Anastasiya Mircheva, Philippe Vangrieken, S. Al-Nasiry, Frederik-Jan van Schooten, R. Godschalk, S. Langie
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引用次数: 0
摘要
基于彗星试验的体外 DNA 修复试验已成为量化人类淋巴细胞或培养细胞中碱基切除修复(BER)活性的常用工具。在这里,我们优化了在人类胎盘组织中研究碱基切除修复的方案,因为胎盘是对生命早期暴露进行生物监测的非侵入性组织,可用于研究与产前疾病相关的分子机制。胎盘蛋白提取物的最佳蛋白质浓度为 2 毫克蛋白质/毫升,以达到最佳损伤识别和切割效果。添加蚜虫畏不会导致非特异性切口减少,因此未将其纳入优化方案。样品收集和分析之间的间隔时间在 70 分钟内不会影响 BER 活性。最后,该优化方案在先兆子痫(PE)胎盘组织(n = 11)上进行了测试,观察到 PE 胎盘的 BER 活性明显低于对照组(n = 9)。与此同时,在 PE 胎盘中,BER 相关基因的表达明显减少,DNA 氧化增加。我们的研究表明,胎盘中的核酸还原酶活性是可以确定的,与健康胎盘相比,PE 胎盘中的核酸还原酶活性较低。这些发现应在前瞻性临床研究中加以跟进,以研究 BER 在 PE 的发展中的作用。
Optimizing the Comet Assay-Based In Vitro DNA Repair Assay for Placental Tissue: A Pilot Study with Pre-Eclamptic Patients
The comet assay-based in vitro DNA repair assay has become a common tool for quantifying base excision repair (BER) activity in human lymphocytes or cultured cells. Here, we optimized the protocol for studying BER in human placental tissue because the placenta is a non-invasive tissue for biomonitoring of early-life exposures, and it can be used to investigate molecular mechanisms associated with prenatal disorders. The optimal protein concentration of placental protein extracts for optimal damage recognition and incision was 2 mg protein/mL. The addition of aphidicolin did not lead to reduced non-specific incisions and was, therefore, not included in the optimized protocol. The interval between sample collection and analysis did not affect BER activity up to 70 min. Finally, this optimized protocol was tested on pre-eclamptic (PE) placental tissues (n = 11) and significantly lower BER activity in PE placentas compared to controls (n = 9) was observed. This was paralleled by a significant reduction in the expression of BER-related genes and increased DNA oxidation in PE placentas. Our study indicates that BER activity can be determined in placentas, and lower activity is present in PE compared with healthy. These findings should be followed up in prospective clinical investigations to examine BER’s role in the advancement of PE.
期刊介绍:
The International Journal of Molecular Sciences (ISSN 1422-0067) provides an advanced forum for chemistry, molecular physics (chemical physics and physical chemistry) and molecular biology. It publishes research articles, reviews, communications and short notes. Our aim is to encourage scientists to publish their theoretical and experimental results in as much detail as possible. Therefore, there is no restriction on the length of the papers or the number of electronics supplementary files. For articles with computational results, the full experimental details must be provided so that the results can be reproduced. Electronic files regarding the full details of the calculation and experimental procedure, if unable to be published in a normal way, can be deposited as supplementary material (including animated pictures, videos, interactive Excel sheets, software executables and others).
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