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Krone, Anna; Fu, Yan; Schreiber, Simon; Kotrba, Johanna; Borde, Loisa; Nötzold, Aileen; Thurm, Christoph; Negele, Jonas; Franz, Tobias; Stegemann-Koniszewski, Sabine; Schreiber, Jens; Garbers, Christoph; Shukla, Aniruddh; Geffers, Robert; Schraven, Burkhart; Reinhold, Dirk; Dudeck, Anne; Reinhold, Annegret; Müller, Andreas J.; Kahlfuss, Sascha

Ionic mitigation of CD4+ T cell metabolic fitness, Th1 central nervous system autoimmunity and Th2 asthmatic airway inflammation by therapeutic zinc

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  • Media type: E-Article
  • Title: Ionic mitigation of CD4+ T cell metabolic fitness, Th1 central nervous system autoimmunity and Th2 asthmatic airway inflammation by therapeutic zinc
  • Contributor: Krone, Anna; Fu, Yan; Schreiber, Simon; Kotrba, Johanna; Borde, Loisa; Nötzold, Aileen; Thurm, Christoph; Negele, Jonas; Franz, Tobias; Stegemann-Koniszewski, Sabine; Schreiber, Jens; Garbers, Christoph; Shukla, Aniruddh; Geffers, Robert; Schraven, Burkhart; Reinhold, Dirk; Dudeck, Anne; Reinhold, Annegret; Müller, Andreas J.; Kahlfuss, Sascha
  • Published: Springer Science and Business Media LLC, 2022
  • Published in: Scientific Reports, 12 (2022) 1
  • Language: English
  • DOI: 10.1038/s41598-022-04827-6
  • ISSN: 2045-2322
  • Origination:
  • Footnote:
  • Description: AbstractT helper (Th) cells provide immunity to pathogens but also contribute to detrimental immune responses during allergy and autoimmunity. Th2 cells mediate asthmatic airway inflammation and Th1 cells are involved in the pathogenesis of multiple sclerosis. T cell activation involves complex transcriptional networks and metabolic reprogramming, which enable proliferation and differentiation into Th1 and Th2 cells. The essential trace element zinc has reported immunomodulatory capacity and high zinc concentrations interfere with T cell function. However, how high doses of zinc affect T cell gene networks and metabolism remained so far elusive. Herein, we demonstrate by means of transcriptomic analysis that zinc aspartate (UNIZINK), a registered pharmaceutical infusion solution with high bioavailability, negatively regulates gene networks controlling DNA replication and the energy metabolism of murine CD3/CD28-activated CD4+ T cells. Specifically, in the presence of zinc, CD4+ T cells show impaired expression of cell cycle, glycolytic and tricarboxylic acid cycle genes, which functionally cumulates in reduced glycolysis, oxidative phosphorylation, metabolic fitness and viability. Moreover, high zinc concentrations impaired nuclear expression of the metabolic transcription factor MYC, prevented Th1 and Th2 differentiation in vitro and reduced Th1 autoimmune central nervous system (CNS) inflammation and Th2 asthmatic airway inflammation induced by house dust mites in vivo. Together, we find that higher zinc doses impair the metabolic fitness of CD4+ T cells and prevent Th1 CNS autoimmunity and Th2 allergy.
  • Access State: Open Access