Impact of light-dark cycle on the expression of circadian clock genes, electrocardiography, and myocardial function in mice

IF 3.2 2区医学 Q2 CARDIAC & CARDIOVASCULAR SYSTEMS

International journal of cardiology Pub Date : 2025-06-09 DOI:10.1016/j.ijcard.2025.133463

Yung-Lung Chen , Pei-Ting Lin , Ming-Yu Yang , Jiin-Haur Chuang

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引用次数: 0

Abstract

Background

The light-dark (LD) cycle regulates circadian rhythms that influence cardiac function and autonomic regulation. However, the impact of LD cycle disturbances on cardiac electrophysiology and gene expression remains unclear. This study investigated how disrupted light exposure affects cardiac rhythm, function, and gene expression in mice.

Methods

Eight-week-old C57BL/6 J mice were exposed to either a normal LD cycle (12 h light/12 h dark, NLD) or a disrupted LD cycle (24 h light for 3 days/24 h dark for 4 days, DLD) for 12 and 24 weeks. Monthly electrocardiographic (ECG) and echocardiographic assessments were performed. Gene expression related to circadian regulation, mitochondrial function, and cardiac remodeling was analyzed.

Results

DLD mice exhibited transient weight gain and persistent cardiac hypertrophy. ECG analysis showed shortened RR intervals, prolonged QTc intervals (weeks 4 and 8), and widened QRS duration (week 16). Heart rate variability analysis indicated sustained sympathovagal imbalance (increased LF/HF ratio). Echocardiography revealed early cardiac remodeling with increased left ventricular outflow tract velocity, pressure gradient, and internal diameter. Gene analysis showed early Per2 and Nr1d1 dysregulation, followed by Bmal1, Clock, Rora, and Rorc downregulation and Nr1d1 upregulation at 24 weeks. Mitochondrial dysfunction, fibrosis, and inflammation markers were also dysregulated.

Conclusion

Chronic LD disruption leads to circadian misalignment, autonomic imbalance, and cardiac remodeling, potentially contributing to adverse cardiovascular outcomes.

Translational relevance

This model simulates circadian disruption in shift workers and individuals with irregular sleep patterns, highlighting prolonged circadian misalignment may elevate cardiovascular risk and the importance of circadian health in cardiovascular prevention strategies.

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光照-暗循环对小鼠生物钟基因表达、心电图和心肌功能的影响

光-暗（LD）周期调节影响心功能和自主调节的昼夜节律。然而，LD周期紊乱对心脏电生理和基因表达的影响尚不清楚。本研究探讨了光照干扰对小鼠心律、功能和基因表达的影响。方法将8周龄C57BL/ 6j小鼠分别置于正常LD周期（12 h光照/12 h黑暗，NLD）和中断LD周期（24 h光照3天/24 h黑暗4天，DLD） 12周和24周。每月进行心电图（ECG）和超声心动图评估。分析了与昼夜节律调节、线粒体功能和心脏重构相关的基因表达。结果dld小鼠表现出短暂性体重增加和持续性心脏肥厚。心电图分析显示RR间期缩短，QTc间期延长（第4周和第8周），QRS持续时间延长（第16周）。心率变异性分析显示持续交感迷走神经失衡（LF/HF比值升高）。超声心动图显示早期心脏重构，左心室流出道流速、压力梯度和内径增加。基因分析显示早期Per2和Nr1d1异常，随后在24周时出现Bmal1、Clock、Rora和Rorc下调和Nr1d1上调。线粒体功能障碍、纤维化和炎症标志物也异常。慢性LD紊乱会导致昼夜节律失调、自主神经失衡和心脏重塑，可能导致不良的心血管结果。该模型模拟了轮班工作者和睡眠模式不规律的个体的昼夜节律紊乱，强调了长期的昼夜节律失调可能会增加心血管风险，以及昼夜节律健康在心血管预防策略中的重要性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International journal of cardiology 医学-心血管系统

CiteScore

6.80

自引率

5.70%

发文量

758

审稿时长

44 days

期刊介绍： The International Journal of Cardiology is devoted to cardiology in the broadest sense. Both basic research and clinical papers can be submitted. The journal serves the interest of both practicing clinicians and researchers. In addition to original papers, we are launching a range of new manuscript types, including Consensus and Position Papers, Systematic Reviews, Meta-analyses, and Short communications. Case reports are no longer acceptable. Controversial techniques, issues on health policy and social medicine are discussed and serve as useful tools for encouraging debate.