7A) and could not be induced in TLR4−/− mice (but was induced in

7A) and could not be induced in TLR4−/− mice (but was induced in TLR2−/− and TLR9−/− mice, data not shown) (Fig. 7B) after acetaminophen challenge.

Furthermore, the inhibition of macrophage with GdCl3 also reduced the liver injury (Supporting Fig. 4). Concurrently, serum HMGB1, selleck chemicals llc a damage-associated molecule released from necrotic hepatocytes, increased after treatment with acetaminophen (Fig. 7C), and use of the HMGB1 inhibitor glycyrrhizin markedly reduced the production of IL-23 and IL-17A (Fig. 7D) and hepatic neutrophil recruitment (Fig.7E). To confirm the role of HMGB-TLR4 pathway in the generation of IL-23 from macrophages, we stimulated macrophages from TLR4+/+ or TLR4−/− mice with soluble HMGB1. Soluble HMGB1 enhanced the production of IL-23 by TLR4+/+ macrophages Fostamatinib but not by TLR4−/− macrophages (Fig. 7F). Thus, the HMGB1-TLR4-IL-23 pathway in macrophages determines the generation IL-17-producing γδ T cells, which mediate neutrophil infiltration and liver inflammation. This study revealed a crucial role for the HMGB1-TLR4-IL-23-IL-17A axis in drug-induced

liver inflammation. HMGB1, a damage-associated molecule from necrotic hepatocytes, stimulates the production of IL-23 by hepatic macrophages in a TLR-4-dependent manner, and macrophage-derived IL-23 aids in the generation of IL-17A-producing γδ T cells in the liver. IL-17A secreted by γδ T cells then recruits neutrophils into the liver. Thus, the interaction between macrophages and γδ T cells contributes to tissue damage-induced liver inflammation

following the accumulation of neutrophils (Fig. 8). This study provides new insight into the role of IL-17-producing γδ T cells during sterile inflammation and sheds light on how drug-induced liver diseases may be controlled. Although controversies exist regarding the precise role of each component, DAMPs released from necrotic hepatocytes have been well established to mediate the second wave of inflammation by activating the innate immune response.5 We found that serum HMGB1 significantly increased after acetaminophen treatment (Fig. 7C), and inhibition of HMGB1 with the specific inhibitor ADAMTS5 glycyrrhizin protects mice from neutrophil infiltration and liver injury (Fig. 7E), which is consistent with the effect of anti-HMGB1 antibodies shown in a previous report.26 Meanwhile, blockade of HMGB1 markedly reduced the production of IL-23 and IL-17A (Fig. 7D). In vivo inactivation of macrophages attenuated liver injury and decreased the concentration of IL-23 and IL-17A in the murine sera (Fig. 7A). Moreover, when acetaminophen was administered to TLR2−/−, TLR4−/−, and TLR9−/− mice, only TLR4−/− mice exhibited a reduced production of IL-23 and IL-17A (Fig. 7B), and TLR4−/− macrophages lacked the ability to produce IL-23 in vitro (Fig. 7F); these data are in agreement with a previous report that showed that TLR4 is involved in acetaminophen pathogenesis.

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