通过超极化的[1-(13)C]乙酸盐到[1-(13)C]乙酰肉碱的(13)C周转揭示骨骼肌中乙酰辅酶A合成酶的体内酶活性。

In vivo enzymatic activity of acetylCoA synthetase in skeletal muscle revealed by (13)C turnover from hyperpolarized [1-(13)C]acetate to [1-(13)C]acetylcarnitine.

作者信息

Bastiaansen Jessica A M, Cheng Tian, Mishkovsky Mor, Duarte João M N, Comment Arnaud, Gruetter Rolf

机构信息

Ecole Polytechnique Fédérale de Lausanne, Lausanne, Switzerland.

出版信息

Biochim Biophys Acta. 2013 Aug;1830(8):4171-8. doi: 10.1016/j.bbagen.2013.03.023. Epub 2013 Mar 29.

DOI:10.1016/j.bbagen.2013.03.023

PMID:23545238

Abstract

BACKGROUND

Acetate metabolism in skeletal muscle is regulated by acetylCoA synthetase (ACS). The main function of ACS is to provide cells with acetylCoA, a key molecule for numerous metabolic pathways including fatty acid and cholesterol synthesis and the Krebs cycle.

METHODS

Hyperpolarized [1-(13)C]acetate prepared via dissolution dynamic nuclear polarization was injected intravenously at different concentrations into rats. The (13)C magnetic resonance signals of [1-(13)C]acetate and [1-(13)C]acetylcarnitine were recorded in vivo for 1min. The kinetic rate constants related to the transformation of acetate into acetylcarnitine were deduced from the 3s time resolution measurements using two approaches, either mathematical modeling or relative metabolite ratios.

RESULTS

Although separated by two biochemical transformations, a kinetic analysis of the (13)C label flow from [1-(13)C]acetate to [1-(13)C]acetylcarnitine led to a unique determination of the activity of ACS. The in vivo Michaelis constants for ACS were KM=0.35±0.13mM and Vmax=0.199±0.031μmol/g/min.

CONCLUSIONS

The conversion rates from hyperpolarized acetate into acetylcarnitine were quantified in vivo and, although separated by two enzymatic reactions, these rates uniquely defined the activity of ACS. The conversion rates associated with ACS were obtained using two analytical approaches, both methods yielding similar results.

GENERAL SIGNIFICANCE

This study demonstrates the feasibility of directly measuring ACS activity in vivo and, since the activity of ACS can be affected by various pathological states such as cancer or diabetes, the proposed method could be used to non-invasively probe metabolic signatures of ACS in diseased tissue.

摘要

背景

骨骼肌中的乙酸代谢由乙酰辅酶A合成酶（ACS）调节。ACS的主要功能是为细胞提供乙酰辅酶A，这是众多代谢途径的关键分子，包括脂肪酸和胆固醇合成以及三羧酸循环。

方法

通过溶解动态核极化制备的超极化[1-(13)C]乙酸以不同浓度静脉注射到大鼠体内。在体内记录[1-(13)C]乙酸和[1-(13)C]乙酰肉碱的(13)C磁共振信号1分钟。使用数学建模或相对代谢物比率这两种方法，从3秒时间分辨率测量中推导出与乙酸转化为乙酰肉碱相关的动力学速率常数。

结果

尽管[1-(13)C]乙酸到[1-(13)C]乙酰肉碱的(13)C标记流经过两个生化转化，但对其进行动力学分析可唯一确定ACS的活性。ACS的体内米氏常数为KM = 0.35±0.13mM，Vmax = 0.199±0.031μmol/g/min。

结论

在体内对超极化乙酸转化为乙酰肉碱的转化率进行了定量，尽管这两个转化过程由两个酶促反应分隔，但这些速率唯一地定义了ACS的活性。使用两种分析方法获得了与ACS相关的转化率，两种方法得出的结果相似。

普遍意义

本研究证明了在体内直接测量ACS活性的可行性，并且由于ACS的活性会受到癌症或糖尿病等各种病理状态的影响，所提出的方法可用于非侵入性地探测患病组织中ACS的代谢特征。

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通过超极化的[1-(13)C]乙酸盐到[1-(13)C]乙酰肉碱的(13)C周转揭示骨骼肌中乙酰辅酶A合成酶的体内酶活性。

In vivo enzymatic activity of acetylCoA synthetase in skeletal muscle revealed by (13)C turnover from hyperpolarized [1-(13)C]acetate to [1-(13)C]acetylcarnitine.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

GENERAL SIGNIFICANCE

背景

方法

结果

结论

普遍意义

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