GSK3β 介导的磷酸化调控 BMAL1 蛋白稳定性和昼夜节律功能。

Regulation of BMAL1 protein stability and circadian function by GSK3beta-mediated phosphorylation.

机构信息

Department of Pharmacology, University of California Irvine, Irvine, California, United States of America.

出版信息

PLoS One. 2010 Jan 1;5(1):e8561. doi: 10.1371/journal.pone.0008561.

DOI:10.1371/journal.pone.0008561

PMID:20049328

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2797305/

Abstract

BACKGROUND

Circadian rhythms govern a large array of physiological and metabolic functions. To achieve plasticity in circadian regulation, proteins constituting the molecular clock machinery undergo various post-translational modifications (PTMs), which influence their activity and intracellular localization. The core clock protein BMAL1 undergoes several PTMs. Here we report that the Akt-GSK3beta signaling pathway regulates BMAL1 protein stability and activity.

PRINCIPAL FINDINGS

GSK3beta phosphorylates BMAL1 specifically on Ser 17 and Thr 21 and primes it for ubiquitylation. In the absence of GSK3beta-mediated phosphorylation, BMAL1 becomes stabilized and BMAL1 dependent circadian gene expression is dampened. Dopamine D2 receptor mediated signaling, known to control the Akt-GSK3beta pathway, influences BMAL1 stability and in vivo circadian gene expression in striatal neurons.

CONCLUSIONS

These findings uncover a previously unknown mechanism of circadian clock control. The GSK3beta kinase phosphorylates BMAL1, an event that controls the stability of the protein and the amplitude of circadian oscillation. BMAL1 phosphorylation appears to be an important regulatory step in maintaining the robustness of the circadian clock.

摘要

背景

昼夜节律调控着大量的生理和代谢功能。为了实现昼夜节律调节的可塑性，构成分子钟机制的蛋白质会发生各种翻译后修饰（PTMs），从而影响其活性和细胞内定位。核心时钟蛋白 BMAL1 会经历多种 PTM。在这里，我们报告 Akt-GSK3β 信号通路调节 BMAL1 蛋白的稳定性和活性。

主要发现

GSK3β 特异性地上调 BMAL1 的 Ser17 和 Thr21 磷酸化，使其为泛素化做好准备。在没有 GSK3β 介导的磷酸化的情况下，BMAL1 变得稳定，BMAL1 依赖的昼夜节律基因表达减弱。多巴胺 D2 受体介导的信号转导，已知可以控制 Akt-GSK3β 通路，影响纹状体神经元中的 BMAL1 稳定性和体内昼夜节律基因表达。

结论

这些发现揭示了昼夜节律钟控制的一个先前未知的机制。GSK3β 激酶磷酸化 BMAL1，这一事件控制着蛋白质的稳定性和昼夜节律振荡的幅度。BMAL1 的磷酸化似乎是维持昼夜节律钟稳健性的一个重要调节步骤。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/afd9/2797305/4eaaf260a833/pone.0008561.g001.jpg

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GSK3β 介导的磷酸化调控 BMAL1 蛋白稳定性和昼夜节律功能。

Regulation of BMAL1 protein stability and circadian function by GSK3beta-mediated phosphorylation.

机构信息

出版信息

BACKGROUND

PRINCIPAL FINDINGS

CONCLUSIONS

背景

主要发现

结论

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