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一个即刻早期基因产物网络会传播丝裂原活化蛋白激酶信号幅度和持续时间上的细微差异。

A network of immediate early gene products propagates subtle differences in mitogen-activated protein kinase signal amplitude and duration.

作者信息

Murphy Leon O, MacKeigan Jeffrey P, Blenis John

机构信息

Department of Cell Biology, Harvard Medical School, Boston, Massachusetts 02115, USA.

出版信息

Mol Cell Biol. 2004 Jan;24(1):144-53. doi: 10.1128/MCB.24.1.144-153.2004.

DOI:10.1128/MCB.24.1.144-153.2004
PMID:14673150
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC303364/
Abstract

The strength and duration of mitogen-activated protein kinase (MAPK) signaling have been shown to regulate cell fate in different cell types. In this study, a general mechanism is described that explains how subtle differences in signaling kinetics are translated into a specific biological outcome. In fibroblasts, the expression of immediate early gene (IEG)-encoded Fos, Jun, Myc, and early growth response gene 1 (Egr-1) transcription factors is significantly extended by sustained extracellular signal-regulated kinase 1 and 2 (ERK1 and -2) signaling. Several of these proteins contain functional docking site for ERK, FXFP (DEF) domains that serve to locally concentrate the active kinase, thus showing that they can function as ERK sensors. Sustained ERK signaling regulates the posttranslational modifications of these IEG-encoded sensors, which contributes to their sustained expression during the G(1)-S transition. DEF domain-containing sensors can also interpret the small changes in ERK signal strength that arise from less than a threefold reduction in agonist concentration. As a result, downstream target gene expression and cell cycle progression are significantly changed.

摘要

丝裂原活化蛋白激酶(MAPK)信号传导的强度和持续时间已被证明可调节不同细胞类型中的细胞命运。在本研究中,描述了一种通用机制,该机制解释了信号动力学的细微差异如何转化为特定的生物学结果。在成纤维细胞中,持续的细胞外信号调节激酶1和2(ERK1和-2)信号传导可显著延长即时早期基因(IEG)编码的Fos、Jun、Myc和早期生长反应基因1(Egr-1)转录因子的表达。这些蛋白质中的几种含有ERK的功能性对接位点,即FXFP(DEF)结构域,其作用是局部浓缩活性激酶,从而表明它们可作为ERK传感器发挥作用。持续的ERK信号传导调节这些IEG编码传感器的翻译后修饰,这有助于它们在G(1)-S期转换期间持续表达。含DEF结构域的传感器还可以解读由激动剂浓度降低不到三倍引起的ERK信号强度的微小变化。结果,下游靶基因表达和细胞周期进程发生显著变化。

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