Abstract
The toll-like receptor 5 (TLR5) agonist, CBLB502/Entolimod, is a peptide derived from bacterial flagellin and has been shown to protect against radiation-induced tissue damage in animal models. Here we investigated the protective mechanism of CBLB502 in the liver using models of ischemia-reperfusion injury and concanavalin A (ConA) induced immuno-hepatitis. We report that pretreatment of mice with CBLB502 provoked a concomitant activation of NF-κB and STAT3 signaling in the liver and reduced hepatic damage in both models. To understand the underlying mechanism, we screened for cytokines in the serum of CBLB502 treated animals and detected high levels of IL-22. There was no transcriptional upregulation of IL-22 in the liver, rather it was found in extrahepatic tissues, mainly the colon, mesenteric lymph nodes (MLN), and spleen. RNA-seq analysis on isolated hepatocytes demonstrated that the concomitant activation of NF-κB signaling by CBLB502 and STAT3 signaling by IL-22 produced a synergistic cytoprotective transcriptional signature. In IL-22 knockout mice, the loss of IL-22 resulted in a decrease of hepatic STAT3 activation, a reduction in the cytoprotective signature, and a loss of hepatoprotection following ischemia-reperfusion-induced liver injury. Taken together, these findings suggest that CBLB502 protects the liver by increasing hepatocyte resistance to acute liver injury through the cooperation of TLR5-NF-κB and IL-22-STAT3 signaling pathways.
Highlights
Hepatic diseases are a major health care burden worldwide
toll-like receptor 5 (TLR5) agonist CBLB is hepatoprotective in vivo The effect of CBLB against oxidative stress generated by ischemia-reperfusion and by immune-driven hepatic damage caused by concanavalin A (ConA) was tested in mice pretreated with CBLB for 2 h (Fig. 1A, F)
We show that preconditioning mice with the TLR5 agonist CBLB protected them from ischemia-reperfusion and ConA-induced liver injuries
Summary
The necessary treatment option for end-stage hepatic disease is liver transplantation, less than 10% of the global transplantation needs are currently met[1]. New methods of providing protection against hepatic injury, ameliorating continued liver dysfunction and failure, may provide support for this shortcoming. Regulation of TLR signaling is important as its sustained activation can exacerbate an inflammatory response resulting in cellular and tissue damage[2], such as the amplification of inflammation in rheumatoid arthritis[3], inflammatory bowel disease[4], acute injury provoked by ischemia-reperfusion[5], and tissue fibrosis[6]. Judicious activation of TLRs can be beneficial for tissue repair and protection by activating cytoprotective, anti-inflammatory signaling pathways[6,7]
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