Intestinal barrier regulates immune responses in the liver via IL-10–producing macrophages
Nobuhito Taniki, Nobuhiro Nakamoto, Po-Sung Chu, Yohei Mikami, Takeru Amiya, Toshiaki Teratani, Takahiro Suzuki, Tomoya Tsukimi, Shinji Fukuda, Akihiro Yamaguchi, Shunsuke Shiba, Rei Miyake, Tadashi Katayama, Hirotoshi Ebinuma, Takanori Kanai
Nobuhito Taniki, Nobuhiro Nakamoto, Po-Sung Chu, Yohei Mikami, Takeru Amiya, Toshiaki Teratani, Takahiro Suzuki, Tomoya Tsukimi, Shinji Fukuda, Akihiro Yamaguchi, Shunsuke Shiba, Rei Miyake, Tadashi Katayama, Hirotoshi Ebinuma, Takanori Kanai
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Research Article Hepatology Immunology

Intestinal barrier regulates immune responses in the liver via IL-10–producing macrophages

Abstract

The gut-liver axis is of clinical importance as a potential therapeutic target in a wide range of liver diseases; however, the mechanisms underlying interactions between microbial products and immune responses in the liver remain unknown. In this study, we demonstrated that IL-10–producing macrophages contribute to immune tolerance in the inflamed liver under intestinal barrier disruption in a murine tandem model of dextran sulfate sodium (DSS) colitis and concanavalin A (Con A) hepatitis. Intestinal barrier disruption protected mice from subsequent liver injury, and the severity of colitis directly affected susceptibility to such injury. The protective effect of DSS–Con A was canceled in gut-sterilized mice, suggesting that gut microbiota play a substantial role in this process. Altered gut microbiota and their metabolites, along with a disrupted intestinal barrier, directly gave rise to immunological permissiveness in the inflamed liver. We identified 1-methylnicotinamide (1-MNA) as a candidate metabolite capable of suppressing liver injury with the potential to induce IL-10–producing macrophages. Consistently, expression of nicotinamide N-methyltransferase, which converts nicotinamide to 1-MNA, was upregulated in the liver of DSS–Con A mice, and this effect was abrogated by gut sterilization. Collectively, our results provide a mechanistic insight into the regulation of immunological balance in the liver via the gut-liver axis.

Authors

Nobuhito Taniki, Nobuhiro Nakamoto, Po-Sung Chu, Yohei Mikami, Takeru Amiya, Toshiaki Teratani, Takahiro Suzuki, Tomoya Tsukimi, Shinji Fukuda, Akihiro Yamaguchi, Shunsuke Shiba, Rei Miyake, Tadashi Katayama, Hirotoshi Ebinuma, Takanori Kanai

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Figure 2

Liver DSS–Con A monocyte–derived macrophages display decreased TNF-α production and potentially increased IL-10 production upon LPS stimulation in vitro, and antigen-presenting potential in hepatic macrophages is reduced following DSS–Con A treatment.

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Liver DSS–Con A monocyte–derived macrophages display decreased TNF-α pro...
(A) Representative CD11b and CD11c staining of whole liver mononuclear cells (MCs) isolated from each experimental group. Each box and number indicates the population and the percentage of CD11b+ cells in whole liver MCs. (B) Percentage (left) and number (right) of CD11b+ cells in whole liver MCs of each experimental group (n = 4/group). (C) Representative surface CD11b and intracellular TNF-α staining of whole liver MCs isolated from each experimental group after 4 hours of LPS stimulation. Each number indicates the percentage resident in whole liver MCs. (D) Percentage and number of TNF-α+CD11b+ cells in the livers of mice from each experimental group (n = 4/group). (E) Representative surface CD11b and intracellular TNF-α staining of whole lamina propria MCs isolated from each experimental group after 4 hours of LPS stimulation. Each number indicates the percentage resident in whole lamina propria MCs. (F) Percentage and number of TNF-α+CD11b+ cells in the colon lamina propria of each experimental group (n = 4/group). (G) Representative surface CD11b and intracellular IL-10 staining of whole liver MCs isolated from each experimental group after 4 hours of LPS stimulation. Each number indicates the percentage in whole liver MCs. (H) Percentage and number of IL-10+CD11b+ cells in the livers of mice from each experimental group (n = 4/group). Data represent the mean ± SEM. *P < 0.05 according to 1-way ANOVA with Tukey’s multiple-comparison correction.