level of p-ERK5 and p-CREB by activating EphB receptors in the spinal cord of rats. To further confirm our hypothesis, we designed LV-siRNA for knockdown of spinal ERK5. When ERK5 was inhibited, we recorded the changes of spinal p-CREB expression and the pain behaviors of rats after activating EphB receptors. We also confirmed this conclusion in rat CCI model. Statistical analyses were performed using GraphPad Prism 5.
Intrathecal injection of ephrinB2-Fc in rats evoked thermal hyperalgesia and mechanical allodynia, along with activation of ERK5 and CREB in the spinal cord. Knockdown of ERK5 inhibited ephrinB2-Fc-induced CREB activation and hyperalgesia. Blocking EphB receptors prevented CCI-induced neuropathic pain and spinal ERK5/CREB activation.
More underlying mechanisms that underlie the relationship between ephrinB-EphB signaling and ERK5/CREB pathway will need to be explored in future studies.
Our study suggests that ERK5/CREB pathway plays important roles in the transduction of nociceptive information associated with ephrinB-EphB signaling. This study provides further understanding of the downstream mechanisms of ephrinB-EphB signaling and helps to explore new targets for treating pathological pain.
大量研究表明,EphB受体和ephrinB配体在调节脊髓伤害性信息转导中发挥重要作用。EphrinB-EphB信号传导可能通过各种下游分子导致痛觉过敏,但其机制尚未完全明确。
本研究旨在确定EphrinB-EphB信号传导是否可通过ERK5/CREB途径导致痛觉过敏。
对照动物研究。
大学实验室。
本研究试图通过激活大鼠脊髓中的EphB受体来检测疼痛行为以及p-ERK5和p-CREB的蛋白水平变化。为进一步证实我们的假设,我们设计了LV-siRNA以敲低脊髓中的ERK5。当ERK5被抑制时,我们记录了激活EphB受体后大鼠脊髓p-CREB表达的变化和疼痛行为。我们还在大鼠CCI模型中证实了这一结论。使用GraphPad Prism 5进行统计分析。
鞘内注射ephrinB2-Fc可引起大鼠热痛觉过敏和机械性异常性疼痛,并伴随脊髓中ERK5和CREB的激活。敲低ERK5可抑制ephrinB2-Fc诱导的CREB激活和痛觉过敏。阻断EphB受体可预防CCI诱导的神经性疼痛和脊髓ERK5/CREB激活。
未来的研究需要探索EphrinB-EphB信号传导与ERK5/CREB途径之间关系的更多潜在机制。
我们的研究表明,ERK5/CREB途径在与EphrinB-EphB信号传导相关的伤害性信息转导中起重要作用。本研究进一步阐明了EphrinB-EphB信号传导的下游机制,并有助于探索治疗病理性疼痛的新靶点。
