苯并(a)芘在两种人类细胞系MCF-7和HepG2中诱导的基因表达随时间和浓度的变化。

Time- and concentration-dependent changes in gene expression induced by benzo(a)pyrene in two human cell lines, MCF-7 and HepG2.

作者信息

Hockley Sarah L, Arlt Volker M, Brewer Daniel, Giddings Ian, Phillips David H

机构信息

Section of Molecular Carcinogenesis, Institute of Cancer Research, Brookes Lawley Building, Cotswold Road, Sutton, Surrey SM2 5NG, UK.

出版信息

BMC Genomics. 2006 Oct 16;7:260. doi: 10.1186/1471-2164-7-260.

DOI:10.1186/1471-2164-7-260

PMID:17042939

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1621085/

Abstract

BACKGROUND

The multi-step process of carcinogenesis can be more fully understood by characterizing gene expression changes induced in cells by carcinogens. In this study, expression microarrays were used to monitor the activity of 18,224 cDNA clones in MCF-7 and HepG2 cells exposed to the carcinogen benzo(a)pyrene (BaP) or its non-carcinogenic isomer benzo(e)pyrene (BeP). Time and concentration gene expression effects of BaP exposure have been assessed and linked to other measures of cellular stress to aid in the identification of novel genes/pathways involved in the cellular response to genotoxic carcinogens.

RESULTS

BaP (0.25-5.0 muM; 6-48 h exposure) modulated 202 clones in MCF-7 cells and 127 in HepG2 cells, including 27 that were altered in both. In contrast, BeP did not induce consistent gene expression changes at the same concentrations. Significant time- and concentration-dependent responses to BaP were seen in both cell lines. Expression changes observed in both cell lines included genes involved in xenobiotic metabolism (e.g., CYP1B1, NQO1, MGST1, AKR1C1, AKR1C3,CPM), cell cycle regulation (e.g., CDKN1A), apoptosis/anti-apoptosis (e.g., BAX, IER3), chromatin assembly (e.g., histone genes), and oxidative stress response (e.g., TXNRD1). RTqPCR was used to validate microarray data. Phenotypic anchoring of the expression data to DNA adduct levels detected by 32P-postlabelling, cell cycle data and p53 protein expression identified a number of genes that are linked to these biological outcomes, thereby strengthening the identification of target genes. The overall response to BaP consisted of up-regulation of tumour suppressor genes and down-regulation of oncogenes promoting cell cycle arrest and apoptosis. Anti-apoptotic signalling that may increase cell survival and promote tumourigenesis was also evident.

CONCLUSION

This study has further characterised the gene expression response of human cells after genotoxic insult, induced after exposure to concentrations of BaP that result in minimal cytotoxicity. We have demonstrated that investigating the time and concentration effect of a carcinogen on gene expression related to other biological end-points gives greater insight into cellular responses to such compounds and strengthens the identification of target genes.

摘要

背景

通过描述致癌物在细胞中诱导的基因表达变化，可以更全面地了解癌症发生的多步骤过程。在本研究中，利用表达微阵列监测暴露于致癌物苯并(a)芘（BaP）或其非致癌异构体苯并(e)芘（BeP）的MCF-7和HepG2细胞中18,224个cDNA克隆的活性。已评估了BaP暴露的时间和浓度对基因表达的影响，并将其与细胞应激的其他指标相关联，以帮助识别参与细胞对遗传毒性致癌物反应的新基因/途径。

结果

BaP（0.25 - 5.0 μM；暴露6 - 48小时）在MCF-7细胞中调节了202个克隆，在HepG2细胞中调节了127个克隆，其中27个在两种细胞中均发生改变。相比之下，BeP在相同浓度下未诱导一致的基因表达变化。在两种细胞系中均观察到对BaP的显著时间和浓度依赖性反应。在两种细胞系中观察到的表达变化包括参与外源性物质代谢的基因（如CYP1B1、NQO1、MGST1、AKR1C1、AKR1C3、CPM）、细胞周期调节基因（如CDKN1A）、凋亡/抗凋亡基因（如BAX、IER3）、染色质组装基因（如组蛋白基因）以及氧化应激反应基因（如TXNRD1）。采用RTqPCR验证微阵列数据。将表达数据与通过32P后标记检测到的DNA加合物水平、细胞周期数据和p53蛋白表达进行表型锚定，确定了一些与这些生物学结果相关的基因，从而加强了对靶基因的识别。对BaP的总体反应包括肿瘤抑制基因的上调和促进细胞周期停滞及凋亡的癌基因的下调。抗凋亡信号传导也很明显，这可能会增加细胞存活并促进肿瘤发生。

结论

本研究进一步表征了人类细胞在遗传毒性损伤后的基因表达反应，这种损伤是在暴露于导致最小细胞毒性的BaP浓度后诱导产生的。我们已经证明，研究致癌物对与其他生物学终点相关的基因表达的时间和浓度效应，能更深入地了解细胞对这类化合物的反应，并加强对靶基因的识别。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6cc4/1621085/2094562ddf0f/1471-2164-7-260-1.jpg

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苯并(a)芘在两种人类细胞系MCF-7和HepG2中诱导的基因表达随时间和浓度的变化。

Time- and concentration-dependent changes in gene expression induced by benzo(a)pyrene in two human cell lines, MCF-7 and HepG2.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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