巨噬细胞/小胶质细胞激活的特征及光生物调节在神经病理性疼痛 spared 神经损伤模型中的作用
Characterization of Macrophage/Microglial Activation and Effect of Photobiomodulation in the Spared Nerve Injury Model of Neuropathic Pain.
作者信息
Kobiela Ketz Ann, Byrnes Kimberly R, Grunberg Neil E, Kasper Christine E, Osborne Lisa, Pryor Brian, Tosini Nicholas L, Wu Xingjia, Anders Juanita J
机构信息
Center for Nursing Science and Clinical Inquiry, Landstuhl Regional Medical Center, Landstuhl, Germany.
Anatomy, Physiology & Genetics, The Uniformed Services University of the Health Sciences, Bethesda, MD, USA.
出版信息
Pain Med. 2017 May 1;18(5):932-946. doi: 10.1093/pm/pnw144.
OBJECTIVE
Neuropathic pain is common and debilitating with limited effective treatments. Macrophage/microglial activation along ascending somatosensory pathways following peripheral nerve injury facilitates neuropathic pain. However, polarization of macrophages/microglia in neuropathic pain is not well understood. Photobiomodulation treatment has been used to decrease neuropathic pain, has anti-inflammatory effects in spinal injury and wound healing models, and modulates microglial polarization in vitro. Our aim was to characterize macrophage/microglia response after peripheral nerve injury and modulate the response with photobiomodulation.
METHODS
Adult male Sprague-Dawley rats were randomly assigned to sham (N = 13), spared nerve injury (N = 13), or injury + photobiomodulation treatment groups (N = 7). Mechanical hypersensitivity was assessed with electronic von Frey. Photobiomodulation (980 nm) was applied to affected hind paw (output power 1 W, 20 s, 41cm above skin, power density 43.25 mW/cm 2 , dose 20 J), dorsal root ganglia (output power 4.5W, 19s, in skin contact, power density 43.25 mW/cm 2 , dose 85.5 J), and spinal cord regions (output power 1.5 W, 19s, in skin contact, power density 43.25 mW/cm 2 , dose 28.5 J) every other day from day 7-30 post-operatively. Immunohistochemistry characterized macrophage/microglial activation.
RESULTS
Injured groups demonstrated mechanical hypersensitivity 1-30 days post-operatively. Photobiomodulation-treated animals began to recover after two treatments; at day 26, mechanical sensitivity reached baseline. Peripheral nerve injury caused region-specific macrophages/microglia activation along spinothalamic and dorsal-column medial lemniscus pathways. A pro-inflammatory microglial marker was expressed in the spinal cord of injured rats compared to photobiomodulation-treated and sham group. Photobiomodulation-treated dorsal root ganglion macrophages expressed anti-inflammatory markers.
CONCLUSION
Photobiomodulation effectively reduced mechanical hypersensitivity, potentially through modulating macrophage/microglial activation to an anti-inflammatory phenotype.
目的
神经性疼痛很常见且使人衰弱,有效治疗方法有限。外周神经损伤后沿躯体感觉通路的巨噬细胞/小胶质细胞激活会促进神经性疼痛。然而,神经性疼痛中巨噬细胞/小胶质细胞的极化情况尚不清楚。光生物调节治疗已被用于减轻神经性疼痛,在脊髓损伤和伤口愈合模型中具有抗炎作用,并能在体外调节小胶质细胞极化。我们的目的是在外周神经损伤后表征巨噬细胞/小胶质细胞的反应,并用光生物调节来调节这种反应。
方法
成年雄性Sprague-Dawley大鼠被随机分为假手术组(N = 13)、保留神经损伤组(N = 13)或损伤+光生物调节治疗组(N = 7)。用电子von Frey评估机械性超敏反应。从术后第7天至30天,每隔一天对受影响的后爪(输出功率1W,20秒,皮肤上方41cm,功率密度43.25mW/cm²,剂量20J)、背根神经节(输出功率4.5W,19秒,接触皮肤,功率密度43.25mW/cm²,剂量85.5J)和脊髓区域(输出功率1.5W,19秒,接触皮肤,功率密度43.25mW/cm²,剂量28.5J)进行光生物调节(980nm)。免疫组织化学表征巨噬细胞/小胶质细胞的激活情况。
结果
损伤组在术后1至30天表现出机械性超敏反应。光生物调节治疗的动物在两次治疗后开始恢复;在第26天,机械敏感性达到基线。外周神经损伤导致沿脊髓丘脑束和背柱内侧丘系通路的区域特异性巨噬细胞/小胶质细胞激活。与光生物调节治疗组和假手术组相比,损伤大鼠脊髓中表达促炎性小胶质细胞标志物。光生物调节治疗的背根神经节巨噬细胞表达抗炎标志物。
结论
光生物调节有效降低了机械性超敏反应,可能是通过将巨噬细胞/小胶质细胞激活调节为抗炎表型来实现的。
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