In-depth mapping carboxylic acid metabolome reveals the potential biomarkers in colorectal cancer through characteristic fragment ions and metabolic flux.

Carboxylic acid metabolome plays vital roles in the study of pathological mechanisms about cancer. This study aimed to find potential biomarkers for colorectal cancer (CRC) using carboxylic acids profiling. However, the identification of much more carboxylic acids was limited due to poor ionization efficiency and lack of characteristic fragment ions. Derivatization-liquid chromatography-mass spectrometry, which contains characteristic MS/MS fragments ions, were performed for carboxylic acid metabolomics analysis in CRC serum samples. 1054 carboxylic acids were quickly and selectively identified after extraction using three characteristic fragment ions and elucidation using the most suitable CE at 30 eV. Among them, 605 carboxylic acids exhibit discriminating levels between healthy and CRC patients in training cohort. Furthermore, the differential metabolites were found to be mainly enriched in amino acid metabolism, fatty acid biosynthesis and TCA cycle by MetaboAnalyst and iPath analysis. Finally, serine, glycine, and methionine were determined as the potential biomarkers after further confirmation using validation cohort and in vitro metabolic flux analysis. The above results collectively demonstrated that a new set of carboxylic acids can be quickly and selectively discovered using characteristic fragment ions.