IRF5 governs liver macrophage activation that promotes hepatic fibrosis in mice and humans
Fawaz Alzaid, … , Fabienne Foufelle, Nicolas Venteclef
Fawaz Alzaid, … , Fabienne Foufelle, Nicolas Venteclef
Published December 8, 2016
Citation Information: JCI Insight. 2016;1(20):e88689. https://doi.org/10.1172/jci.insight.88689.
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Research Article Hepatology Inflammation

IRF5 governs liver macrophage activation that promotes hepatic fibrosis in mice and humans

Abstract

Hepatic fibrosis arises from inflammation in the liver initiated by resident macrophage activation and massive leukocyte accumulation. Hepatic macrophages hold a central position in maintaining homeostasis in the liver and in the pathogenesis of acute and chronic liver injury linked to fibrogenesis. Interferon regulatory factor 5 (IRF5) has recently emerged as an important proinflammatory transcription factor involved in macrophage activation under acute and chronic inflammation. Here, we revealed that IRF5 is significantly induced in liver macrophages from human subjects developing liver fibrosis from nonalcoholic fatty liver disease or hepatitis C virus infection. Furthermore, IRF5 expression positively correlated with clinical markers of liver damage, such as plasma transaminase and bilirubin levels. Interestingly, mice lacking IRF5 in myeloid cells (MKO) were protected from hepatic fibrosis induced by metabolic or toxic stresses. Transcriptional reprogramming of macrophages lacking IRF5 was characterized by immunosuppressive and antiapoptotic properties. Consequently, IRF5 MKO mice respond to hepatocellular stress by promoting hepatocyte survival, leading to complete protection from hepatic fibrogenesis. Our findings reveal a regulatory network, governed by IRF5, that mediates hepatocyte death and liver fibrosis in mice and humans. Therefore, modulating IRF5 function may be an attractive approach to experimental therapeutics in fibroinflammatory liver disease.

Authors

Fawaz Alzaid, Floriane Lagadec, Miguel Albuquerque, Raphaëlle Ballaire, Lucie Orliaguet, Isabelle Hainault, Corinne Blugeon, Sophie Lemoine, Agnès Lehuen, David G. Saliba, Irina A. Udalova, Valérie Paradis, Fabienne Foufelle, Nicolas Venteclef

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Figure 6

IRF5 knockout prevents apoptosis in acute CCl4 toxicity.

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IRF5 knockout prevents apoptosis in acute CCl4 toxicity. Wild-type (MWT)...
Wild-type (MWT) mice and mice with myeloid-specific deletion of interferon regulatory factor 5 (IRF5) (MKO) were administered a single dose of carbon tetrachloride (CCl4) for induction of acute toxicity. (A) Representative images of HE staining of liver sections from MWT and MKO mice after acute CCl4 toxicity. Right panels: plasma levels of aspartate transferase (AST) and alanine transferase (ALT) in MWT and MKO mice. (B) Representative images of IRF5 IHC of liver sections from MWT and MKO mice after acute CCl4 toxicity. Right panels: quantification of IRF5+ staining and IRF5 mRNA expression in hepatic F4/80+ liver mononuclear cells (LMNCs). (C) Representative images of F4/80 IHC in liver of MWT and MKO mice after acute CCl4 toxicity. Flow cytometric quantification of F4/80+CD11b+ macrophages among LMNCs. (D) Flow cytometric quantification of CD11c+ or CD206+ macrophages among LMNCs of MWT and MKO mice after acute CCl4 toxicity. Right panel: mRNA expression of TGFβ1, IL10, and CD206 in F4/80+ LMNCs. (E) Representative images and quantification TUNEL+ apoptotic bodies in liver sections from MWT and MKO mice after acute CCl4 toxicity. (F) Representative IHC and quantification of Fas ligand (FasL) in liver sections from MWT and MKO mice after acute CCl4 toxicity. Right panels: quantification of FasL and TNF expression among macrophages from LMNCs. (G) Quantification of Fas, B cell lymphoma 2 (BCL2), and BCL-extra large (BCL-XL) mRNA expression in primary hepatocytes from MWT and MKO mice after acute CCl4 toxicity. (H) Quantification of FoxP3+ expression in CD25+CD4+ T cells and of IL10, IL17, and IFNγ expression by CD4+ T cells among LMNCs from MWT and MKO mice after acute CCl4 toxicity. Scale bars: 100 μm; n = 6 per group. Differences between genotypes determined by unpaired 2-tailed t test. All values reported as mean ± SEM. *P < 0.05, **P < 0.01, ***P < 0.001.