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E3 连接酶 Arf-bp1 和 Pam 介导锂刺激的昼夜节律血红素受体 Rev-erbα的降解。

E3 ligases Arf-bp1 and Pam mediate lithium-stimulated degradation of the circadian heme receptor Rev-erb alpha.

机构信息

Division of Endocrinology, Diabetes, and Metabolism, Department of Medicine, University of Pennsylvania School of Medicine, Philadelphia, PA 19104, USA.

出版信息

Proc Natl Acad Sci U S A. 2010 Jun 22;107(25):11614-9. doi: 10.1073/pnas.1000438107. Epub 2010 Jun 7.

DOI:10.1073/pnas.1000438107
PMID:20534529
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2895127/
Abstract

The metazoan circadian clock mechanism involves cyclic transcriptional activation and repression by proteins whose degradation is highly regulated via the ubiquitin-proteasome pathway. The heme receptor Rev-erb alpha, a core negative component of the circadian network, controls circadian oscillation of several clock genes, including Bmal1 Rev-erb alpha protein degradation can be triggered by inhibitors of glycogen synthase kinase 3beta, such as lithium, and also by serum shock, which synchronizes circadian rhythms in cultured cells. Here we report that two E3 ligases, Arf-bp1 and Pam (Myc-bp2), are copurified with Rev-erb alpha and required for its ubiquitination. RNA-interference-mediated depletion of Arf-bp1 and Pam stabilizes the Rev-erb alpha protein and protects Rev-erb alpha from degradation triggered by either lithium or serum shock treatment. This degradation pathway modulates the expression of Rev-erb alpha-regulated Clock gene and circadian function in mouse hepatoma cells. Thus, Arf-bp1 and Pam are novel regulators of circadian gene expression that target Rev-erb alpha for degradation.

摘要

真核生物的生物钟机制涉及蛋白质的周期性转录激活和抑制,其降解通过泛素-蛋白酶体途径高度调控。血红素受体 Rev-erbα是生物钟网络的核心负调控因子,控制包括 Bmal1 在内的多个时钟基因的昼夜节律振荡。Rev-erbα蛋白的降解可以被糖原合成激酶 3β抑制剂(如锂)和血清休克触发,血清休克可使培养细胞的生物钟同步。在这里,我们报告说,两种 E3 连接酶 Arf-bp1 和 Pam(Myc-bp2)与 Rev-erbα共纯化,并需要其泛素化。RNA 干扰介导的 Arf-bp1 和 Pam 耗竭稳定了 Rev-erbα 蛋白,并防止 Rev-erbα 被锂或血清休克处理触发的降解。这条降解途径调节了在小鼠肝癌细胞中由 Rev-erbα 调节的 Clock 基因和昼夜节律功能的表达。因此,Arf-bp1 和 Pam 是生物钟基因表达的新型调节因子,可将 Rev-erbα 靶向降解。

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