昼夜节律时钟蛋白BMAL-1的振荡与机械刺激的日常周期同步：一种在预测性体外模型系统中整合生物时间的新方法。

Oscillations of the circadian clock protein, BMAL-1, align to daily cycles of mechanical stimuli: a novel means to integrate biological time within predictive in vitro model systems.

作者信息

Heywood Hannah K, Gardner Laurence, Knight Martin M, Lee David A

机构信息

School of Engineering and Materials Science, Queen Mary University of London, London, UK.

Wirral University Teaching Hospital NHS Foundation Trust, Liverpool, UK.

出版信息

In Vitro Model. 2022;1(6):405-412. doi: 10.1007/s44164-022-00032-x. Epub 2022 Aug 31.

DOI:10.1007/s44164-022-00032-x

PMID:36570670

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9767245/

Abstract

PURPOSE

In vivo, the circadian clock drives 24-h rhythms in human physiology. Isolated cells in vitro retain a functional clockwork but lack necessary timing cues resulting in the rapid loss of tissue-level circadian rhythms. This study tests the hypothesis that repeated daily mechanical stimulation acts as a timing cue for the circadian clockwork. The delineation and integration of circadian timing cues into predictive in vitro model systems, including organ-on-a-chip (OOAC) devices, represent a novel concept that introduces a key component of in vivo physiology into predictive in vitro model systems.

METHODS

Quiescent bovine chondrocytes were entrained for 3 days by daily 12-h bouts of cyclic biaxial tensile strain (10%, 0.33 Hz, Flexcell) before sampling during free-running conditions. The core clock protein, BMAL-1, was quantified from normalised Western Blot signal intensity and the temporal oscillations characterised by Cosinor linear fit with 24-h period.

RESULTS

Following entrainment, the cell-autonomous oscillations of the molecular clock protein, BMAL-1, exhibited circadian (24 h) periodicity ( < 0.001) which aligned to the diurnal mechanical stimuli. A 6-h phase shift in the mechanical entrainment protocol resulted in an equivalent shift of the circadian clockwork. Thus, repeated daily mechanical stimuli synchronised circadian rhythmicity of chondrocytes in vitro.

CONCLUSION

This work demonstrates that daily mechanical stimulation can act as a timing cue that is sufficient to entrain the peripheral circadian clock in vitro. This discovery may be exploited to induce and sustain circadian physiology within into predictive in vitro model systems, including OOAC systems. Integration of the circadian clock within these systems will enhance their potential to accurately recapitulate human diurnal physiology and hence augment their predictive value as drug testing platforms and as realistic models of human (patho)physiology.

SUPPLEMENTARY INFORMATION

The online version contains supplementary material available at 10.1007/s44164-022-00032-x.

摘要

目的

在体内，生物钟驱动人体生理的24小时节律。体外分离的细胞保留了功能性生物钟机制，但缺乏必要的时间线索，导致组织水平的昼夜节律迅速丧失。本研究检验了以下假设：每日重复的机械刺激作为生物钟机制的时间线索。将昼夜节律时间线索描绘并整合到包括芯片器官（OOAC）装置在内的预测性体外模型系统中，代表了一个新的概念，即将体内生理学的一个关键组成部分引入预测性体外模型系统。

方法

在自由运行条件下采样前，通过每日12小时的周期性双轴拉伸应变（10%，0.33Hz，Flexcell）对静止的牛软骨细胞进行3天的训练。从标准化的蛋白质印迹信号强度中定量核心生物钟蛋白BMAL-1，并通过具有24小时周期的余弦线性拟合来表征时间振荡。

结果

训练后，分子生物钟蛋白BMAL-1的细胞自主振荡表现出昼夜（24小时）周期性（<0.001），与昼夜机械刺激一致。机械训练方案中6小时的相位偏移导致生物钟机制产生等效偏移。因此，每日重复的机械刺激使体外软骨细胞的昼夜节律同步。

结论

这项工作表明，每日机械刺激可以作为一种时间线索，足以在体外训练外周生物钟。这一发现可用于在包括OOAC系统在内的预测性体外模型系统中诱导和维持昼夜生理。这些系统中生物钟的整合将增强它们准确重现人类昼夜生理的潜力，从而提高它们作为药物测试平台和人类（病理）生理学真实模型的预测价值。

补充信息

在线版本包含可在10.1007/s44164-022-00032-x获取的补充材料。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/31f1/11756438/04a56ba96f1e/44164_2022_32_Fig1_HTML.jpg

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昼夜节律时钟蛋白BMAL-1的振荡与机械刺激的日常周期同步：一种在预测性体外模型系统中整合生物时间的新方法。

Oscillations of the circadian clock protein, BMAL-1, align to daily cycles of mechanical stimuli: a novel means to integrate biological time within predictive in vitro model systems.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

SUPPLEMENTARY INFORMATION

目的

方法

结果

结论

补充信息

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