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Single-cell mapping of lipid metabolites using an infrared probe in human-derived model systems

Yeran Bai, Carolina M. Camargo, Stella M.K. Glasauer, Raymond Gifford, Xinran Tian, Andrew P. Longhini, Kenneth S. Kosik

2024Nature Communications51 citationsDOIOpen Access PDF

Abstract

Understanding metabolic heterogeneity is the key to uncovering the underlying mechanisms of metabolic-related diseases. Current metabolic imaging studies suffer from limitations including low resolution and specificity, and the model systems utilized often lack human relevance. Here, we present a single-cell metabolic imaging platform to enable direct imaging of lipid metabolism with high specificity in various human-derived 2D and 3D culture systems. Through the incorporation of an azide-tagged infrared probe, selective detection of newly synthesized lipids in cells and tissue became possible, while simultaneous fluorescence imaging enabled cell-type identification in complex tissues. In proof-of-concept experiments, newly synthesized lipids were directly visualized in human-relevant model systems among different cell types, mutation status, differentiation stages, and over time. We identified upregulated lipid metabolism in progranulin-knockdown human induced pluripotent stem cells and in their differentiated microglia cells. Furthermore, we observed that neurons in brain organoids exhibited a significantly lower lipid metabolism compared to astrocytes.

Topics & Concepts

Lipid metabolismInduced pluripotent stem cellCellCell typeMetabolic pathwayCell biologyCell cultureBiologyLipid dropletFluorescence-lifetime imaging microscopyMetabolismComputational biologyChemistryBiochemistryEmbryonic stem cellFluorescenceGeneGeneticsQuantum mechanicsPhysics3D Printing in Biomedical ResearchMicrobial Metabolic Engineering and BioproductionMetabolomics and Mass Spectrometry Studies
Single-cell mapping of lipid metabolites using an infrared probe in human-derived model systems | Litcius