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Egr-1 和 Hipk2 是 IGF1-R 下游 TrkA 到 p75(NTR) 转换所必需的。

Egr-1 and Hipk2 are required for the TrkA to p75(NTR) switch that occurs downstream of IGF1-R.

机构信息

Department of Medicine, University of Wisconsin-Madison, Madison, WI 53705, USA.

出版信息

Neurobiol Aging. 2009 Dec;30(12):2010-20. doi: 10.1016/j.neurobiolaging.2008.02.015. Epub 2008 Apr 2.

DOI:10.1016/j.neurobiolaging.2008.02.015
PMID:18378044
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2776679/
Abstract

The aging program mediated by IGF1-R is responsible for a naturally occurring TrkA to p75(NTR) switch that leads to activation of the second messenger ceramide and increased production of the Alzheimer's disease amyloid beta-peptide. Biochemical and genetic approaches that target IGF1-R signaling, p75(NTR), or ceramide are able to block the above events. Here, we show that the transcription factors Egr-1 and Hipk2 are required elements for the TrkA to p75(NTR) switch downstream of IGF1-R signaling. Specifically, Egr-1 is required for the upregulation of p75(NTR), whereas Hipk2 is required for the downregulation of TrkA. In fact, gene silencing of Egr-1 abolished the ability of IGF1 to upregulate p75(NTR), whereas similar approaches directed against Hipk2 blocked the downregulation of TrkA. In addition, IGF1 treatment favored binding of Egr-1 and Hipk2 to the promoter of p75(NTR) and TrkA, respectively. Finally, the expression levels of both Egr-1 and Hipk2 are upregulated in an age-dependent fashion. Such an event is opposed by caloric restriction, a model of delayed aging, and favored by the p44 transgene in p44(+/+) animals, a model of accelerated aging.

摘要

由 IGF1-R 介导的衰老程序负责自然发生的 TrkA 到 p75(NTR)转换,导致第二信使神经酰胺的激活和阿尔茨海默病淀粉样β肽的产生增加。针对 IGF1-R 信号、p75(NTR)或神经酰胺的生化和遗传方法能够阻断上述事件。在这里,我们表明转录因子 Egr-1 和 Hipk2 是 IGF1-R 信号下游 TrkA 到 p75(NTR)转换所必需的因素。具体而言,Egr-1 是上调 p75(NTR)所必需的,而 Hipk2 是下调 TrkA 所必需的。事实上,Egr-1 的基因沉默消除了 IGF1 上调 p75(NTR)的能力,而针对 Hipk2 的类似方法则阻断了 TrkA 的下调。此外,IGF1 处理有利于 Egr-1 和 Hipk2 分别与 p75(NTR)和 TrkA 启动子结合。最后,Egr-1 和 Hipk2 的表达水平均呈年龄依赖性上调。这种事件与热量限制(一种延迟衰老的模型)相反,并且在 p44(+/+)动物中的 p44 转基因中受到青睐,p44(+/+)动物是加速衰老的模型。

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