支架蛋白 JNK 相关亮氨酸拉链蛋白与神经元生长相关蛋白 superior cervical ganglia clone 10 之间的相互作用调控神经突生长。

Regulation of neurite outgrowth by interactions between the scaffolding protein, JNK-associated leucine zipper protein, and neuronal growth-associated protein superior cervical ganglia clone 10.

机构信息

From the Fels Institute for Cancer Research and Molecular Biology, Temple University School of Medicine, Philadelphia, Pennsylvania 19140.

出版信息

J Biol Chem. 2010 Feb 5;285(6):3548-3553. doi: 10.1074/jbc.M109.064113. Epub 2009 Dec 3.

DOI:10.1074/jbc.M109.064113

PMID:19959466

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2823494/

Abstract

JLP (JNK-associated leucine zipper protein) is a novel scaffolding protein involved in JNK signaling. Although it is known that JLP is highly expressed in brain, the biological function of JLP in neuronal systems remains unknown. Here, we report a novel interaction between JLP and SCG10 (superior cervical ganglia clone 10), which is a microtubule-destabilizing factor that is essential for neurite outgrowth. Inhibition of endogenous JLP expression using small interference RNA methodology strongly enhanced nerve growth factor (NGF)-induced neurite outgrowth in PC12 cells. Our results show that JLP negatively regulates NGF-induced neurite outgrowth by decreasing the level of phosphorylated SCG10. Furthermore, inhibition of JNK phosphorylation by a small molecule inhibitor, SP600125, resulted in inhibition of SCG10 phosphorylation and inhibition of neurite growth. Taken together, our results suggest that JLP negatively regulates NGF-induced neurite outgrowth through a sequestering mechanism that results in an attenuation of NGF-induced SCG10 phosphorylation.

摘要

JLP（c-Jun N 端激酶相关亮氨酸拉链蛋白）是一种参与 JNK 信号通路的新型支架蛋白。尽管已知 JLP 在大脑中高度表达，但 JLP 在神经元系统中的生物学功能仍不清楚。在这里，我们报告了 JLP 与 SCG10（高颈神经节克隆 10）之间的一种新的相互作用，SCG10 是一种微管不稳定因子，对轴突生长至关重要。使用小干扰 RNA 方法抑制内源性 JLP 的表达，强烈增强了 PC12 细胞中神经生长因子（NGF）诱导的轴突生长。我们的结果表明，JLP 通过降低磷酸化 SCG10 的水平来负调控 NGF 诱导的轴突生长。此外，小分子抑制剂 SP600125 抑制 JNK 磷酸化，导致 SCG10 磷酸化和轴突生长抑制。总之，我们的结果表明，JLP 通过一种隔离机制负调控 NGF 诱导的轴突生长，从而减弱 NGF 诱导的 SCG10 磷酸化。

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