Physics Department, University of Pavia, Pavia, Italy.
Faculty of Medicine, Department of Cellular Physiology and Metabolism, University of Geneva, Geneva, Switzerland.
PLoS One. 2022 Mar 14;17(3):e0265281. doi: 10.1371/journal.pone.0265281. eCollection 2022.
The aim of this study was to explore the effects of chronic low-dose-rate gamma-radiation at a multi-scale level. The specific objective was to obtain an overall view of the endothelial cell response, by integrating previously published data on different cellular endpoints and highlighting possible different mechanisms underpinning radiation-induced senescence.
Different datasets were collected regarding experiments on human umbilical vein endothelial cells (HUVECs) which were chronically exposed to low dose rates (0, 1.4, 2.1 and 4.1 mGy/h) of gamma-rays until cell replication was arrested. Such exposed cells were analyzed for different complementary endpoints at distinct time points (up to several weeks), investigating cellular functions such as proliferation, senescence and angiogenic properties, as well as using transcriptomics and proteomics profiling. A mathematical model was proposed to describe proliferation and senescence.
Simultaneous ceasing of cell proliferation and senescence onset as a function of time were well reproduced by the logistic growth curve, conveying shared equilibria between the two endpoints. The combination of all the different endpoints investigated highlighted a dose-dependence for prematurely induced senescence. However, the underpinning molecular mechanisms appeared to be dissimilar for the different dose rates, thus suggesting a more complex scenario.
This study was conducted integrating different datasets, focusing on their temporal dynamics, and using a systems biology approach. Results of our analysis highlight that different dose rates have different effects in inducing premature senescence, and that the total cumulative absorbed dose also plays an important role in accelerating endothelial cell senescence.
本研究旨在探讨慢性低剂量率伽马辐射在多尺度水平上的影响。具体目标是通过整合先前关于不同细胞终点的发表数据,获得内皮细胞反应的全貌,并强调辐射诱导衰老背后可能存在不同的机制。
收集了关于人脐静脉内皮细胞(HUVEC)慢性暴露于低剂量率(0、1.4、2.1 和 4.1 mGy/h)伽马射线直至细胞复制停止的不同实验数据集。对这些暴露细胞进行了不同互补终点的分析,这些终点在不同时间点(长达数周)进行了研究,调查了细胞功能,如增殖、衰老和血管生成特性,以及使用转录组学和蛋白质组学分析。提出了一个数学模型来描述增殖和衰老。
逻辑增长曲线很好地再现了细胞增殖同时停止和衰老起始随时间的函数关系,这两个终点之间存在着共同的平衡点。所有不同终点的组合突出了过早诱导衰老的剂量依赖性。然而,不同剂量率下的潜在分子机制似乎不同,因此表明情况更为复杂。
本研究通过整合不同数据集,关注其时间动态,并采用系统生物学方法进行。我们分析的结果强调,不同的剂量率在诱导过早衰老方面具有不同的影响,而总累积吸收剂量也在加速内皮细胞衰老方面发挥着重要作用。
