Publication

LC-MS/MS analysis of the central energy and carbon metabolites in biological samples following derivatization by dimethylaminophenacyl bromide

Willacey, C. C. W., Naaktgeboren, M., Lucumi Moreno, E., Wegrzyn, A. B., van der Es, D., Karu, N., Fleming, R. M. T., Harms, A. C. & Hankemeier, T., 31-Jul-2019, In : Journal of Chromatography A. 460413.

Research output: Contribution to journalArticleAcademicpeer-review

  • Cornelius C W Willacey
  • Martijn Naaktgeboren
  • Edinson Lucumi Moreno
  • Agnieszka B Wegrzyn
  • Daan van der Es
  • Naama Karu
  • Ronan M T Fleming
  • Amy C Harms
  • Thomas Hankemeier

Recent advances in metabolomics have enabled larger proportions of the human metabolome to be analyzed quantitatively. However, this usually requires the use of several chromatographic methods coupled to mass spectrometry to cover the wide range of polarity, acidity/basicity and concentration of metabolites. Chemical derivatization allows in principle a wide coverage in a single method, as it affects both the separation and the detection of metabolites: it increases retention, stabilizes the analytes and improves the sensitivity of the analytes. The majority of quantitative derivatization techniques for LC-MS in metabolomics react with amines, phenols and thiols; however, there are unfortunately very few methods that can target carboxylic acids at the same time, which contribute to a large proportion of the human metabolome. Here, we describe a derivatization technique which simultaneously labels carboxylic acids, thiols and amines using the reagent dimethylaminophenacyl bromide (DmPABr). We further improve the quantitation by employing isotope-coded derivatization (ICD), which uses internal standards derivatized with an isotopically-labelled reagent (DmPABr-D6). We demonstrate the ability to measure and quantify 64 central carbon and energy-related metabolites including amino acids, N-acetylated amino acids, metabolites from the TCA cycle and pyruvate metabolism, acylcarnitines and medium-/long-chain fatty acids. To demonstrate the applicability of the analytical approach, we analyzed urine and SUIT-2 cells utilizing a 15-minute single UPLC-MS/MS method in positive ionization mode. SUIT-2 cells exposed to rotenone showed definitive changes in 28 out of the 64 metabolites, including metabolites from all 7 classes mentioned. By realizing the full potential of DmPABr to derivatize and quantify amines and thiols in addition to carboxylic acids, we extended the coverage of the metabolome, producing a strong platform that can be further applied to a variety of biological studies.

Original languageEnglish
Article number460413
JournalJournal of Chromatography A
Publication statusE-pub ahead of print - 31-Jul-2019
Externally publishedYes

View graph of relations

Download statistics

No data available

ID: 94154104