Open AccessA Compass to Guide Insights into TH17 Cellular Metabolism and Autoimmunity
Author(s) -
Adrian. Wilson,
Sarah A. Mosure,
Laura A. Solt
Publication year - 2021
Publication title -
immunometabolism
Language(s) - English
Resource type - Journals
ISSN - 2633-0407
DOI - 10.20900/immunometab20220001
Subject(s) - autoimmunity , regulator , foxp3 , inflammation , t cell , biology , microbiology and biotechnology , cell metabolism , metabolic pathway , cell , immunology , metabolism , biochemistry , immune system , gene
T cells rapidly convert their cellular metabolic requirements upon activation, switching to a highly glycolytic program to satisfy their increasingly complex energy needs. Fundamental metabolic differences have been established for the development of Foxp3 + T regulatory (Treg) cells versus T H 17 cells, alterations of which can drive disease. T H 17 cell dysregulation is a driver of autoimmunity and chronic inflammation, contributing to pathogenesis in diseases such as multiple sclerosis. A recent paper published in Cell by Wagner, et al. combined scRNA-seq and metabolic mapping data to interrogate potential metabolic modulators of T H 17 cell pathogenicity. This Compass to T H 17 cell metabolism highlights the polyamine pathway as a critical regulator of T H 17/Treg cell function, signifying its potential as a therapeutic target.
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