How do the satellite glia cells of the dorsal root ganglia respond to stressed neurons?--nitric oxide saga from embryonic development to axonal injury in adulthood.

Matthew J G Bradman, Daleep K Arora, Richard Morris, Thimmasettappa Thippeswamy
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引用次数: 10

Abstract

Dorsal root ganglia (DRG) respond to peripheral nerve injury by up-regulating nitric oxide (NO) production by neurons and glia in addition to local fibroblasts, endothelium and macrophages. We hypothesise that NO produced from these cells has specific roles. We have shown that when neuronal NO synthase (nNOS) is blocked in axotomised DRG, neurons undergo degenerative changes (Thippeswamy et al., 2001, 2007a). Further, we demonstrated that increased neuronal NO production, in response to axotomy/growth factor-deprivation in vitro, signals glial cells to produce trophic factors to support neuronal survival (Thippeswamy et al., 2005a). Recently, we found that treating satellite glia-neuron co-cultures with nNOS inhibitor, 7-nitroindazole (7NI), decreases the number of nestin+ cells that show neuron-like morphology. Cultured/axotomised DRG also upregulate inducible NOS (iNOS) in non-neuronal cells. Therefore, it is plausible that degenerative changes following nNOS inhibition are also due to iNOS-mediated excessive NO production by non-neuronal cells, which indeed is cytotoxic. NG-nitro-l-arginine methylester (L-NAME), the pan NOS inhibitor did not significantly change nNOS+ neuron number in axotomised DRG compared to 7NI suggesting that iNOS-mediated NO contributes to the degenerative process. In this paper, these findings from our and others' past work on NO-mediated neuron-glia signalling in axotomised DRG are discussed.

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背根神经节的卫星胶质细胞对应激神经元有何反应?——一氧化氮从胚胎发育到成年期轴突损伤的历程。
背根神经节(DRG)通过上调神经元和胶质细胞以及局部成纤维细胞、内皮细胞和巨噬细胞产生一氧化氮(NO)来响应周围神经损伤。我们假设这些细胞产生的NO具有特定的作用。我们已经证明,当神经元NO合成酶(nNOS)在axocut DRG中被阻断时,神经元会发生退行性变化(Thippeswamy等人,2001,2007 a)。此外,我们证明,在体外对轴切术/生长因子剥夺的反应中,神经元NO生成的增加会向神经胶质细胞发出信号,使其产生营养因子,以支持神经元的存活(Thippeswamy等人,2005)。最近,我们发现用nNOS抑制剂7-硝基茚唑(7-nitroindazole, 7NI)处理卫星神经胶质-神经元共培养,可以减少呈现神经元样形态的巢蛋白+细胞的数量。培养/axo切除的DRG也上调非神经元细胞中可诱导的NOS (iNOS)。因此,nNOS抑制后的退行性变化也可能是由于inos介导的非神经元细胞过量产生NO,这确实是细胞毒性的。与7NI相比,pan NOS抑制剂ng -硝基-l-精氨酸甲基lester (L-NAME)没有显著改变axoised DRG中nNOS+神经元数量,这表明inos介导的NO有助于退行性过程。在本文中,这些发现从我们和其他人过去的工作中,一氧化氮介导的神经元-胶质细胞信号在axo切除DRG进行了讨论。
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Neuron glia biology
Neuron glia biology 医学-神经科学
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