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一种使用液相色谱-串联质谱-选择反应监测法测定核苷和核碱基的新型[N]谷氨酰胺通量。

A Novel [N] Glutamine Flux using LC-MS/MS-SRM for Determination of Nucleosides and Nucleobases.

作者信息

Jin Feng, Bhowmik Salil Kumar, Putluri Vasanta, Gu Franklin, Gohlke Jie, Von Rundstedt Friedrich Carl, Dasgupta Subhamoy, Krishnapuram Rashmi, O'Malley Bert W, Sreekumar Arun, Putluri Nagireddy

机构信息

Advanced Technology Core, Baylor College of Medicine, One Baylor Plaza Houston, TX, USA; Alkek Center for Molecular Discovery, Baylor College of Medicine, One Baylor Plaza Houston, TX, USA.

Department of Molecular and Cell Biology, Baylor College of Medicine, One Baylor Plaza Houston, TX, USA; Alkek Center for Molecular Discovery, Baylor College of Medicine, One Baylor Plaza Houston, TX, USA.

出版信息

J Anal Bioanal Tech. 2015 Oct;6(5). doi: 10.4172/2155-9872.1000267. Epub 2015 Aug 30.

DOI:10.4172/2155-9872.1000267
PMID:27158554
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4857768/
Abstract

The growth of cancer cells relies more on increased proliferation and autonomy compared to non-malignant cells. The rate of de novo nucleotide biosynthesis correlates with cell proliferation rates. In part, glutamine is needed to sustain high rates of cellular proliferation as a key nitrogen donor in purine and pyrimidine nucleotide biosynthesis. In addition, glutamine serves as an essential substrate for key enzymes involved in the de novo synthesis of purine and pyrimidine nucleotides. Here, we developed a novel liquid chromatography (LC-MS) to quantify glutamine-derived [15N] nitrogen flux into nucleosides and nucleobases (purines and pyrimidines). For this, DNA from 5637 bladder cancer cell line cultured in 15N labelled glutamine and then enzymatically hydrolyzed by sequential digestion. Subsequently, DNA hydrolysates were separated by LC-MS and Selected Reaction Monitoring (SRM) was employed to identify the nucleobases and nucleosides. Thus, high sensitivity and reproducibility of the method make it a valuable tool to identify the nitrogen flux primarily derived from glutamine and can be further adaptable for high throughput analysis of large set of DNA in a clinical setting.

摘要

与非恶性细胞相比,癌细胞的生长更多地依赖于增殖增加和自主性增强。从头核苷酸生物合成的速率与细胞增殖速率相关。在某种程度上,谷氨酰胺作为嘌呤和嘧啶核苷酸生物合成中的关键氮供体,是维持高细胞增殖速率所必需的。此外,谷氨酰胺是参与嘌呤和嘧啶核苷酸从头合成的关键酶的必需底物。在此,我们开发了一种新型液相色谱法(LC-MS),用于量化谷氨酰胺衍生的[15N]氮流入核苷和核碱基(嘌呤和嘧啶)的通量。为此,将来自在15N标记的谷氨酰胺中培养的5637膀胱癌细胞系的DNA进行酶解,通过连续消化进行水解。随后,通过LC-MS分离DNA水解产物,并采用选择反应监测(SRM)来鉴定核碱基和核苷。因此,该方法的高灵敏度和可重复性使其成为识别主要源自谷氨酰胺的氮通量的有价值工具,并且在临床环境中可进一步适用于对大量DNA进行高通量分析。

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