Mitochondrial Dysfunction Prevents Repolarization of Inflammatory Macrophages

Overview

Journal Cell Rep

Publisher Cell Press

Specialties Biology
Cell Biology
Molecular Biology

Date 2016 Oct 13

PMID 27732846

Citations 392

Authors

Jan Van den Bossche

Jeroen Baardman

Natasja A Otto

Saskia van der Velden

Annette E Neele

Susan M van den Berg

Rosario Luque-Martin

Hung-Jen Chen

Marieke C S Boshuizen

Mohamed Ahmed

Marten A Hoeksema

Alex F de Vos

Menno P J de Winther

Affiliations

Soon will be listed here.

Abstract

Macrophages are innate immune cells that adopt diverse activation states in response to their microenvironment. Editing macrophage activation to dampen inflammatory diseases by promoting the repolarization of inflammatory (M1) macrophages to anti-inflammatory (M2) macrophages is of high interest. Here, we find that mouse and human M1 macrophages fail to convert into M2 cells upon IL-4 exposure in vitro and in vivo. In sharp contrast, M2 macrophages are more plastic and readily repolarized into an inflammatory M1 state. We identify M1-associated inhibition of mitochondrial oxidative phosphorylation as the factor responsible for preventing M1→M2 repolarization. Inhibiting nitric oxide production, a key effector molecule in M1 cells, dampens the decline in mitochondrial function to improve metabolic and phenotypic reprogramming to M2 macrophages. Thus, inflammatory macrophage activation blunts oxidative phosphorylation, thereby preventing repolarization. Therapeutically restoring mitochondrial function might be useful to improve the reprogramming of inflammatory macrophages into anti-inflammatory cells to control disease.

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