辐射激效和剂量反应:我们目前的概念有意义或有用吗?

IF 6.1 Q1 TOXICOLOGY
Carmel Mothersill, Colin Seymour
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引用次数: 3

摘要

辐射激效通常是用一个狭窄的剂量范围来描述的,在这个剂量范围内,随着剂量的增加,辐射似乎会产生有益的影响,然后才会变得有害。在这篇文章中,我们建议用不同的方式看待这个问题可能是有益的。特别是,我们认为低剂量机制已被清楚地证明与高剂量机制不同,并且涉及通信和信号通路的激活。它们具有非常低的诱导阈值,并在感兴趣的剂量范围内达到饱和,因此“剂量”的概念相当无关紧要。我们建议,我们不应将模型、机制和辐射防护纳入剂量框架,而应考虑一个反应框架。在实验研究中,低剂量反应或“效应”实际上是我们测量的,例如突变、蛋白质组变化、氧化应激、线粒体变化等,但我们将它们描述为剂量的“替代品”,尽管我们意识到个体差异很大。也许我们需要接受不同的剂量会引起不同的反应,这取决于环境。“剂量”和“剂量率”变成了“反应”和“反应率”,并将由被激活的通信信号的类型决定。这种反应模型将允许年龄、性别、营养、遗传学、表观遗传学和生化/生物物理功能等因素被视为除物理剂量沉积外的结果决定因素。我们建议应该对激效有一个更有用的整体理解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Radiation hormesis and dose response: Are our current concepts meaningful or useful?

Radiation hormesis is generally described in terms of a narrow dose range over which radiation appears to result in beneficial effects before becoming harmful as the dose increases. We suggest in this article that a different way of looking at the issue might be profitable. In particular, we suggest that low-dose mechanisms have been clearly shown to be different to high-dose mechanisms and to involve activation of communication and signaling pathways. These have very low induction thresholds and saturate at doses within the range of interest making the concept of ‘dose’ rather irrelevant. We propose that instead of framing models, mechanisms and indeed radiation protection within a dose framework, we need instead to consider a response framework. In experimental studies, low-dose response or ‘effect’ is actually what we measure, for example, mutation, proteomic changes, oxidative stress, mitochondrial changes, etc. but we describe them as ‘surrogates’ for dose despite being aware of wide individual variations. Perhaps we need to accept that different doses will provoke different responses that will be context dependent. ‘Dose’ and ‘dose rate’ becomes ‘response’ and ‘response rate’, and would be determined by the type of communication signalling that was activated. Such a response model would allow factors such as age, sex, nutrition, genetics, epigenetics, and biochemical/biophysical functionality to be considered as determinants of outcome in addition to the physical dose deposition. We suggest that a more useful holistic understanding of hormesis should result.

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来源期刊
Current Opinion in Toxicology
Current Opinion in Toxicology Pharmacology, Toxicology and Pharmaceutics-Toxicology
CiteScore
10.40
自引率
0.00%
发文量
43
期刊介绍: The aims and scope of Current Opinion in Toxicology is to systematically provide the reader with timely and provocative views and opinions of the highest qualified and recognized experts on current advances in selected topics within the field of toxicology. The goal is that Current Opinion in Toxicology will be an invaluable source of information and perspective for researchers, teachers, managers and administrators, policy makers and students. Division of the subject into sections: For this purpose, the scope of Toxicology is divided into six selected high impact themed sections, each of which is reviewed once a year: Mechanistic Toxicology, Metabolic Toxicology, Risk assessment in Toxicology, Genomic Toxicology, Systems Toxicology, Translational Toxicology.
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