Genotoxicity of advanced glycation end products in vitro is influenced by their preparation temperature, purification and cell exposure time.

IF 2.5 4区 医学 Q3 GENETICS & HEREDITY
Mutagenesis Pub Date : 2021-11-29 DOI:10.1093/mutage/geab037
Emma L Jaunay, Varinderpal S Dhillon, Susan J Semple, Bradley S Simpson, Maulik Ghetia, Permal Deo, Michael Fenech
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引用次数: 1

Abstract

Advanced glycation end products (AGEs) are formed via non-enzymatic reactions between amino groups of proteins and the carbonyl groups of reducing sugars. Previous studies have shown that highly glycated albumin prepared using a glucose-bovine serum albumin (Glu-BSA) model system incubated at 60°C for 6 weeks induces genotoxicity in WIL2-NS cells at 9 days of exposure measured by the cytokinesis-block micronucleus cytome (CBMNcyt) assay. However, this AGE model system is not physiologically relevant as normal body temperature is 37°C and the degree of glycation may exceed the extent of albumin modification in vivo. We hypothesised that the incubation temperature and purification method used in these studies may cause changes to the chemical profile of the glycated albumin and may influence the extent of genotoxicity observed at 3, 6 and 9 days of exposure. We prepared AGEs generated using Glu-BSA model systems incubated at 60°C or 37°C purified using trichloroacetic acid (TCA) precipitation or ultrafiltration (UF) and compared their chemical profile (glycation, oxidation, and aggregation) and genotoxicity in WIL2-NS cells using the CBMNcyt assay after 3, 6 and 9 days of exposure. The number of micronuclei (MNi) was significantly higher for cells treated with Glu-BSA incubated at 60°C and purified via TCA (12 ± 1 MNi/1000 binucleated cells) compared to Glu-BSA incubated at 37°C and purified using UF (6 ± 1 MNi/1000 binucleated cells) after 9 days (P < 0.0001). The increase in genotoxicity observed could be explained by a higher level of protein glycation, oxidation, and aggregation of the Glu-BSA model system incubated at 60°C relative to 37°C. This study highlighted that the incubation temperature, purification method and cell exposure time are important variables to consider when generating AGEs in vitro and will enable future studies to better reflect in vivo situations of albumin glycation.

晚期糖基化终产物的体外遗传毒性受其制备温度、纯化和细胞暴露时间的影响。
晚期糖基化终产物(AGEs)是通过蛋白质氨基和还原糖羰基之间的非酶反应形成的。先前的研究表明,使用葡萄糖-牛血清白蛋白(Glu-BSA)模型系统在60°C下孵育6周制备的高度糖化白蛋白在暴露第9天通过细胞动力学阻断微核细胞组(CBMNcyt)测定可诱导WIL2-NS细胞的遗传毒性。然而,由于正常体温为37℃,体内糖基化程度可能超过白蛋白修饰程度,因此该AGE模型系统不具有生理学相关性。我们假设,这些研究中使用的孵育温度和纯化方法可能会导致糖基化白蛋白的化学特征发生变化,并可能影响暴露后3,6和9天观察到的遗传毒性程度。我们使用Glu-BSA模型系统在60°C或37°C孵育,使用三氯乙酸(TCA)沉淀或超滤(UF)纯化,制备了AGEs,并在暴露于WIL2-NS细胞3、6和9天后使用CBMNcyt试验比较了它们的化学特征(糖基化、氧化和聚集)和遗传毒性。与37℃培养、UF纯化的Glu-BSA(6±1 MNi/1000双核细胞)相比,60℃培养、TCA纯化的Glu-BSA(12±1 MNi/1000双核细胞)处理9天后的细胞微核(MNi)数量显著增加(P < 0.0001)。所观察到的遗传毒性增加可以解释为在60°C孵育的Glu-BSA模型系统的蛋白质糖化,氧化和聚集水平高于37°C。本研究强调,培养温度、纯化方法和细胞暴露时间是体外生成AGEs时需要考虑的重要变量,这将使未来的研究能够更好地反映体内白蛋白糖基化的情况。
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
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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