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  • Title: TGR5 Attenuated Liver Ischemia-Reperfusion Injury by Activating the Keap1-Nrf2 Signaling Pathway in Mice.
    Author: Zhuang L, Ding W, Zhang Q, Ding W, Xu X, Yu X, Xi D.
    Journal: Inflammation; 2021 Jun; 44(3):859-872. PubMed ID: 33169298.
    Abstract:
    Hepatic ischemia/reperfusion injury (IRI) still remains an unavoidable problem in hepatectomy. The inflammatory response plays an important role in its pathogenesis. The plasma membrane-bound G protein-coupled bile acid receptor (TGR5), as one of G protein-coupled receptor (GPCR) families, has been proved to serve a protective role in several liver diseases. However, the exact function of TGR5 in modulating IRI remains obscure. We injected wild mice with a small interfering RNA of TGR5 (si-TGR5) or TGR5 agonist (INT-777) and established liver partial warm ischemia/reperfusion model. The results showed that knockdown of TGR5 significantly aggravated hepatic tissue injury, but treatment with INT-777 could reverse it, as evidenced by serum ALT and AST tests, liver histological injury, cytokines expressions, liver immunohistochemical analysis, and TUNEL staining. The apoptosis-associated proteins were evaluated after reperfusion. Moreover, we used primary bone marrow-derived macrophages (BMDMs) to establish hypoxia/reoxygenation (H/R) model to verify the anti-inflammation effect of TGR5. In in vivo experiments, we used TGR5-siRNA and TGR5 agonist (INT-777) to determine that TGR5 significantly attenuated liver damage after IRI through activating the Keap1-Nrf2 pathway. In addition, we found that overexpression of INT-777-activated TGR5 could reduce oxidative stress and inflammatory response in H/R-induced BMDMs through regulation of Keap1-Nef2 pathway during in vitro experiment. Importantly, these results were completely reversed in si-TGR5 BMDMs. In conclusion, the results indicated that TGR5 could effectively alleviated inflammation response via accelerating the activation of Keap1-Nrf2 signaling pathway during hepatic IRI, which may be meaningful in reducing related inflammatory molecules and adjusting inherent immunity.
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