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CYP2A13 7520C 和 7520G 等位基因在人肺中差异表达的机制：CYP2A13 异质核 RNA 的等位基因表达分析，以及多个顺式调控单核苷酸多态性参与的证据。

Mechanisms of differential expression of the CYP2A13 7520C and 7520G alleles in human lung: allelic expression analysis for CYP2A13 heterogeneous nuclear RNA, and evidence for the involvement of multiple cis-regulatory single nucleotide polymorphisms.

机构信息

Wadsworth Center, New York State Department of Health and School of Public Health, State University of New York at Albany, Albany, New York 12201-0509, USA.

出版信息

Pharmacogenet Genomics. 2009 Nov;19(11):852-63. doi: 10.1097/FPC.0b013e3283313aa5.

DOI:10.1097/FPC.0b013e3283313aa5

PMID:20431511

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2875259/

Abstract

OBJECTIVE

To identify the mechanisms underlying the decreased allelic expression of a common CYP2A13 allele (7520C>G) in the human lung; CYP2A13 is expressed selectively in the respiratory tract, and is highly efficient in the metabolic activation of several chemical carcinogens.

METHODS

The 7520C/G alleles were compared for mRNA stability in cells and relative heterogeneous nuclear RNA (hnRNA) levels in human lungs. Promoter region single nucleotide polymorphisms (SNPs) were identified and analyzed through in-vitro reporter gene assays and gel-shift assays, to uncover the causative SNPs responsible for the decreased allelic expression.

RESULTS

(i) The 7520C>G SNP does not influence CYP2A13 mRNA stability in CYP2A13-transfected human lung or nasal epithelial cells; (ii) levels of the 7520G hnRNA were consistently lower (<10%) than the levels of the 7520C hnRNA in lung samples from nine heterozygous individuals; (iii) three SNPs (-1479T>C, -3101T>G, and -7756G>A) in linkage disequilibrium with the 7520C>G variation were found to cause altered interaction with DNA-binding proteins and decreases in promoter activity; (iv) the suppressive effects of the -1479T>C, -3101T>G, and -7756G>A SNPs on the CYP2A13 promoter were additive, whereas the negative effects of the -1479T>C SNP were enhanced by methylation of -1479C.

CONCLUSION

The decrease in the expression of 7520G allele was because of the cumulative suppressive effects of multiple SNPs, with each by itself having a relatively small effect on CYP2A13 transcription.

摘要

目的

确定人类肺部常见 CYP2A13 等位基因（7520C>G）表达降低的机制；CYP2A13 选择性表达于呼吸道，并且在几种化学致癌物的代谢激活中具有很高的效率。

方法

比较细胞中 7520C/G 等位基因的 mRNA 稳定性和人肺中的相对不均一核 RNA（hnRNA）水平。通过体外报告基因检测和凝胶阻滞检测鉴定并分析启动子区域单核苷酸多态性（SNP），以揭示导致等位基因表达降低的因果 SNP。

结果

（i）7520C>G SNP 不影响 CYP2A13 转染的人肺或鼻上皮细胞中的 CYP2A13 mRNA 稳定性；（ii）在来自九个杂合个体的肺样本中，7520G hnRNA 的水平始终低于 7520C hnRNA 的水平（<10%）；（iii）与 7520C>G 变异相关的三个 SNP（-1479T>C、-3101T>G 和 -7756G>A）被发现导致与 DNA 结合蛋白的相互作用改变，并降低启动子活性；（iv）-1479T>C、-3101T>G 和 -7756G>A SNP 对 CYP2A13 启动子的抑制作用具有加性，而-1479T>C SNP 的负效应则通过-1479C 的甲基化增强。

结论

7520G 等位基因表达降低是由于多个 SNP 的累积抑制作用所致，每个 SNP 本身对 CYP2A13 转录的影响相对较小。

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CYP2A13 7520C 和 7520G 等位基因在人肺中差异表达的机制：CYP2A13 异质核 RNA 的等位基因表达分析，以及多个顺式调控单核苷酸多态性参与的证据。

Mechanisms of differential expression of the CYP2A13 7520C and 7520G alleles in human lung: allelic expression analysis for CYP2A13 heterogeneous nuclear RNA, and evidence for the involvement of multiple cis-regulatory single nucleotide polymorphisms.

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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