Your search keyword '"Hesse, Christina"' showing total 2 results

1. De novo fatty acid synthesis controls the fate between regulatory T and T helper 17 cells.

Author

Berod, Luciana, Friedrich, Christin, Nandan, Amrita, Freitag, Jenny, Hagemann, Stefanie, Sandouk, Aline, Hesse, Christina, Castro, Carla N, Gohmert, Melanie, Mayer, Christian T, Lochner, Matthias, Sparwasser, Tim, Harmrolfs, Kirsten, Müller, Rolf, Bähre, Heike, Tschirner, Sarah K, Gorinski, Nataliya, Ponimaskin, Evgeni, Huehn, Jochen, and Abraham, Wolf-Rainer

Subjects

FATTY acid synthesis, CELL determination, T cells, T helper cells, ACETYLCOENZYME A

Abstract

Interleukin-17 (IL-17)-secreting T cells of the T helper 17 (TH17) lineage play a pathogenic role in multiple inflammatory and autoimmune conditions and thus represent a highly attractive target for therapeutic intervention. We report that inhibition of acetyl-CoA carboxylase 1 (ACC1) restrains the formation of human and mouse TH17 cells and promotes the development of anti-inflammatory Foxp3+ regulatory T (Treg) cells. We show that TH17 cells, but not Treg cells, depend on ACC1-mediated de novo fatty acid synthesis and the underlying glycolytic-lipogenic metabolic pathway for their development. Although TH17 cells use this pathway to produce phospholipids for cellular membranes, Treg cells readily take up exogenous fatty acids for this purpose. Notably, pharmacologic inhibition or T cell-specific deletion of ACC1 not only blocks de novo fatty acid synthesis but also interferes with the metabolic flux of glucose-derived carbon via glycolysis and the tricarboxylic acid cycle. In vivo, treatment with the ACC-specific inhibitor soraphen A or T cell-specific deletion of ACC1 in mice attenuates TH17 cell-mediated autoimmune disease. Our results indicate fundamental differences between TH17 cells and Treg cells regarding their dependency on ACC1-mediated de novo fatty acid synthesis, which might be exploited as a new strategy for metabolic immune modulation of TH17 cell-mediated inflammatory diseases. [ABSTRACT FROM AUTHOR]

Published

2014

2. Erratum: De novo fatty acid synthesis controls the fate between regulatory T and T helper 17 cells.

Author

Berod, Luciana, Friedrich, Christin, Nandan, Amrita, Freitag, Jenny, Hagemann, Stefanie, Harmrolfs, Kirsten, Sandouk, Aline, Hesse, Christina, Castro, Carla N, Bähre, Heike, Tschirner, Sarah K, Gorinski, Nataliya, Gohmert, Melanie, Mayer, Christian T, Huehn, Jochen, Ponimaskin, Evgeni, Abraham, Wolf-Rainer, Müller, Rolf, Lochner, Matthias, and Sparwasser, Tim

Subjects

FLOW cytometry, FATTY acid synthesis

Abstract

A correction to the article "De novo fatty acid synthesis controls the fate between regulatory T and T helper 17 cells" that was published online in the October 31, 2014 issue, after correction, is presented.

Published

2015