生物钟蛋白之间的化学计量关系决定了生物钟节律的稳健性。

Stoichiometric relationship among clock proteins determines robustness of circadian rhythms.

机构信息

Department of Biomedical Sciences, College of Medicine, Florida State University, Tallahassee, Florida 32312, USA.

出版信息

J Biol Chem. 2011 Mar 4;286(9):7033-42. doi: 10.1074/jbc.M110.207217. Epub 2011 Jan 3.

DOI:10.1074/jbc.M110.207217

PMID:21199878

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3044960/

Abstract

The mammalian circadian oscillator is primarily driven by an essential negative feedback loop comprising a positive component, the CLOCK-BMAL1 complex, and a negative component, the PER-CRY complex. Numerous studies suggest that feedback inhibition of CLOCK-BMAL1 is mediated by time-dependent physical interaction with its direct target gene products PER and CRY, suggesting that the ratio between the negative and positive complexes must be important for the molecular oscillator and rhythm generation. We explored this idea by altering expression of clock components in fibroblasts derived from Per2(Luc) and Per mutant mice, a cell system extensively used to study in vivo clock mechanisms. Our data demonstrate that the stoichiometric relationship between clock components is critical for the robustness of circadian rhythms and provide insights into the mechanistic organization of the negative feedback loop. Our findings may explain why certain mutant mice or cells are arrhythmic, whereas others are rhythmic, and suggest that robustness of circadian rhythms can be increased even in wild-type cells by modulating the stoichiometry.

摘要

哺乳动物的生物钟振荡器主要由一个基本的负反馈环驱动，该负反馈环包括一个正组件，即 CLOCK-BMAL1 复合物，和一个负组件，即 PER-CRY 复合物。许多研究表明，CLOCK-BMAL1 的反馈抑制是通过与其直接靶基因产物 PER 和 CRY 的时间依赖性物理相互作用介导的，这表明正负复合物之间的比率对于分子振荡器和节律产生非常重要。我们通过改变来自 Per2(Luc)和 Per 突变小鼠的成纤维细胞中时钟组件的表达来探索这个想法，这是一个广泛用于研究体内时钟机制的细胞系统。我们的数据表明，时钟组件之间的化学计量关系对于生物钟节律的稳健性至关重要，并为负反馈环的机制组织提供了深入了解。我们的发现可以解释为什么某些突变体小鼠或细胞是无节律的，而其他细胞是有节律的，并表明通过调节化学计量学，即使在野生型细胞中也可以增加生物钟节律的稳健性。

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