1. Spatial metabolomics reveals glycogen as an actionable target for pulmonary fibrosis.
- Author
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Conroy LR, Clarke HA, Allison DB, Valenca SS, Sun Q, Hawkinson TR, Young LEA, Ferreira JE, Hammonds AV, Dunne JB, McDonald RJ, Absher KJ, Dong BE, Bruntz RC, Markussen KH, Juras JA, Alilain WJ, Liu J, Gentry MS, Angel PM, Waters CM, and Sun RC
- Subjects
- Mice, Animals, Humans, Glycogen, Metabolomics methods, Polysaccharides, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization methods, Pulmonary Fibrosis
- Abstract
Matrix assisted laser desorption/ionization imaging has greatly improved our understanding of spatial biology, however a robust bioinformatic pipeline for data analysis is lacking. Here, we demonstrate the application of high-dimensionality reduction/spatial clustering and histopathological annotation of matrix assisted laser desorption/ionization imaging datasets to assess tissue metabolic heterogeneity in human lung diseases. Using metabolic features identified from this pipeline, we hypothesize that metabolic channeling between glycogen and N-linked glycans is a critical metabolic process favoring pulmonary fibrosis progression. To test our hypothesis, we induced pulmonary fibrosis in two different mouse models with lysosomal glycogen utilization deficiency. Both mouse models displayed blunted N-linked glycan levels and nearly 90% reduction in endpoint fibrosis when compared to WT animals. Collectively, we provide conclusive evidence that lysosomal utilization of glycogen is required for pulmonary fibrosis progression. In summary, our study provides a roadmap to leverage spatial metabolomics to understand foundational biology in pulmonary diseases., (© 2023. The Author(s).)
- Published
- 2023
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