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神经细胞黏附分子通过多种钙稳态机制诱导细胞内信号传导。

Neural cell adhesion molecule induces intracellular signaling via multiple mechanisms of Ca2+ homeostasis.

作者信息

Kiryushko Darya, Korshunova Irina, Berezin Vladimir, Bock Elisabeth

机构信息

Protein Laboratory, Institute of Molecular Pathology, Panum Institute, DK-2200 Copenhagen N, Denmark.

出版信息

Mol Biol Cell. 2006 May;17(5):2278-86. doi: 10.1091/mbc.e05-10-0987. Epub 2006 Mar 1.

DOI:10.1091/mbc.e05-10-0987
PMID:16510522
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1446100/
Abstract

The neural cell adhesion molecule (NCAM) plays a pivotal role in the development of the nervous system, promoting neuronal differentiation via homophilic (NCAM-NCAM) as well as heterophilic (NCAM-fibroblast growth factor receptor [FGFR]) interactions. NCAM-induced intracellular signaling has been shown to affect and be dependent on the cytoplasmic Ca2+ concentration ([Ca2+]i). However, the molecular basis of this remains unclear. In this study, we determined [Ca2+]i regulating mechanisms involved in intracellular signaling induced by NCAM. To mimic the effect of homophilic NCAM interaction on [Ca2+]i in vitro, we used a peptide derived from a homophilic binding site of NCAM, termed P2, which triggers signaling cascades similar to those activated by NCAM-NCAM interaction. We found that P2 increased [Ca2+]i in primary hippocampal neurons. This effect depended on two signaling pathways. The first pathway was associated with activation of FGFR, phospholipase Cgamma, and production of diacylglycerol, and the second pathway involved Src-family kinases. Moreover, NCAM-mediated Ca2+ entry required activation of nonselective cation and T-type voltage-gated Ca2+ channels. These channels, together with the Src-family kinases, were also involved in neuritogenesis induced by physiological, homophilic NCAM interactions. Thus, unanticipated mechanisms of Ca2+ homeostasis are shown to be activated by NCAM and to contribute to neuronal differentiation.

摘要

神经细胞黏附分子(NCAM)在神经系统发育中起关键作用,通过同嗜性(NCAM-NCAM)以及异嗜性(NCAM-成纤维细胞生长因子受体[FGFR])相互作用促进神经元分化。已表明NCAM诱导的细胞内信号传导会影响并依赖于细胞质Ca2+浓度([Ca2+]i)。然而,其分子基础仍不清楚。在本研究中,我们确定了参与NCAM诱导的细胞内信号传导的[Ca2+]i调节机制。为了在体外模拟同嗜性NCAM相互作用对[Ca2+]i的影响,我们使用了一种源自NCAM同嗜性结合位点的肽,称为P2,它触发的信号级联反应类似于由NCAM-NCAM相互作用激活的反应。我们发现P2增加了原代海马神经元中的[Ca2+]i。这种效应依赖于两条信号通路。第一条通路与FGFR、磷脂酶Cγ的激活以及二酰基甘油的产生有关,第二条通路涉及Src家族激酶。此外,NCAM介导的Ca2+内流需要非选择性阳离子通道和T型电压门控Ca2+通道的激活。这些通道与Src家族激酶一起,也参与了生理性同嗜性NCAM相互作用诱导的神经突形成。因此,Ca2+稳态的意外机制被证明可被NCAM激活并有助于神经元分化。

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