Induction of apoptosis at the molecular genetic level exposed to lead oxide nanoparticles in a chronic animal experiment

Hygiene and sanitation Pub Date : 2024-03-15 DOI:10.47470/0016-9900-2024-103-2-152-157

I.A. Bereza, D. Shaikhova, A. M. Amromina, Y. Ryabova, I. Minigalieva, Marina Р. Sutunkova

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Abstract

Introduction. Workers of industrial enterprises and the population living nearby are at risk of lead poisoning. Lead exposure can lead to irreversible negative consequences for the body, including hepatic and renal dysfunction, hematopoietic damage, cognitive dysfunction, and impairment of the genetic apparatus of the human cell. In this regard, it is necessary to study characteristics of the toxic effect of lead oxide nanoparticles (PbO NPs) to determine their health effects and minimize related disorders and diseases. The purpose of the study was to determine the level of expression of the BAX, BCL-2, P53, GSTM1, GSTP1, and SOD2 genes in various organs of laboratory rats following the exposure to lead oxide nanoparticles. Materials and methods. Twenty mature female albino Wistar rats were used in a four month experiment with chronic inhalation exposure to PbO NPs, 10 animals per group (exposure and control). The mean concentration of PbO NPs in the inhaled air was 0.215 mg/m3. At the end of the exposure period, organ fragments from the decapitated animals were fixed in liquid nitrogen and subsequently stored in a freezer at –80 °C. Total RNA was isolated from tissues using the ExtractRNA reagent. The expression level was determined by quantitative reverse transcription real-time PCR. Results. The BAX expression in the liver of rats exposed to PbO NPs for 4 months was by 2.2 times higher than in the control group (p=0.009). We observed a trend towards an increase in the BAX/BCL-2 ratio in hepatocytes indicating apoptotic processes. The P53 expression level was by 1.4 times higher in the olfactory bulb of the exposed rats (p=0.025) when compared to the controls. No changes were found in the expression levels of antioxidant genes GSTM1, GSTP1, and SOD2. Limitations. The study was conducted using female Wistar rats with no potential sex differences taken into account. Conclusion. Chronic inhalation exposure to PbO NPs induces apoptosis in rat liver through the BAX/BCL-2 pathway and rat brain through the regulation of P53.

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在一项慢性动物实验中，暴露于氧化铅纳米粒子在分子基因水平上诱导细胞凋亡

导言。工业企业的工人和附近的居民都有铅中毒的危险。接触铅会对人体造成不可逆的负面影响，包括肝肾功能障碍、造血功能损伤、认知功能障碍和人体细胞遗传装置受损。因此，有必要研究氧化铅纳米粒子（PbO NPs）的毒性效应特征，以确定其对健康的影响，并尽量减少相关的紊乱和疾病。本研究的目的是测定暴露于纳米氧化铅颗粒后实验鼠各器官中 BAX、BCL-2、P53、GSTM1、GSTP1 和 SOD2 基因的表达水平。材料与方法20 只成熟的雌性白化 Wistar 大鼠参加了为期 4 个月的慢性吸入氧化铅纳米粒子暴露实验，每组 10 只（暴露组和对照组）。吸入空气中的氧化铅氮氧化物平均浓度为 0.215 毫克/立方米。暴露期结束后，将斩首动物的器官碎片固定在液氮中，然后储存在-80 °C的冰箱中。使用 ExtractRNA 试剂从组织中分离出总 RNA。通过逆转录实时定量 PCR 检测表达水平。结果暴露于氧化铅氮氧化物 4 个月的大鼠肝脏中 BAX 的表达量是对照组的 2.2 倍（p=0.009）。我们观察到肝细胞中的 BAX/BCL-2 比值呈上升趋势，这表明存在凋亡过程。与对照组相比，暴露大鼠嗅球中的 P53 表达水平高出 1.4 倍（p=0.025）。抗氧化基因 GSTM1、GSTP1 和 SOD2 的表达水平没有变化。局限性。本研究使用的是雌性 Wistar 大鼠，没有考虑潜在的性别差异。结论慢性吸入暴露于氧化铅氮氧化物会通过 BAX/BCL-2 途径诱导大鼠肝脏凋亡，通过 P53 调节诱导大鼠大脑凋亡。

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Hygiene and sanitation

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