Upregulated ethanolamine phospholipid synthesis via selenoprotein I is required for effective metabolic reprogramming during T cell activation

Autor: Chi Ma, FuKun W. Hoffmann, Michael P. Marciel, Kathleen E. Page, Melodie A. Williams-Aduja, Ellis N.L. Akana, Greg S. Gojanovich, Mariana Gerschenson, Johann Urschitz, Stefan Moisyadi, Vedbar S. Khadka, Sharon Rozovsky, Youping Deng, F. David Horgen, Peter R. Hoffmann
Jazyk: angličtina
Rok vydání: 2021
Předmět:
Zdroj: Molecular Metabolism, Vol 47, Iss , Pp 101170- (2021)
Druh dokumentu: article
ISSN: 2212-8778
DOI: 10.1016/j.molmet.2021.101170
Popis: Objective: T cell activation triggers metabolic reprogramming to meet increased demands for energy and metabolites required for cellular proliferation. Ethanolamine phospholipid synthesis has emerged as a regulator of metabolic shifts in stem cells and cancer cells, which led us to investigate its potential role during T cell activation. Methods: As selenoprotein I (SELENOI) is an enzyme participating in two metabolic pathways for the synthesis of phosphatidylethanolamine (PE) and plasmenyl PE, we generated SELENOI-deficient mouse models to determine loss-of-function effects on metabolic reprogramming during T cell activation. Ex vivo and in vivo assays were carried out along with metabolomic, transcriptomic, and protein analyses to determine the role of SELENOI and the ethanolamine phospholipids synthesized by this enzyme in cell signaling and metabolic pathways that promote T cell activation and proliferation. Results: SELENOI knockout (KO) in mouse T cells led to reduced de novo synthesis of PE and plasmenyl PE during activation and impaired proliferation. SELENOI KO did not affect T cell receptor signaling, but reduced activation of the metabolic sensor AMPK. AMPK was inhibited by high [ATP], consistent with results showing SELENOI KO causing ATP accumulation, along with disrupted metabolic pathways and reduced glycosylphosphatidylinositol (GPI) anchor synthesis/attachment Conclusions: T cell activation upregulates SELENOI-dependent PE and plasmenyl PE synthesis as a key component of metabolic reprogramming and proliferation.
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