Abstract
Wound healing consists of three overlapping phases: inflammation, proliferation, and matrix synthesis and remodeling. Prolonged alcohol abuse can cause liver fibrosis due to deregulated matrix remodeling. Previous studies demonstrated that moderate ethanol feeding enhances liver fibrogenic markers and frank fibrosis independent of differences in CCl4-induced liver injury. Our objective was to determine whether or not other phases of the hepatic wound healing response were affected by moderate ethanol after CCl4 exposure. Mice were fed moderate ethanol (2% v/v) for two days and then were exposed to CCl4 and euthanized 24–96 h later. Liver injury was not different between pair- and ethanol-fed mice; however, removal of necrotic tissue was delayed after CCl4-induced liver injury in ethanol-fed mice. Inflammation, measured by TNFα mRNA and protein and hepatic Ly6c transcript accumulation, was reduced and associated with enhanced hepatocyte apoptosis after ethanol feeding. Hepatocytes entered the cell cycle equivalently in pair- and ethanol-fed mice after CCl4 exposure, but hepatocyte proliferation was prolonged in livers from ethanol-fed mice. CCl4-induced hepatic stellate cell activation was increased and matrix remodeling was prolonged in ethanol-fed mice compared to controls. Taken together, moderate ethanol affected each phase of the wound healing response to CCl4. These data highlight previously unknown effects of moderate ethanol exposure on hepatic wound healing after acute hepatotoxicant exposure.
Highlights
Ethanol consumption contributes to liver injury and subsequent alterations in hepatic structure and function
This study evaluated the impact of moderate ethanol feeding on some parameters associated with each phase of the liver wound healing response induced by acute CCl4 exposure
Expansion of liver injury was independent of CCl4 -induced hepatocyte necrosis, but dependent on hepatocyte apoptosis
Summary
Ethanol consumption contributes to liver injury and subsequent alterations in hepatic structure and function. In a certain percentage of chronic alcohol abusers, an unrelenting liver wound healing response promotes the development of fibrosis, cirrhosis and even hepatocellular carcinoma [1,2,3]. While our understanding of how derangements in hepatic wound healing contribute to fibrosis have grown considerably over the past decades, these discoveries. Liver transplant remains the only way to cure advanced liver disease. Due to increasing demand for transplantable livers and a dwindling supply of suitable organs, additional studies are required to improve therapeutic options for advanced liver disease patients. A more complete understanding of the specific contributions ethanol makes to liver injury and subsequent hepatic wound healing would be beneficial
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