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本文引用的文献

1
Characterization of enzymatic properties of human ribonucleotide reductase holoenzyme reconstituted in vitro from hRRM1, hRRM2, and p53R2 subunits.对由hRRM1、hRRM2和p53R2亚基体外重组的人核糖核苷酸还原酶全酶的酶学性质进行表征。
Biochem Biophys Res Commun. 2006 Feb 10;340(2):428-34. doi: 10.1016/j.bbrc.2005.12.019. Epub 2005 Dec 15.
2
Cell entry and export of nucleoside analogues.核苷类似物的细胞内摄入与排出
Virus Res. 2005 Feb;107(2):151-64. doi: 10.1016/j.virusres.2004.11.005.
3
Phosphorylation of Cytidine, Deoxycytidine, and Their Analog Monophosphates by Human UMP/CMP Kinase Is Differentially Regulated by ATP and Magnesium.人UMP/CMP激酶对胞苷、脱氧胞苷及其类似物单磷酸酯的磷酸化作用受ATP和镁的差异调节。
Mol Pharmacol. 2005 Mar;67(3):806-14. doi: 10.1124/mol.104.006098. Epub 2004 Nov 18.
4
Hypermethylation of growth arrest DNA damage-inducible gene 45 beta promoter in human hepatocellular carcinoma.人类肝细胞癌中生长停滞DNA损伤诱导基因45β启动子的高甲基化
Am J Pathol. 2004 Nov;165(5):1689-99. doi: 10.1016/s0002-9440(10)63425-6.
5
Determinants of sensitivity and resistance to gemcitabine: the roles of human equilibrative nucleoside transporter 1 and deoxycytidine kinase in non-small cell lung cancer.吉西他滨敏感性和耐药性的决定因素:人平衡核苷转运体1和脱氧胞苷激酶在非小细胞肺癌中的作用
Cancer Sci. 2004 Sep;95(9):753-7. doi: 10.1111/j.1349-7006.2004.tb03257.x.
6
An increase in the expression of ribonucleotide reductase large subunit 1 is associated with gemcitabine resistance in non-small cell lung cancer cell lines.核糖核苷酸还原酶大亚基1表达增加与非小细胞肺癌细胞系吉西他滨耐药相关。
Cancer Res. 2004 Jun 1;64(11):3761-6. doi: 10.1158/0008-5472.CAN-03-3363.
7
Resistance to gemcitabine in a human follicular lymphoma cell line is due to partial deletion of the deoxycytidine kinase gene.人滤泡性淋巴瘤细胞系对吉西他滨的耐药性是由于脱氧胞苷激酶基因部分缺失所致。
BMC Pharmacol. 2004 May 24;4:8. doi: 10.1186/1471-2210-4-8.
8
Nuclear factor Y regulation and promoter transactivation of human ribonucleotide reductase subunit M2 gene in a Gemcitabine resistant KB clone.
Biochem Pharmacol. 2004 Apr 15;67(8):1499-511. doi: 10.1016/j.bcp.2003.12.026.
9
Photobiological modulation of cell attachment via cytochrome c oxidase.通过细胞色素c氧化酶对细胞附着进行光生物调节。
Photochem Photobiol Sci. 2004 Feb;3(2):211-6. doi: 10.1039/b306126d. Epub 2003 Nov 12.
10
RNA interference targeting the M2 subunit of ribonucleotide reductase enhances pancreatic adenocarcinoma chemosensitivity to gemcitabine.靶向核糖核苷酸还原酶M2亚基的RNA干扰增强胰腺腺癌对吉西他滨的化疗敏感性。
Oncogene. 2004 Feb 26;23(8):1539-48. doi: 10.1038/sj.onc.1207272.

在一个耐药的KB克隆中,细胞色素C氧化酶介导的吉西他滨掺入DNA的破坏增加。

An increase of cytochrome C oxidase mediated disruption of gemcitabine incorporation into DNA in a resistant KB clone.

作者信息

Liu Xiyong, Zhou Bingsen, Mi Shu, Xue Lijun, Shih Jennifer, Lee Janice, Chau Jennifer, Un Frank, Yen Yun

机构信息

Department of Clinical & Molecular Pharmacology, City of Hope National Medical Center, 1500 E. Duarte Road, Duarte, CA 91010-3000, United States.

出版信息

Biochem Pharmacol. 2007 Jun 15;73(12):1927-38. doi: 10.1016/j.bcp.2007.03.014. Epub 2007 Mar 20.

DOI:10.1016/j.bcp.2007.03.014
PMID:17428446
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1950577/
Abstract

Mechanistic aberrations leading to Gemcitabine (2',2'-dFdCyd,2,2-difluorodeoxycytidine, Gem) resistance may include alteration in its transport, metabolism and incorporation into DNA. To explore the mechanism of Gem resistance, the restriction fragment differential display PCR (RFDD-PCR) was employed to compare the mRNA expression patterns of KBGem (Gem resistant), KBHURs (hydroxyurea resistant) and KBwt (parental KB cell). Nine gene fragments were overexpressed specifically in the KBGem clone. Sequencing and BLAST results showed that three fragments represent cytochrome C oxidase (CCOX, respiration complex IV) subunit III (CCOX3). The cDNA microarray confirmed that the mRNAs of CCOX and ATP synthase subunits were upregulated in KBGem as compared to KBwt and KBHURs. The increase in CCOX1 protein and activity led to the increase of free ATP concentration, which is consistent with the gene expression profile of KBGem. Furthermore, the sensitivity to Gem could be reversed by sodium azide, a CCOX inhibitor. Following the treatment of sodium azide, the cellular accumulation of [3H]-Gem increased in a dose (of azide)-dependent manner, which is associated with increase of [3H]-Gem incorporation into DNA in KBGem. In summary, an increase of CCOX activity and free ATP level may reduce the transport, metabolism and DNA incorporation of Gem, resulting in Gem resistance.

摘要

导致吉西他滨(2',2'-二氟脱氧胞苷,2,2 - 二氟脱氧胞嘧啶核苷,Gem)耐药的机制异常可能包括其转运、代谢以及掺入DNA过程的改变。为探究Gem耐药机制,采用限制性片段差异显示PCR(RFDD-PCR)比较了KBGem(Gem耐药)、KBHURs(羟基脲耐药)和KBwt(亲代KB细胞)的mRNA表达模式。九个基因片段在KBGem克隆中特异性过表达。测序和BLAST结果表明,三个片段代表细胞色素C氧化酶(CCOX,呼吸复合体IV)亚基III(CCOX3)。cDNA微阵列证实,与KBwt和KBHURs相比,KBGem中CCOX和ATP合酶亚基的mRNA上调。CCOX1蛋白和活性的增加导致游离ATP浓度升高,这与KBGem的基因表达谱一致。此外,CCOX抑制剂叠氮化钠可逆转对Gem的敏感性。用叠氮化钠处理后,[3H]-Gem在细胞内的积累呈剂量(叠氮化钠)依赖性增加,这与KBGem中[3H]-Gem掺入DNA的增加有关。总之,CCOX活性和游离ATP水平的增加可能会降低Gem的转运、代谢及DNA掺入,从而导致Gem耐药。