Macrophages sensing oxidized DAMPs reprogram their metabolism to support redox homeostasis and inflammation through a TLR2-Syk-ceramide dependent mechanism

Article ID	Journal	Published Year	Pages	File Type
8674350	Molecular Metabolism	2018	12 Pages	PDF

Abstract

Together, these data demonstrate the metabolic and bioenergetic requirements that enable macrophages to translate tissue oxidation status into either antioxidant or inflammatory responses via sensing OxPL. Targeting dysregulated redox homeostasis in macrophages could therefore lead to novel therapies to treat chronic inflammation.

Keywords

inflammation Bioenergetics ceramides spleen tyrosine kinase oxidized phospholipids Macrophages Cellular metabolism Redox homeostasis

Related Topics

Life Sciences Neuroscience Endocrine and Autonomic Systems

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Macrophages sensing oxidized DAMPs reprogram their metabolism to support redox homeostasis and inflammation through a TLR2-Syk-ceramide dependent mechanism

Authors

Vlad Serbulea, Clint M. Upchurch, Katelyn W. Ahern, Gael Bories, Paxton Voigt, Dory E. DeWeese, Akshaya K. Meher, Thurl E. Harris, Norbert Leitinger,