Regulation of tumor necrosis factor- α-mRNA synthesis and distribution of tumor necrosis factor- α-mRNA synthesizing cells in rat liver during experimental endotoxemia

Abstract

Stimulated liver macrophages (Kupffer cells) are known to release a variety of inflammation-related substances, e.g. cytokines, prostanoids, and reactive oxygen intermediates. For instance, exposure of Kupffer cells in vitro to lipopolysaccharide (endotoxin) leads to a strongly enhanced synthesis of the mRNA for tumor necrosis factor-alpha, the release of the mature protein into culture media. These events are influenced by prostanoids and corticoid hormones. Kupffer cells are thought to be the only source of tumor necrosis factor-alpha within the hepatic sinusoid, but neither this cell specificity nor the regulatory influence of glucocorticoids or prostanoids has been confirmed in the intact organ. Using non-radioactive in situ hybridization, it was possible to obtain specific signals for tumor necrosis factor-alpha-mRNA in individual Kupffer cells uniformly distributed (as compared to Kupffer cells detected by immunohistochemistry) throughout the liver. Kupffer cells were the only cells in the hepatic sinusoids of lipopolysaccharide-perfused livers to express mRNA for tumor necrosis factor-alpha. Simultaneous addition of endotoxin plus dexamethasone and endotoxin and prostaglandin E2 completely suppressed the synthesis of this mRNA. Unexpectedly, the presence of mRNA for tumor necrosis factor-alpha was also detected in the intrahepatic bile duct epithelium of lipopolysaccharide-perfused livers. It is known that biologically active endotoxin is secreted via the bile ducts. These results seem to indicate that bile duct epithelium responds to inflammatory agents with synthesis of tumor necrosis factor-alpha-mRNA. One must also consider new functional aspects of bile duct epithelium in chronic inflammatory diseases, e.g. primary biliary cirrhosis, chronic sclerosing cholangitis or graft-versus-host disease.