Jose J Rodríguez, Glenn M Dallérac, Masashi Tabuchi, Heather A Davies, Frances M Colyer, Michael G Stewart, Valérie Doyère
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引用次数: 8
摘要
关于聚唾液酸(PSA)对神经细胞粘附分子(NCAM)在突触可塑性中的作用的研究得出了不一致的数据。本研究通过确定同突触长期增强(LTP)和异突触长期抑制(LTD)是否会诱导大鼠齿状回(DG)中PSA-NCAM分布的变化来解决这一问题。此外,我们还研究了观察到的修饰是否通过n -甲基- d -天冬氨酸(NMDA)受体的激活而启动。免疫细胞化学分析显示,在高频刺激内侧或外侧穿通通路后2和24小时,PSA-NCAM阳性细胞增加,分别导致DG内侧分子层的同突触LTP和异突触LTD。电镜下PSA- ncam亚细胞分布分析显示,LTD大鼠PSA树突状标记减少,LTP大鼠PSA树突状标记向脊柱亚细胞迁移。重要的是,这些修饰被发现与NMDA受体的激活无关。我们的研究结果表明,颗粒细胞的强激活上调了PSA-NCAM的合成,然后将其整合到激活的突触中,代表了nmda独立的塑性过程,该过程协同作用于LTP/LTD机制,而不参与其表达。
N-methyl-D-aspartate receptor independent changes in expression of polysialic acid-neural cell adhesion molecule despite blockade of homosynaptic long-term potentiation and heterosynaptic long-term depression in the awake freely behaving rat dentate gyrus.
Investigations examining the role of polysialic acid (PSA) on the neural cell adhesion molecule (NCAM) in synaptic plasticity have yielded inconsistent data. Here, we addressed this issue by determining whether homosynaptic long-term potentiation (LTP) and heterosynaptic long-term depression (LTD) induce changes in the distribution of PSA-NCAM in the dentate gyrus (DG) of rats in vivo. In addition, we also examined whether the observed modifications were initiated via the activation of N-methyl-D-aspartate (NMDA) receptors. Immunocytochemical analysis showed an increase in PSA-NCAM positive cells both at 2 and 24 h following high-frequency stimulation of either medial or lateral perforant paths, leading to homosynaptic LTP and heterosynaptic LTD, respectively, in the medial molecular layer of the DG. Analysis of sub-cellular distribution of PSA-NCAM by electron microscopy showed decreased PSA dendritic labelling in LTD rats and a sub-cellular relocation towards the spines in LTP rats. Importantly, these modifications were found to be independent of the activation of NMDA receptors. Our findings suggest that strong activation of the granule cells up-regulates PSA-NCAM synthesis which then incorporates into activated synapses, representing NMDA-independent plastic processes that act synergistically on LTP/LTD mechanisms without participating in their expression.