Profile of circulatory metabolites in chronic mouse model of multiple sclerosis using untargeted global metabolomics (THER3P.883)

Abstract Multiple sclerosis is a chronic inflammatory and demyelinating disease of the CNS. Although, MS is well characterized in terms of the role played by immune cells, cytokines and CNS pathology, nothing is known about the metabolic alterations that occur during the disease process in circulation. Here, we profiled the plasma metabolites of B6 with EAE, a known model of chronic MS using untargeted global metabolomics. Using a combination of high-throughput liquid-and-gas chromatography with mass spectrometry, a total of 326 metabolites were identified, with significant changes observed in 105 metabolites (13 up- and 92 down-regulated), that mapped to lipid and amino acid pathways, followed by the peptide, xenobiotic, carbohydrate, nucleotide and energy pathways (p<0.05). To understand the functional role of these alterations, the KEGG metabolic library was analyzed using Metaboanalyst. The top nine most significant pathways in terms of GlobeTest p-value and impact are 1) fatty acid biosynthesis, 2) lysine degradation, 3) histidine metabolism, 4) beta-alanine metabolism, 5) pentose phosphate pathway, 6) arachidonic acid metabolism, 7) linoleic acid, 8) D-arginine and ornithine. Overall, these metabolic changes could be exploited as biomarkers for EAE/MS disease and to design new treatment paradigms where metabolic interventions could be combined with present and experimental therapeutics to achieve better treatment.