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首页> 外文期刊>Theriogenology >Alteration of gene expression by zinc oxide nanoparticles or zinc sulfate in vivo and comparison with in vitro data: A harmonious case
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Alteration of gene expression by zinc oxide nanoparticles or zinc sulfate in vivo and comparison with in vitro data: A harmonious case

机译:体内氧化锌纳米颗粒或硫酸锌基因表达的改变及与体外数据的比较:和谐案例

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Granulosa cells (GCs) are those somatic cells closest to the female germ cell. GCs play a vital role in oocyte growth and development, and the oocyte is necessary for multiplication of a species. Zinc oxide (ZnO) nanoparticles (NPs) readily cross biologic barriers to be absorbed into biologic systems that make them promising candidates as food additives. The objective of the present investigation was to explore the impact of intact NPs on gene expression and the functional classification of altered genes in hen GCs in vivo, to compare the data from in vivo and in vitro studies, and finally to point out the adverse effects of ZnO NPs on the reproductive system. After a 24-week treatment, hen GCs were isolated and gene expression was quantified. Intact NPs were found in the ovary and other organs. Zn levels were similar in ZnO-NP-100 mg/kg- and ZnSO4-100 mg/kg-treated hen ovaries. ZnO-NP-100 mg/kg and ZnSO4-100 mg/kg regulated the expression of the same sets of genes, and they also altered the expression of different sets of genes individually. The number of genes altered by the ZnO-NP-100 mg/kg and ZnSO4-100 mg/kg treatments was different. Gene Ontology (GO) functional analysis reported that different results for the two treatments and, in Kyoto Encyclopedia of Genes and Genomes (KEGG) enrichment, 12 pathways (out of the top 20 pathways) in each treatment were different. These results suggested that intact NPs and Zn2+ had different effects on gene expression in GCs in vivo. In our recent publication, we noted that intact NPs and Zn2+ differentially altered gene expression in GCs in vitro. However, GO functional classification and KEGG pathway enrichment analyses revealed close similarities for the changed genes in vivo" and in vitro after ZnO NP treatment. Furthermore, close similarities were observed for the changed genes after ZnSO4 treatments in vivo and in vitro by GO functional classification and KEGG pathway enrichment analyses. Therefore, the effects of ZnO NPs on gene expression in vitro might represent their effects on gene expression in vivo. The results from this study and our earlier studies support previous findings indicating ZnO NPs promote adverse effects on organisms. Therefore, precautions should be taken when ZnO NPs are used as diet additives for hens because they might cause reproductive issues. (C) 2016 Elsevier Inc. All rights reserved.
机译:颗粒细胞(GC)是最接近雌性生殖细胞的那些体细胞。 GC在卵母细胞的生长和发育中起着至关重要的作用,卵母细胞是繁殖物种所必需的。氧化锌(ZnO)纳米颗粒(NPs)可以轻松越过生物屏障,被吸收到生物系统中,这使其成为有前途的候选食品添加剂。本研究的目的是探讨完整的NPs对母鸡GC体内基因表达的影响和基因改变的功能分类,比较体内和体外研究的数据,最后指出不良反应ZnO NPs对生殖系统的影响。治疗24周后,分离出母鸡GC,并对基因表达进行定量。在卵巢和其他器官中发现完整的NP。在ZnO-NP-100 mg / kg和ZnSO4-100 mg / kg处理的雌性卵巢中,锌水平相似。 ZnO-NP-100 mg / kg和ZnSO4-100 mg / kg调节相同基因组的表达,它们也分别改变不同基因组的表达。 ZnO-NP-100 mg / kg和ZnSO4-100 mg / kg处理改变的基因数量不同。基因本体论(GO)功能分析报告说,这两种治疗方法的结果不同,并且在《京都基因与基因组百科全书》(KEGG)富集中,每种治疗方法中的12条途径(前20条途径中的途径)都不相同。这些结果表明完整的NP和Zn2 +对体内GC中的基因表达具有不同的影响。在我们最近的出版物中,我们注意到完整的NP和Zn2 +在体外GC中差异性地改变了基因表达。然而,GO功能分类和KEGG途径富集分析揭示了ZnO NP处理后体内和体外变化的基因的相似性。此外,通过GO功能分类,在体内和体外观察到ZnSO4处理后变化的基因的相似性。因此,ZnO NPs在体外对基因表达的影响可能代表了其对体内基因表达的影响,这项研究和我们以前的研究结果支持了先前的发现,表明ZnO NPs促进了对生物体的不利影响。 ,将ZnO NPs用作母鸡的饮食添加剂时应采取预防措施,因为它们可能引起繁殖问题(C)2016 Elsevier Inc.保留所有权利。

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