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Metabolomics of Multiple Sclerosis Lesions Demonstrates Lipid Changes Linked to Alterations in Transcriptomics-Based Cellular Profiles

Dimitrios C. Ladakis, Edoardo Pedrini, Maria Reyes‐Mantilla, Muraleetharan Sanjayan, Matthew D. Smith, Kathryn C. Fitzgerald, Carlos A. Pardo, Daniel S. Reich, Martina Absinta, Pavan Bhargava

2024Neurology Neuroimmunology & Neuroinflammation22 citationsDOIOpen Access PDF

Abstract

BACKGROUND AND OBJECTIVES: People with multiple sclerosis (MS) have a dysregulated circulating metabolome, but the metabolome of MS brain lesions has not been studied. The aims of this study were to identify differences in the brain tissue metabolome in MS compared with controls and to assess its association with the cellular profile of corresponding tissue. METHODS: MS tissues included samples from the edge and core of chronic active or inactive lesions and periplaque white matter (WM). Control specimens were obtained from normal WM. Metabolomic analysis was performed using mass-spectrometry coupled with liquid/gas chromatography and subsequently integrated with single-nucleus RNA-sequencing data by correlating metabolite abundances with relative cell counts, as well as individual genes using Multiomics Factor Analysis (MOFA). RESULTS: -value[q] = 2.88E-05) and sphingomyelins and ceramides (q = 2.15E-07), but lower nucleotide (q = 0.05), energy (q = 0.001), lysophospholipid (q = 1.86E-07), and monoacylglycerol (q = 0.04) metabolite levels compared with control WM. Periplaque WM had elevated sphingomyelins and ceramides (q = 0.05) and decreased energy metabolites (q = 0.01) and lysophospholipids (q = 0.05) compared with control WM. Sphingolipids and membrane lipid metabolites were positively correlated with astrocyte and immune cell abundances and negatively correlated with oligodendrocytes. On the other hand, long-chain fatty acid, endocannabinoid, and monoacylglycerol pathways were negatively correlated with astrocyte and immune cell populations and positively correlated with oligodendrocytes. MOFA demonstrated associations between differentially expressed metabolites and genes involved in myelination and lipid biosynthesis. DISCUSSION: MS lesions and perilesional WM demonstrated a significantly altered metabolome compared with control WM. Many of the altered metabolites were associated with altered cellular composition and gene expression, indicating an important role of lipid metabolism in chronic neuroinflammation in MS.

Topics & Concepts

MetabolomeMetabolomicsMetaboliteMonoacylglycerol lipaseSphingomyelinLipidomicsMultiple sclerosisLipid metabolismBiologySphingolipidTranscriptomeAstrocyteChemistryBiochemistryEndocrinologyEndocannabinoid systemCentral nervous systemImmunologyBioinformaticsCholesterolGene expressionReceptorGeneMultiple Sclerosis Research StudiesSphingolipid Metabolism and SignalingMetabolomics and Mass Spectrometry Studies