Correlation between Erythrocytes Echinocytic Transformation and Micronucleation in Rodents Exposed to Selected Toxicants: A Preliminary

A. Khalil, Hasan Abo Siam, Heba R. Al Naimi, Heba F. Alnimer, Amneh Alrabie
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Abstract

The genetic constitution and conformational state of living cells are characteristic of building, homeostasis, decay, and apoptosis. Genetic and morphological alterations of red blood cells (RBCs) may influence their survival and function. The purpose of this study was to determine the relation, if any, between the incidence of micronuclei (MN) formation in erythrocytes and their transformations from dissociates to echinocytes or echinocytosis. Two rodents models were exposed in vivo, at various doses and periods, to three environmental agents, physical (Radio Frequency Radiation, RFR), a phytochemical (plant extracts), and geological (Bentonite Nano-clay Particles, BNPs). Microscopic analysis of blood smears stained with Hematoxylin- Giemsa, compared to erythrocytes from unexposed animals, confirmed that the three environmental agents, after long-time exposure, significantly induced MN and increased percentage micronucleated erythrocytes (MNE) as well as the rate of echinocytic transformation. Correlation analysis showed that there were good correlations between erythrocyte micronucleation and echinocytosis. The reason (s) behind this phenomenon is not fully clear at present. We believe that echinocytogenic factors may result in abnormal erythrocytes like echinocytes. The presented data could be an indication that cellular morphological changes may be related to alteration in the genome leading to a common pathway in apoptosis.
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暴露于特定毒物的啮齿动物红细胞棘细胞转化与微核的相关性:初步研究
活细胞的遗传结构和构象状态具有构建、稳态、衰变和凋亡的特征。红细胞(rbc)的遗传和形态改变可能影响其生存和功能。本研究的目的是确定红细胞中微核(MN)形成的发生率与其从游离细胞转化为棘细胞或棘细胞增多症之间的关系。两种啮齿动物模型在体内以不同剂量和时间暴露于三种环境因素,物理因素(射频辐射,RFR),植物化学因素(植物提取物)和地质因素(膨润土纳米粘土颗粒,BNPs)。与未暴露动物的红细胞相比,用苏木精-吉姆萨染色的血液涂片显微镜分析证实,这三种环境物质在长期暴露后,显著诱导MN和增加微核红细胞(MNE)百分比以及棘细胞转化率。相关分析显示红细胞微核与棘细胞增多症有良好的相关性。这一现象背后的原因目前还不完全清楚。我们认为棘细胞生成因子可能导致红细胞异常,如棘细胞。所提出的数据可能表明,细胞形态的改变可能与基因组的改变有关,从而导致细胞凋亡的共同途径。
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