CD137在小鼠神经性疼痛坐骨神经挤压模型后腰椎的星形细胞表达

Ling Cao, James Withers, Elizabeth N. Bean
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摘要

之前我们已经证明CD137-CD137配体(CD137L)在神经性疼痛的坐骨神经压迫(SNC)模型中介导前伤害性行为。与SNC后的WT小鼠相比,CD137L基因敲除(KO)小鼠和野生型(WT)小鼠在鞘内接受CD137L或CD137的中和抗体治疗后,表现出明显减少的神经性疼痛样行为和更快的功能恢复。为了确定脊髓中CD137和CD137L的细胞来源,进行了一系列免疫组织化学分析。虽然我们无法检测到CD137L的显著表达(部分原因是技术和生物学问题),但我们观察到CD137的表达仅与星形胶质细胞标记物胶质纤维酸性丝(GFAP)共定位。然后,我们对B6- cd137l KO和B6 WT小鼠腰脊髓背角区(与伤害性行为相关的区域)CD137的表达进行了时间过程研究。在SNC或假手术后的第7天至28天,WT小鼠的CD137表达(以综合密度表示)显著增加。CD137在KO小鼠中的表达在基线时略高于WT小鼠(但无统计学意义),并且在两种手术后没有随时间变化。当评估CD137的RNA表达时,尽管SNC诱导WT小鼠GFAP RNA表达显著上调,但在任何处理组或任何基因型小鼠中均未检测到CD137 RNA表达的变化。总之,我们报道了CD137在小鼠脊髓星形胶质细胞上的新表达。星形细胞CD137介导snc诱导的伤害性行为的潜在机制需要进一步研究。NIH/NINDS R01NS098426 (Cao)和Peter Caradonna来自NIH/NIGMS P20GM103643 (Meng)资助的COBRE组织学和成像核心。
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Astrocytic expression of CD137 in the lumbar spinal cord following sciatic nerve crush model of neuropathic pain in mice
Previously we have shown that CD137–CD137 ligand (CD137L) mediates pro-nociceptive behaviors in the sciatic nerve crush (SNC) model of neuropathic pain. Global CD137L knockout (KO) mice and wildtype (WT) mice intrathecally treated with neutralizing antibody against either CD137L or CD137 displayed significantly reduced neuropathic pain-like behaviors and faster functional recovery compared to WT mice following SNC. To identify the cellular sources of CD137 and CD137L in the spinal cord, a series of immunohistochemistry analyses was performed. While we could not detect significant expression of CD137L (in part due to both technical and biological issues), we observed CD137 expression exclusively co-localized with astrocytic marker glial fibrillary acidic filament (GFAP). We then conducted a time course study of CD137 expression in the lumbar spinal cord dorsal horn region, the region relevant to nociceptive behaviors, in B6-CD137L KO and B6 WT mice. Significant increases in CD137 expression (represented by integrated density) were observed in WT mice from days 7 to 28 following either SNC or sham surgery. The expression of CD137 in KO mice was slightly (however not statistically significantly) higher than that in WT mice at baseline, and did not change overtime post-either surgery. When RNA expression of CD137 was evaluated, although SNC induced significant upregulation of GFAP RNA expression in WT mice, no changes in CD137 RNA expression were detected in any treatment groups or any genotype of mice. Altogether, we report a novel expression of CD137 on murine spinal cord astrocytes. The underlying mechanism through which astrocytic CD137 mediates SNC-induced nociceptive behavior requires further investigation. NIH/NINDS R01NS098426 (Cao) and Peter Caradonna from the COBRE Histology and Imaging Core funded by NIH/NIGMS P20GM103643 (Meng).
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