人体血浆中酮体、α-酮酸、乳酸、丙酮酸及其稳定同位素标记示踪剂的LC-MS/MS定量分析方法:临床代谢动力学和相互作用分析小组。

IF 2.8 3区 医学 Q2 BIOCHEMICAL RESEARCH METHODS
Minoo Afshar , Gerrit van Hall
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引用次数: 0

摘要

临床研究的一个重要领域是酮体(β-羟基丁酸酯和乙酰乙酸酯)的体内代谢,以及可能影响其产生和/或细胞运输的相关代谢产物,如支链氨基酸、乳酸和丙酮酸中的酮酸。为了确定体内代谢物周转,必须提供准确和灵敏的方法来分析这些代谢物的血浆浓度及其稳定的同位素标记富集度。因此,本研究描述了一种高效液相色谱-串联质谱(LC-MS/MS)方法,以4-溴-N-甲基苄胺和O-苄基羟胺为衍生试剂,使用2种不同的衍生技术同时分析人体中的酮体、α-酮酸、乳酸、丙酮酸及其示踪剂富集,和1-乙基-3-二甲基氨基丙基碳二亚胺作为偶联化合物,随后进行单次LC-MS/MS运行。该方法已在人体内连续输注的稳定同位素标记分析物(示踪剂)除以未标记内源性分析物(tracee)的基质效应、线性、准确性、精密度、回收率、稳定性和富集(比率)分析方面进行了验证,这使得量化分析物的体内合成和降解率成为可能。应用的平行衍生化程序对所有感兴趣的分析物及其示踪剂产生了良好的灵敏度。尽管采用了双重衍生方法,但在最后阶段混合乙酸乙酯部分使得在一次LC-MS/MS运行中同时分析所有化合物成为可能。此外,对液相色谱法进行了优化,以稳健地定量亮氨酸(α-酮-异己酸)和异亮氨酸(α–酮-β-甲基戊酸)衍生的酮酸,这两种化合物具有相似的化学结构和相同的分子量。所提出的方法是针对人类血浆设计和验证的。然而,由于乙酰乙酸盐的不稳定性,在血液取样和处理程序以及在-80°C下快速冷冻和储存时应小心。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
LC-MS/MS method for quantitative profiling of ketone bodies, α-keto acids, lactate, pyruvate and their stable isotopically labelled tracers in human plasma: An analytical panel for clinical metabolic kinetics and interactions

An important area within clinical research is in vivo metabolism of ketone bodies (β-hydroxybutyrate and acetoacetate) and in connection metabolites that may affect their production and/or cellular transport such as the keto-acids from the branched-chain amino acids, lactate and pyruvate. To determine in vivo metabolite turnover, availability of accurate and sensitive methods for analyzing the plasma concentrations of these metabolites and their stable isotopically labeled enrichments is mandatory. Therefore, the present study describes a high-performance liquid chromatography-tandem mass spectrometry (LC-MS/MS) method for simultaneous analysis of ketone bodies, α-keto acids, lactate, pyruvate, and their tracer enrichments in humans using 2 different derivatization techniques with 4-bromo-N-methylbenzylamine and O-benzylhydroxylamine as derivatization reagents, and 1-ethyl-3-dimethylaminopropyl carbodiimide as coupling compound followed by a single LC-MS/MS run. The method was validated for matrix effects, linearity, accuracy, precision, recovery, stability, and enrichment (ratio) analysis of a stable isotopically labelled analytes (tracers) continuously infused in humans divided by the unlabeled endogenous analyte (tracee) that makes it possible to quantify the analyte in vivo synthesis and degradation rates. The applied parallel derivatization procedure yielded good sensitivity for all analytes of interest and their tracers. Despite the double derivatization method, mixing the ethyl acetate portions at the final stage made it possible to simultaneously analyze all compounds in a single LC-MS/MS run. Moreover, the liquid chromatography method was optimized to robustly quantify the keto acids derived from leucine (α-keto-isocaproic acid) and isoleucine (α-keto-β-methylvaleric acid), the compounds with similar chemical structure and identical molecular weights. The presented method is designed and validated for human plasma. However, care should be taken in blood sampling and processing procedures as well as quick freezing and storage at −80 °C due to the instability of especially acetoacetate.

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来源期刊
Journal of Chromatography B
Journal of Chromatography B 医学-分析化学
CiteScore
5.60
自引率
3.30%
发文量
306
审稿时长
44 days
期刊介绍: The Journal of Chromatography B publishes papers on developments in separation science relevant to biology and biomedical research including both fundamental advances and applications. Analytical techniques which may be considered include the various facets of chromatography, electrophoresis and related methods, affinity and immunoaffinity-based methodologies, hyphenated and other multi-dimensional techniques, and microanalytical approaches. The journal also considers articles reporting developments in sample preparation, detection techniques including mass spectrometry, and data handling and analysis. Developments related to preparative separations for the isolation and purification of components of biological systems may be published, including chromatographic and electrophoretic methods, affinity separations, field flow fractionation and other preparative approaches. Applications to the analysis of biological systems and samples will be considered when the analytical science contains a significant element of novelty, e.g. a new approach to the separation of a compound, novel combination of analytical techniques, or significantly improved analytical performance.
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