Lymphocyte-based challenge DNA-repair assays for personalized health risk assessment

IF 6.4 2区 医学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Tong-shuai Wang , Mathuros Ruchirawat , Panida Narasumrit , Zhao-lin Xia , William W. Au
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引用次数: 2

Abstract

Combinations of genetic and environmental factors are responsible for the development of many human diseases, such as cancer, as demonstrated using various biomarkers. Within this scenario, DNA repair holds a gate-keeper position which determines outcomes after appearance of DNA damage and, therefore, adverse cellular consequences, e.g., initiation of carcinogenesis. DNA repair deficiency and some of the subsequent events can be validated from studies using live cells from cancer patients. However, these deficiencies/events are difficult to demonstrate in live cells from normal individuals because individual variations in DNA repair capacities (DRC) are too low to be measured easily. Such lack of information has been hindering progress in developing personalized disease prevention and intervention protocols, especially among exposed populations. However, using a variety of challenge assays as biomarkers, variations in individual’s DRC can be amplified in live cells and be determined. Furthermore, evidence indicates that DRC are not only inherited but can also be modified by environmental factors (e.g., nutritional status and exposure to genotoxic substances). Using these challenge assays, e.g., in live lymphocytes, individual’s DRC can be holistically and functionally determined as well as quantitated. With the more precise information, assessment of health risk can be better determined on an individual rather than on a population basis. This review provides a succinct summary on the development and application of recent challenge assays in lymphocytes which can provide measurements of individuals’ DRC, and on the latest data for more precise disease prevention and intervention.

基于淋巴细胞的挑战dna修复分析用于个性化健康风险评估
正如利用各种生物标记物所证明的那样,遗传和环境因素的组合是许多人类疾病(如癌症)发展的原因。在这种情况下,DNA修复扮演了一个看门人的角色,它决定了DNA损伤出现后的结果,从而决定了不良的细胞后果,例如致癌的开始。DNA修复缺陷和一些后续事件可以通过使用癌症患者的活细胞进行研究来验证。然而,这些缺陷/事件很难在正常个体的活细胞中证明,因为DNA修复能力(DRC)的个体差异太低,无法轻易测量。这种信息的缺乏阻碍了在制定个性化疾病预防和干预方案方面取得进展,特别是在接触人群中。然而,使用各种激发试验作为生物标志物,个体DRC的变化可以在活细胞中放大并确定。此外,有证据表明,刚果民主共和国不仅是遗传的,而且还可以被环境因素(例如,营养状况和接触遗传毒性物质)所改变。使用这些攻击试验,例如,在活淋巴细胞中,可以从整体和功能上确定个体的DRC,并进行定量。有了更精确的信息,健康风险评估就可以更好地以个人而不是以人口为基础来确定。这篇综述简要总结了最近淋巴细胞攻击试验的发展和应用,它可以提供个体DRC的测量,以及更精确的疾病预防和干预的最新数据。
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
CiteScore
12.20
自引率
1.90%
发文量
22
审稿时长
15.7 weeks
期刊介绍: The subject areas of Reviews in Mutation Research encompass the entire spectrum of the science of mutation research and its applications, with particular emphasis on the relationship between mutation and disease. Thus this section will cover advances in human genome research (including evolving technologies for mutation detection and functional genomics) with applications in clinical genetics, gene therapy and health risk assessment for environmental agents of concern.
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