在雄性大鼠腰痛模型中，胶质细胞阻滞剂对背角神经元潜在致敏作用的预防及逆转

Prevention and reversal of latent sensitization of dorsal horn neurons by glial blockers in a model of low back pain in male rats.

作者信息

Zhang Juanjuan, Mense Siegfried, Treede Rolf-Detlef, Hoheisel Ulrich

机构信息

Chair of Neurophysiology, Center for Biomedicine and Medical Technology Mannheim (CBTM), Medical Faculty Mannheim, Heidelberg University, Heidelberg, Germany; and.

Department of Neurology, the First Affiliated Hospital of Anhui Medical University, Hefei, China.

出版信息

J Neurophysiol. 2017 Oct 1;118(4):2059-2069. doi: 10.1152/jn.00680.2016. Epub 2017 Jun 14.

DOI:10.1152/jn.00680.2016

PMID:28615336

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5626892/

Abstract

In an animal model of nonspecific low back pain, recordings from dorsal horn neurons were made to investigate the influence of glial cells in the central sensitization process. To induce a latent sensitization of the neurons, nerve growth factor (NGF) was injected into the multifidus muscle; the manifest sensitization to a second NGF injection 5 days later was used as a read-out. The sensitization manifested in increased resting activity and in an increased proportion of neurons responding to stimulation of deep somatic tissues. To block microglial activation, minocycline was continuously administered intrathecally starting 1 day before or 2 days after the first NGF injection. The glia inhibitor fluorocitrate that also blocks astrocyte activation was administrated 2 days after the first injection. Minocycline applied before the first NGF injection reduced the manifest sensitization after the second NGF injection to control values. The proportion of neurons responsive to stimulation of deep tissues was reduced from 50% to 17.7% ( < 0.01). No significant changes occurred when minocycline was applied after the first injection. In contrast, fluorocitrate administrated after the first NGF injection reduced significantly the proportion of neurons with deep input (15.8%, < 0.01). A block of glia activation had no significant effect on the increased resting activity. The data suggest that blocking microglial activation prevented the NGF-induced latent spinal sensitization, whereas blocking astrocyte activation reversed it. The induction of spinal neuronal sensitization in this pain model appears to depend on microglia activation, whereas its maintenance is regulated by activated astrocytes. Activated microglia and astrocytes mediate the latent sensitization induced by nerve growth factor in dorsal horn neurons that receive input from deep tissues of the low back. These processes may contribute to nonspecific low back pain.

摘要

在非特异性下背痛的动物模型中，对背角神经元进行记录，以研究胶质细胞在中枢敏化过程中的影响。为诱导神经元的潜伏性敏化，将神经生长因子（NGF）注射到多裂肌中；5天后对第二次NGF注射的明显敏化用作读数。敏化表现为静息活动增加以及对深部躯体组织刺激作出反应的神经元比例增加。为阻断小胶质细胞激活，从第一次NGF注射前1天或后2天开始持续鞘内注射米诺环素。在第一次注射后2天给予同样能阻断星形胶质细胞激活的胶质细胞抑制剂氟柠檬酸。在第一次NGF注射前应用米诺环素可将第二次NGF注射后的明显敏化降低至对照值。对深部组织刺激有反应的神经元比例从50%降至17.7%（<0.01）。第一次注射后应用米诺环素未发生显著变化。相比之下，第一次NGF注射后给予氟柠檬酸可显著降低有深部传入的神经元比例（15.8%，<0.01）。阻断胶质细胞激活对增加的静息活动无显著影响。数据表明，阻断小胶质细胞激活可预防NGF诱导的潜伏性脊髓敏化，而阻断星形胶质细胞激活则可逆转该过程。在这种疼痛模型中，脊髓神经元敏化的诱导似乎依赖于小胶质细胞激活，而其维持则由活化星形胶质细胞调节。活化的小胶质细胞和星形胶质细胞介导由神经生长因子在接受来自下背深部组织输入的背角神经元中诱导的潜伏性敏化。这些过程可能导致非特异性下背痛。

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