Abstract

Aggravated liver ischemia and reperfusion (IR) injury has been observed in hyperglycemic hosts, but its underlying mechanism remains undefined. Liver-resident macrophages (Kupffer cells, KCs) and endoplasmic reticulum (ER) stress play crucial roles in the pathogenesis of liver IR injury. In this study, we evaluated the role of ER stress in regulating KC activation and liver IR injury in a streptozotocin-induced hyperglycemic/diabetic mouse model. Compared to the control group (CON group), hyperglycemic mice exhibited a significant increase in liver injury and intrahepatic inflammation following IR. KCs obtained from hyperglycemic mice secreted higher levels of the pro-inflammatory factors TNF-α and IL-6, while they secreted significantly lower levels of the anti-inflammatory factor IL-10. Furthermore, enhanced ER stress was revealed by increased C/EBP homologous protein (CHOP) activation in both IR-stressed livers and KCs from hyperglycemic mice. Specific CHOP knockdown in KCs by siRNA resulted in a slight decrease in TNF-α and IL-6 secretion but dramatically enhanced anti-inflammatory IL-10 secretion in the hyperglycemic group, while no significant changes in cytokine production were observed in the CON group. We also analyzed the role of hyperglycemia in macrophage M1/M2 polarization. Interestingly, we found that hyperglycemia inhibited IL-10-secreting M2-like macrophage polarization, as revealed by decreased Arg1 and Mrc1 gene induction accompanied by a decrease in STAT3 and STAT6 signaling pathway activation. CHOP knockdown restored Arg1 and Mrc1 gene induction, STAT3 and STAT6 activation, and most importantly, IL-10 secretion in hyperglycemic KCs. Finally, in vivo CHOP knockdown in KCs enhanced intrahepatic anti-inflammatory IL-10 gene induction and protected the liver against IR injury in hyperglycemic mice but had no significant effects in control mice. Our results demonstrate that hyperglycemia induces hyper-inflammatory activation of KCs during liver IR injury. Thus, hyperglycemia-induced CHOP over-activation inhibits IL-10-secreting M2-like macrophage polarization by liver-resident macrophages, thereby leading to excessive inflammation and the exacerbation of liver IR injury in diabetic/hyperglycemic hosts. This study provides novel mechanistic insight into macrophage inflammatory activation under hyperglycemic conditions during liver IR.

Highlights

  • Liver ischemia and reperfusion (IR) injury is a frequent com­plication in patients subjected to major hepatic surgeries such as partial hepatectomy and liver transplantation [1]

  • To further determine whether Kupffer cells (KCs)-mediated innate immune activation was affected by hyperglycemia, KCs isolated from CON or STZ mice post-IR or post-sham procedure were plated and cultured in vitro

  • These results indicated that the ATF4/C/EBP homologous protein (CHOP) signaling pathway might be involved in the detrimental effect of hyperglycemia in liver IR injury

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Summary

INTRODUCTION

Liver ischemia and reperfusion (IR) injury is a frequent com­plication in patients subjected to major hepatic surgeries such as partial hepatectomy and liver transplantation [1]. Liver inflammation caused by the innate immune response of macrophages plays a critical role in the pathogenesis of liver IR injury. In addition to its roles in regulating protein-folding stress, metabolism, and cell differentiation, ER stress was recently shown to regulate innate immunity [17, 18]. We determined whether and how diabetes regulates liver IR injury and inflammatory immune activation in a streptozotocin (STZ)-induced diabetic mouse model, with a focus on the role of ER stress signaling pathways in regulating KC activation and polarization. Diabetes was induced by intraperitoneal injection of 40 mg/kg STZ dissolved in citrate buffer solution into 6-week-old mice for five consecutive days. TNF-a, IL-6, and IL-10 levels in cell culture supernatants or serum were measured using an ELISA kit (eBiosciences, San Diego, CA, USA) according to the manufacturer’s protocols. P values less than 0.05 (two-tailed) were considered statistically significant

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ETHICS STATEMENT

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