Long-term culture of mouse cortical neurons as a model for neuronal development, aging, and death.

C. Lesuisse, L. Martin
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引用次数: 242

Abstract

A long-term cell culture system was used to study maturation, aging, and death of cortical neurons. Mouse cortical neurons were maintained in culture in serum-free medium (Neurobasal supplemented with B27) for 60 days in vitro (DIV). The levels of several proteins were evaluated by immunoblotting to demonstrate that these neurons matured by developing dendrites and synapses and remained continuously healthy for 60 DIV. During their maturation, cortical neurons showed increased or stable protein expression of glycolytic enzyme, synaptophysin, synapsin IIa, alpha and beta synucleins, and glutamate receptors. Synaptogenesis was prominent during the first 15 days and then synaptic markers remained stable through DIV60. Very early during dendritic development at DIV3, beta-synuclein (but not alpha-synuclein) was localized at the base of dendritic growth cones identified by MAP2 and alpha-amino-3-hydroxy-5-methyl-4-isoxazole (AMPA) receptor GluR1. In mature neurons, alpha and beta synucleins colocalized in presynaptic axon terminals. Expression of N-methyl-D-aspartate (NMDA) and AMPA receptors preceded the formation of synapses. Glutamate receptors continued to be expressed strongly through DIV60. Cortical neurons aging in vitro displayed a complex profile of protein damage as identified by protein nitration. During cortical neuron aging, some proteins showed increased nitration, while other proteins showed decreased nitration. After exposure to DNA damaging agent, young (DIV5) and old (DIV60) cortical neurons activated apoptosis mechanisms, including caspase-3 cleavage and poly(ADP)-ribose polymerase inactivation. We show that cultured mouse cortical neurons can be maintained for long term. Cortical neurons display compartmental changes in the localization of synucleins during maturation in vitro. These neurons sustain protein nitration during aging and exhibit age-related variations in the biochemistry of neuronal apoptosis.
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小鼠皮质神经元的长期培养作为神经元发育、衰老和死亡的模型。
采用细胞长期培养系统研究皮层神经元的成熟、老化和死亡。小鼠皮质神经元在无血清培养基(Neurobasal中添加B27)中体外培养60天。免疫印迹法检测了几种蛋白的表达水平,证实这些神经元通过树突和突触发育成熟,并在60 DIV内持续保持健康。在其成熟过程中,皮质神经元糖酵解酶、突触素、突触素IIa、α和β突触核蛋白以及谷氨酸受体的蛋白表达增加或稳定。在前15天突触发生明显,然后通过DIV60突触标志物保持稳定。在DIV3树突发育的早期,β -突触核蛋白(而不是α -突触核蛋白)定位于MAP2和α -氨基-3-羟基-5-甲基-4-异恶唑(AMPA)受体GluR1识别的树突生长锥的基部。在成熟神经元中,突触核蛋白和突触核蛋白共定位于突触前轴突终末。n -甲基- d -天冬氨酸(NMDA)和AMPA受体的表达先于突触的形成。谷氨酸受体通过DIV60继续强烈表达。体外皮层神经元衰老表现出复杂的蛋白质损伤,通过蛋白质硝化鉴定。在皮层神经元老化过程中,部分蛋白的硝化作用增强,部分蛋白的硝化作用减弱。暴露于DNA损伤剂后,年轻(DIV5)和年老(DIV60)皮质神经元激活凋亡机制,包括caspase-3裂解和聚(ADP)核糖聚合酶失活。我们发现培养的小鼠皮质神经元可以长期维持。皮层神经元在体外成熟过程中突触核蛋白的定位表现出室区变化。这些神经元在衰老过程中维持蛋白质硝化,并在神经元凋亡的生物化学中表现出与年龄相关的变化。
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