生物钟的遗传成分在体内调节血栓形成。

Genetic components of the circadian clock regulate thrombogenesis in vivo.

作者信息

Westgate Elizabeth J, Cheng Yan, Reilly Dermot F, Price Tom S, Walisser Jacqueline A, Bradfield Christopher A, FitzGerald Garret A

机构信息

Institute for Translational Medicine and Therapeutics, School of Medicine, University of Pennsylvania, Philadelphia, USA.

出版信息

Circulation. 2008 Apr 22;117(16):2087-95. doi: 10.1161/CIRCULATIONAHA.107.739227. Epub 2008 Apr 14.

DOI:10.1161/CIRCULATIONAHA.107.739227

PMID:18413500

Abstract

BACKGROUND

Myocardial infarction, stroke, and sudden death undergo diurnal variation. Although genes relevant to hemostasis and vascular integrity undergo circadian oscillation, the role of the molecular clock in thrombotic events remains to be established.

METHODS AND RESULTS

A diurnal variation in the time to thrombotic vascular occlusion (TTVO) subsequent to a photochemical injury was observed in wild-type mice: TTVO varied from 24.6+/-2.7 minutes at zeitgeber time (ZT) 2 to 40.3+/-4.3 minutes at ZT8, 24.3+/-2.3 minutes at ZT14, and 31.0+/-4.4 minutes at ZT20. This pattern was disrupted or altered when core clock genes-BMAL1, CLOCK, and NPAS2-were mutated or deleted. Mutation of CLOCK abolished the diurnal variation in TTVO, whereas deletion of NPAS2 altered its temporal pattern. NPAS2 deletion prolonged TTVO and reduced blood pressure irrespective of clock time. Global BMAL1 deletion shortened TTVO at ZT8, and the diurnal variation in TTVO, but not in systemic blood pressure, was disrupted in mice in which BMAL1 had been selectively deleted in endothelium.

CONCLUSIONS

Key components of the molecular clock regulate the response to a thrombogenic stimulus in vivo. Such a phenomenon may interact with environmental variables, and together with the influence of these genes on blood pressure may contribute to the diurnal variation in cardiovascular events observed in humans.

摘要

背景

心肌梗死、中风和猝死呈现昼夜节律变化。尽管与止血和血管完整性相关的基因会发生昼夜振荡，但分子时钟在血栓形成事件中的作用仍有待确定。

方法与结果

在野生型小鼠中观察到光化学损伤后血栓性血管闭塞时间（TTVO）存在昼夜节律变化：TTVO在 Zeitgeber 时间（ZT）2 时为 24.6±2.7 分钟，在 ZT8 时为 40.3±4.3 分钟，在 ZT14 时为 24.3±2.3 分钟，在 ZT20 时为 31.0±4.4 分钟。当核心时钟基因 BMAL1、CLOCK 和 NPAS2 发生突变或缺失时，这种模式会被破坏或改变。CLOCK 突变消除了 TTVO 的昼夜节律变化，而 NPAS2 缺失改变了其时间模式。NPAS2 缺失会延长 TTVO 并降低血压，且与时钟时间无关。全局 BMAL1 缺失会缩短 ZT8 时的 TTVO，并且在血管内皮中选择性缺失 BMAL1 的小鼠中，TTVO 的昼夜节律变化被破坏，但全身血压的昼夜节律变化未受影响。

结论

分子时钟的关键成分在体内调节对血栓形成刺激的反应。这种现象可能与环境变量相互作用，并且这些基因对血压的影响可能共同导致人类观察到的心血管事件的昼夜节律变化。

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生物钟的遗传成分在体内调节血栓形成。

Genetic components of the circadian clock regulate thrombogenesis in vivo.

作者信息

机构信息

出版信息

BACKGROUND

METHODS AND RESULTS

CONCLUSIONS

背景

方法与结果

结论

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