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趋化因子CXCL13通过趋化因子受体CXCR5驱动脊髓星形胶质细胞活化和神经性疼痛。

CXCL13 drives spinal astrocyte activation and neuropathic pain via CXCR5.

作者信息

Jiang Bao-Chun, Cao De-Li, Zhang Xin, Zhang Zhi-Jun, He Li-Na, Li Chun-Hua, Zhang Wen-Wen, Wu Xiao-Bo, Berta Temugin, Ji Ru-Rong, Gao Yong-Jing

出版信息

J Clin Invest. 2016 Feb;126(2):745-61. doi: 10.1172/JCI81950. Epub 2016 Jan 11.

DOI:10.1172/JCI81950
PMID:26752644
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4731172/
Abstract

Recent studies have implicated chemokines in microglial activation and pathogenesis of neuropathic pain. C-X-C motif chemokine 13 (CXCL13) is a B lymphocyte chemoattractant that activates CXCR5. Using the spinal nerve ligation (SNL) model of neuropathic pain, we found that CXCL13 was persistently upregulated in spinal cord neurons after SNL, resulting in spinal astrocyte activation via CXCR5 in mice. shRNA-mediated inhibition of CXCL13 in the spinal cord persistently attenuated SNL-induced neuropathic pain. Interestingly, CXCL13 expression was suppressed by miR-186-5p, a microRNA that colocalized with CXCL13 and was downregulated after SNL. Spinal overexpression of miR-186-5p decreased CXCL13 expression, alleviating neuropathic pain. Furthermore, SNL induced CXCR5 expression in spinal astrocytes, and neuropathic pain was abrogated in Cxcr5-/- mice. CXCR5 expression induced by SNL was required for the SNL-induced activation of spinal astrocytes and microglia. Intrathecal injection of CXCL13 was sufficient to induce pain hypersensitivity and astrocyte activation via CXCR5 and ERK. Finally, intrathecal injection of CXCL13-activated astrocytes induced mechanical allodynia in naive mice. Collectively, our findings reveal a neuronal/astrocytic interaction in the spinal cord by which neuronally produced CXCL13 activates astrocytes via CXCR5 to facilitate neuropathic pain. Thus, miR-186-5p and CXCL13/CXCR5-mediated astrocyte signaling may be suitable therapeutic targets for neuropathic pain.

摘要

最近的研究表明趋化因子与小胶质细胞活化及神经性疼痛的发病机制有关。C-X-C基序趋化因子13(CXCL13)是一种激活CXCR5的B淋巴细胞趋化因子。利用神经性疼痛的脊髓神经结扎(SNL)模型,我们发现SNL后脊髓神经元中CXCL13持续上调,通过CXCR5导致小鼠脊髓星形胶质细胞活化。脊髓中shRNA介导的CXCL13抑制持续减轻SNL诱导的神经性疼痛。有趣的是,CXCL13表达受到miR-186-5p的抑制,miR-186-5p是一种与CXCL13共定位且在SNL后下调的微小RNA。脊髓中miR-186-5p的过表达降低CXCL13表达,减轻神经性疼痛。此外,SNL诱导脊髓星形胶质细胞中CXCR5表达,且在Cxcr5-/-小鼠中神经性疼痛被消除。SNL诱导的CXCR5表达是SNL诱导的脊髓星形胶质细胞和小胶质细胞活化所必需的。鞘内注射CXCL13足以通过CXCR5和ERK诱导疼痛超敏反应和星形胶质细胞活化。最后,鞘内注射CXCL13激活的星形胶质细胞在未处理的小鼠中诱导机械性异常性疼痛。总体而言,我们的研究结果揭示了脊髓中神经元/星形胶质细胞的相互作用,通过这种相互作用神经元产生的CXCL13通过CXCR5激活星形胶质细胞以促进神经性疼痛。因此,miR-186-5p和CXCL13/CXCR5介导的星形胶质细胞信号传导可能是神经性疼痛合适的治疗靶点。

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