CD11c+ resident macrophages drive hepatocyte death-triggered liver fibrosis in a murine model of nonalcoholic steatohepatitis
Michiko Itoh, … , Masato Tanaka, Yoshihiro Ogawa
Michiko Itoh, … , Masato Tanaka, Yoshihiro Ogawa
Published November 16, 2017
Citation Information: JCI Insight. 2017;2(22):e92902. https://doi.org/10.1172/jci.insight.92902.
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Research Article Hepatology Inflammation

CD11c+ resident macrophages drive hepatocyte death-triggered liver fibrosis in a murine model of nonalcoholic steatohepatitis

Abstract

Although recent evidence has pointed to the role of organ- and pathogenesis-specific macrophage subsets, it is still unclear which subsets are critically involved in the pathogenesis of nonalcoholic steatohepatitis (NASH). Using melanocortin-4 receptor–deficient (MC4R-KO) mice fed Western diet (WD), which exhibit liver phenotypes similar to those of human NASH, we found a histological structure, termed hepatic crown-like structure (hCLS), in which CD11c+ macrophages surround dead/dying hepatocytes, a prominent feature of NASH. Here, we demonstrate that hCLS-constituting macrophages could be a novel macrophage subset that drives hepatocyte death-triggered liver fibrosis. In an “inducible NASH model,” hepatocyte death induces hCLS formation and liver fibrosis sequentially in the short term. In combination with the long-term WD feeding model, we also showed that resident macrophages are a major cellular source of CD11c+ macrophages constituting hCLS, which exhibited gene expression profiles distinct from CD11c– macrophages scattered in the liver. Moreover, depletion of CD11c+ macrophages abolished hCLS formation and fibrogenesis in NASH. Our clinical data suggest the role of CD11c+ macrophages in the disease progression from simple steatosis to NASH. This study sheds light on the role of resident macrophages, in addition to recruited macrophages, in the pathogenesis of NASH.

Authors

Michiko Itoh, Takayoshi Suganami, Hideaki Kato, Sayaka Kanai, Ibuki Shirakawa, Takeru Sakai, Toshihiro Goto, Masahiro Asakawa, Isao Hidaka, Hiroshi Sakugawa, Koji Ohnishi, Yoshihiro Komohara, Kenichi Asano, Isao Sakaida, Masato Tanaka, Yoshihiro Ogawa

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Figure 6

CD169+ macrophages are a major cellular source of hCLS.

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CD169+ macrophages are a major cellular source of hCLS. (A) Experimental...
(A) Experimental protocol for depletion of CD169+ cells in the inducible NASH model using CD169-DTR bone marrow–chimeric MC4R-KO (CD169-DTR–bone marrow MC4R-KO) mice. DT, diphtheria toxin; Veh, WD-fed WT-BM MC4R-KO mice injected with olive oil as a vehicle; CCl4_dep (-), inducible NASH model without depletion of CD169+ cells (WD-fed and CCl4-injected WT-BM MC4R-KO mice with DT treatment); CCl4_dep (+), inducible NASH model with depletion of CD169+ cells (WD-fed and CCl4-injected CD169-DTR–bone marrow MC4R-KO mice with DT treatment). (B) FACS analysis of hepatic NPCs. CD45+ cells were analyzed as follows: resident macrophage, F4/80hiCD11clo; recruited macrophage, F4/80loCD11bhi; neutrophil, Ly6GhiCD11b+; T cell, CD4+; conventional dendritic cell (cDC), CD11bCD11c+. **P < 0.01 (2-tailed unpaired Student’s t test). n = 5. (C) Immunostaining for F4/80 and quantification of hCLS number. (D) Fibrosis area evaluated by Sirius red staining. n = 6–9. (E) Hepatic mRNA expression of genes related to inflammation (Siglec1, Emr1, and Itgax) and fibrogenesis (Tgfb1 and Col1a1). Data represent mean ± SEM. Scale bar: 50 μm. (C–E) *P < 0.05, **P < 0.01 (Tukey-Kramer test). n = 6–9.