Fatty acid metabolic reprogramming via mTOR-mediated inductions of PPAR[gamma] directs early activation of T cells

To fulfil the bioenergetic requirements for increased cell size and clonal expansion, activated T cells reprogramme their metabolic signatures from energetically quiescent to activated. However, the molecular mechanisms and essential components controlling metabolic reprogramming in T cells are not...

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Bibliographic Details
Published inNature communications Vol. 7; p. 13683
Main Authors Angela, Mulki, Endo, Yusuke, Asou, Hikari K, Yamamoto, Takeshi, Tumes, Damon J, Tokuyama, Hirotake, Yokote, Koutaro, Nakayama, Toshinori
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group 01.11.2016
Subjects
Body fat
Cells
Enzymes
Fatty acids
Glucose
Lipids
Lymphocytes
Metabolism
Metabolites
Signal transduction
Japan
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Summary:To fulfil the bioenergetic requirements for increased cell size and clonal expansion, activated T cells reprogramme their metabolic signatures from energetically quiescent to activated. However, the molecular mechanisms and essential components controlling metabolic reprogramming in T cells are not well understood. Here, we show that the mTORC1-PPARγ pathway is crucial for the fatty acid uptake programme in activated CD4+ T cells. This pathway is required for full activation and rapid proliferation of naive and memory CD4+ T cells. PPARγ directly binds and induces genes associated with fatty acid uptake in CD4+ T cells in both mice and humans. The PPARγ-dependent fatty acid uptake programme is critical for metabolic reprogramming. Thus, we provide important mechanistic insights into the metabolic reprogramming mechanisms that govern the expression of key enzymes, fatty acid metabolism and the acquisition of an activated phenotype during CD4+ T cell activation.
ISSN:2041-1723
DOI:10.1038/ncomms13683