微核作为相对生物效应标记的适用性。

IF 2.5 4区 医学 Q3 GENETICS & HEREDITY
Mutagenesis Pub Date : 2022-04-02 DOI:10.1093/mutage/geac001
Charlotte J Heaven, Hannah C Wanstall, Nicholas T Henthorn, John-William Warmenhoven, Samuel P Ingram, Amy L Chadwick, Elham Santina, Jamie Honeychurch, Christine K Schmidt, Karen J Kirkby, Norman F Kirkby, Neil G Burnet, Michael J Merchant
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引用次数: 0

摘要

微核(MN)的形成通常被用作辐照的生物测定指标,历来被用作细胞 DNA 损伤的测量指标。微核与剂量密切相关,也被认为是辐射质量的标志,可区分粒子和光子辐照。测量 MN 形成的 "黄金标准 "是 Fenech 的细胞分裂阻滞微核(CBMN)细胞组测定法,该方法使用细胞分裂阻滞剂细胞松弛素-B。在此,我们对研究体外诱导 MN 趋势的文献进行了全面分析,共整理出 193 篇文献,2476 个数据点。数据收集自使用 CBMN 检测法量化电离辐射体外诱导 MN 的原始研究。总体而言,荟萃分析表明,个别研究的 MN 大多随剂量呈线性增长[85% 的每个细胞 MN(MNPC)数据集和 89% 的含 MN 百分比(PCMN)数据集的 R2 大于 0.90]。然而,不同研究之间的差异很大,导致合并数据后的 R2 较低(MNPC 数据集为 0.47,PCMN 数据集为 0.60)。颗粒类型、物种、细胞类型和细胞松弛素-B 浓度被认为会影响 MN 频率。然而,数据的差异意味着这些影响与所研究的实验参数并不密切相关。在比较 PCMN 而非 MNPC 数量时,不同研究之间的差异较小。偏离 CBMN 方案规定的时间对 MN 诱导的影响不大。不过,进一步分析表明,严格遵循 Fenech 方案的研究之间的差异较小,这提供了更可靠的结果。通过限制细胞类型和物种以及只选择遵循 Fenech 方案的研究,两个测量指标的 R2 都增加到了 0.64。因此,我们认为,由于不同研究之间存在差异,MN 目前还不能很好地预测辐射诱导的 DNA 损伤,并对未来评估 MN 的研究提出了建议,以提高数据集之间的一致性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The suitability of micronuclei as markers of relative biological effect.

The suitability of micronuclei as markers of relative biological effect.

The suitability of micronuclei as markers of relative biological effect.

The suitability of micronuclei as markers of relative biological effect.

Micronucleus (MN) formation is routinely used as a biodosimeter for radiation exposures and has historically been used as a measure of DNA damage in cells. Strongly correlating with dose, MN are also suggested to indicate radiation quality, differentiating between particle and photon irradiation. The "gold standard" for measuring MN formation is Fenech's cytokinesis-block micronucleus (CBMN) cytome assay, which uses the cytokinesis blocking agent cytochalasin-B. Here, we present a comprehensive analysis of the literature investigating MN induction trends in vitro, collating 193 publications, with 2476 data points. Data were collected from original studies that used the CBMN assay to quantify MN in response to ionizing radiation in vitro. Overall, the meta-analysis showed that individual studies mostly have a linear increase of MN with dose [85% of MN per cell (MNPC) datasets and 89% of percentage containing MN (PCMN) datasets had an R2 greater than 0.90]. However, there is high variation between studies, resulting in a low R2 when data are combined (0.47 for MNPC datasets and 0.60 for PCMN datasets). Particle type, species, cell type, and cytochalasin-B concentration were suggested to influence MN frequency. However, variation in the data meant that the effects could not be strongly correlated with the experimental parameters investigated. There is less variation between studies when comparing the PCMN rather than the number of MNPC. Deviation from CBMN protocol specified timings did not have a large effect on MN induction. However, further analysis showed less variation between studies following Fenech's protocol closely, which provided more reliable results. By limiting the cell type and species as well as only selecting studies following the Fenech protocol, R2 was increased to 0.64 for both measures. We therefore determine that due to variation between studies, MN are currently a poor predictor of radiation-induced DNA damage and make recommendations for futures studies assessing MN to improve consistency between datasets.

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来源期刊
Mutagenesis
Mutagenesis 生物-毒理学
CiteScore
5.90
自引率
3.70%
发文量
22
审稿时长
6-12 weeks
期刊介绍: Mutagenesis is an international multi-disciplinary journal designed to bring together research aimed at the identification, characterization and elucidation of the mechanisms of action of physical, chemical and biological agents capable of producing genetic change in living organisms and the study of the consequences of such changes.
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