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本文引用的文献

1
Metabolic, pathologic, and genetic analysis of prostate tissues: quantitative evaluation of histopathologic and mRNA integrity after HR-MAS spectroscopy.前列腺组织的代谢、病理和遗传分析:高分辨磁共振波谱分析后组织病理和 mRNA 完整性的定量评估。
NMR Biomed. 2010 May;23(4):391-8. doi: 10.1002/nbm.1474. Epub 2009 Dec 23.
2
Evaluation of lactate and alanine as metabolic biomarkers of prostate cancer using 1H HR-MAS spectroscopy of biopsy tissues.使用活检组织的1H高分辨魔角旋转磁共振波谱法评估乳酸和丙氨酸作为前列腺癌代谢生物标志物的情况。
Magn Reson Med. 2008 Sep;60(3):510-6. doi: 10.1002/mrm.21694.
3
Inhibition of monoamine oxidase A promotes secretory differentiation in basal prostatic epithelial cells.单胺氧化酶A的抑制促进前列腺基底上皮细胞的分泌分化。
Differentiation. 2008 Sep;76(7):820-30. doi: 10.1111/j.1432-0436.2007.00263.x. Epub 2008 Jan 31.
4
Tumor cell metabolism: the marriage of molecular genetics and proteomics with cellular intermediary metabolism; proceed with caution!肿瘤细胞代谢:分子遗传学和蛋白质组学与细胞中间代谢的结合;谨慎前行!
Mol Cancer. 2006 Nov 7;5:59. doi: 10.1186/1476-4598-5-59.
5
The clinical relevance of the metabolism of prostate cancer; zinc and tumor suppression: connecting the dots.前列腺癌代谢的临床相关性;锌与肿瘤抑制:梳理其中的关联
Mol Cancer. 2006 May 15;5:17. doi: 10.1186/1476-4598-5-17.
6
Quantitative analysis of prostate metabolites using 1H HR-MAS spectroscopy.使用1H高分辨魔角旋转光谱法对前列腺代谢物进行定量分析。
Magn Reson Med. 2006 Jun;55(6):1257-64. doi: 10.1002/mrm.20909.
7
Mitochondrial aconitase and citrate metabolism in malignant and nonmalignant human prostate tissues.恶性和非恶性人类前列腺组织中的线粒体乌头酸酶与柠檬酸代谢
Mol Cancer. 2006 Apr 4;5:14. doi: 10.1186/1476-4598-5-14.
8
'Why do tumour cells glycolyse?': from glycolysis through citrate to lipogenesis.“肿瘤细胞为何进行糖酵解?”:从糖酵解经柠檬酸到脂肪生成
Mol Cell Biochem. 2005 Dec;280(1-2):1-8. doi: 10.1007/s11010-005-8841-8.
9
High-resolution magic angle spinning 1H NMR spectroscopy and reverse transcription-PCR analysis of apoptosis in a rat glioma.大鼠胶质瘤细胞凋亡的高分辨率魔角旋转1H核磁共振波谱及逆转录-聚合酶链反应分析
Anal Chem. 2006 Mar 1;78(5):1546-52. doi: 10.1021/ac051418o.
10
Altered metabolism and mitochondrial genome in prostate cancer.前列腺癌中代谢和线粒体基因组的改变。
J Clin Pathol. 2006 Jan;59(1):10-6. doi: 10.1136/jcp.2005.027664.

使用质子和(13)C HR-MAS 光谱以及[3-(13)C]丙酮酸作为代谢底物评估前列腺癌细胞代谢的方法。

Methods for metabolic evaluation of prostate cancer cells using proton and (13)C HR-MAS spectroscopy and [3-(13)C] pyruvate as a metabolic substrate.

机构信息

Department of Radiology, Stanford University, Stanford, California 94158, USA.

出版信息

Magn Reson Med. 2009 Nov;62(5):1091-8. doi: 10.1002/mrm.22120.

DOI:10.1002/mrm.22120
PMID:19780158
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2783184/
Abstract

Prostate cancer has been shown to undergo unique metabolic changes associated with neoplastic transformation, with associated changes in citrate, alanine, and lactate concentrations. (13)C high resolution-magic angle spinning (HR-MAS) spectroscopy provides an opportunity to simultaneously investigate the metabolic pathways implicated in these changes by using (13)C-labeled substrates as metabolic probes. In this work, a method to reproducibly interrogate metabolism in prostate cancer cells in primary culture was developed using HR-MAS spectroscopy. Optimization of cell culture protocols, labeling parameters, harvesting, storage, and transfer was performed. Using [3-(13)C] pyruvate as a metabolic probe, (1)H and (13)C HR-MAS spectroscopy was used to quantify the net amount and fractional enrichment of several labeled metabolites that evolved in multiple cell samples from each of five different prostate cancers. Average enrichment across all cancers was 32.4 +/- 5.4% for [3-(13)C] alanine, 24.5 +/- 5.4% for [4-(13)C] glutamate, 9.1 +/- 2.5% for [3-(13)C] glutamate, 25.2 +/- 5.7% for [3-(13)C] aspartate, and 4.2 +/- 1.0% for [3-(13)C] lactate. Cell samples from the same parent population demonstrated reproducible fractional enrichments of alanine, glutamate, and aspartate to within 12%, 10%, and 10%, respectively. Furthermore, the cells produced a significant amount of [4-(13)C] glutamate, which supports the bioenergetic theory for prostate cancer. These methods will allow further characterization of metabolic properties of prostate cancer cells in the future. Magn Reson Med, 2009. (c) 2009 Wiley-Liss, Inc.

摘要

已经表明,前列腺癌发生与肿瘤转化相关的独特代谢变化,柠檬酸、丙氨酸和乳酸浓度也随之发生变化。(13)C 高分辨率-魔角旋转(HR-MAS)波谱学提供了一个机会,可以通过使用(13)C 标记的底物作为代谢探针,同时研究这些变化所涉及的代谢途径。在这项工作中,开发了一种使用 HR-MAS 波谱学可重复检测原代培养前列腺癌细胞代谢的方法。对细胞培养方案、标记参数、收获、储存和转移进行了优化。使用[3-(13)C]丙酮酸作为代谢探针,(1)H 和(13)C HR-MAS 波谱学用于定量来自五种不同前列腺癌的多个细胞样本中演变的几种标记代谢物的净量和分数富集。所有癌症的平均富集度为[3-(13)C]丙氨酸为 32.4 +/- 5.4%,[4-(13)C]谷氨酸为 24.5 +/- 5.4%,[3-(13)C]谷氨酸为 9.1 +/- 2.5%,[3-(13)C]天冬氨酸为 25.2 +/- 5.7%,[3-(13)C]乳酸为 4.2 +/- 1.0%。来自同一亲本群体的细胞样本显示丙氨酸、谷氨酸和天冬氨酸的分数富集在 12%、10%和 10%以内,分别具有可重复性。此外,细胞产生了大量的[4-(13)C]谷氨酸,这支持了前列腺癌的生物能量理论。这些方法将允许在未来进一步表征前列腺癌细胞的代谢特性。磁共振医学,2009 年。(c)2009 年 Wiley-Liss,Inc.