通过高极化（13）C 磁共振波谱成像测量体内二氯乙酸盐对神经胶质瘤的代谢反应。

Metabolic response of glioma to dichloroacetate measured in vivo by hyperpolarized (13)C magnetic resonance spectroscopic imaging.

机构信息

Stanford University, Department of Radiology, The Lucas Center for Imaging, 1201 Welch Road, Stanford, CA, 94305, USA.

出版信息

Neuro Oncol. 2013 Apr;15(4):433-41. doi: 10.1093/neuonc/nos319. Epub 2013 Jan 17.

DOI:10.1093/neuonc/nos319

PMID:23328814

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3607261/

Abstract

BACKGROUND

The metabolic phenotype that derives disproportionate energy via glycolysis in solid tumors, including glioma, leads to elevated lactate labeling in metabolic imaging using hyperpolarized [1-(13)C]pyruvate. Although the pyruvate dehydrogenase (PDH)-mediated flux from pyruvate to acetyl coenzyme A can be indirectly measured through the detection of carbon-13 ((13)C)-labeled bicarbonate, it has proven difficult to visualize (13)C-bicarbonate at high enough levels from injected [1-(13)C]pyruvate for quantitative analysis in brain. The aim of this study is to improve the detection of (13)C-labeled metabolites, in particular bicarbonate, in glioma and normal brain in vivo and to measure the metabolic response to dichloroacetate, which upregulates PDH activity.

METHODS

An optimized protocol for chemical shift imaging and high concentration of hyperpolarized [1-(13)C]pyruvate were used to improve measurements of lactate and bicarbonate in C6 glioma-transplanted rat brains. Hyperpolarized [1-(13)C]pyruvate was injected before and 45 min after dichloroacetate infusion. Metabolite ratios of lactate to bicarbonate were calculated to provide improved metrics for characterizing tumor metabolism.

RESULTS

Glioma and normal brain were well differentiated by lactate-to-bicarbonate ratio (P = .002, n = 5) as well as bicarbonate (P = .0002) and lactate (P = .001), and a stronger response to dichloroacetate was observed in glioma than in normal brain.

CONCLUSION

Our results clearly demonstrate for the first time the feasibility of quantitatively detecting (13)C-bicarbonate in tumor-bearing rat brain in vivo, permitting the measurement of dichloroacetate-modulated changes in PDH flux. The simultaneous detection of lactate and bicarbonate provides a tool for a more comprehensive analysis of glioma metabolism and the assessment of metabolic agents as anti-brain cancer drugs.

摘要

背景

包括神经胶质瘤在内的实体瘤中，通过糖酵解获得不成比例能量的代谢表型会导致使用[1-(13)C]丙酮酸进行代谢成像时乳酸盐标记物水平升高。虽然可以通过检测碳-13((13)C)-标记的碳酸氢盐来间接测量丙酮酸脱氢酶（PDH）介导的从丙酮酸到乙酰辅酶 A 的通量，但迄今为止，从注射的[1-(13)C]丙酮酸中很难可视化足够高水平的(13)C-碳酸氢盐以进行脑内定量分析。本研究旨在提高脑内神经胶质瘤和正常脑内(13)C 标记代谢物（特别是碳酸氢盐）的检测水平，并测量二氯乙酸盐对 PDH 活性的上调作用所引起的代谢反应。

方法

采用化学位移成像优化方案和高浓度的[1-(13)C]丙酮酸，提高 C6 神经胶质瘤移植大鼠脑内乳酸盐和碳酸氢盐的测量水平。在二氯乙酸盐输注前和输注后 45 分钟注射[1-(13)C]丙酮酸。计算乳酸盐与碳酸氢盐的代谢物比值，为肿瘤代谢特征提供更优的指标。

结果

乳酸盐与碳酸氢盐比值（P =.002，n = 5）、碳酸氢盐（P =.0002）和乳酸盐（P =.001）可很好地区分神经胶质瘤和正常脑，且神经胶质瘤对二氯乙酸盐的反应强于正常脑。

结论

本研究首次明确证明了在体定量检测荷瘤大鼠脑内(13)C-碳酸氢盐的可行性，从而可以测量二氯乙酸盐调节的 PDH 通量变化。同时检测乳酸盐和碳酸氢盐为分析神经胶质瘤代谢以及评估代谢药物作为抗脑癌药物提供了一种更全面的工具。

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