Down regulation of epidermal growth factor receptors in liver proliferation induced by a mixture of triiodothyronine, amino acids, glucagon, and heparin (TAGH).

This study investigated the mechanisms by which TAGH solution (a mixture of triiodothyronine, amino acids, glucagon, and heparin) induces DNA synthesis in hepatocytes in the liver of intact rats, with particular reference to events at the epidermal growth factor (EGF) receptor. Both partial hepatectomy and infusion of TAGH stimulated DNA synthesis at 24 hours and both procedures resulted in a reduction of EGF receptors assessed in plasma membranes isolated from rat liver at this time. In cell cultures, while EGF strongly stimulated DNA synthesis and started EGF receptor down regulation, TAGH had only a minor effect (1.5 x basal) on DNA synthesis and did not interact with or down regulate the EGF receptor. Membrane phosphorylation studies, however, showed that TAGH induced phosphorylation of tyrosine residues in the EGF receptor. The in vivo action of TAGH seems to entail recruitment of similar changes in the EGF receptor to those that occur after partial hepatectomy

Galactosamine induced hepatitis induces a reduction in hepatocyte epidermal growth factor receptors.

The rapid regenerative response of the rat liver to partial hepatectomy is associated with a decline in liver epidermal growth factor receptor numbers which implies that ligand epidermal growth factor receptor interactions maybe important in initiating and/or modulating this process. The proliferative process in toxic hepatitis (where in contrast with partial hepatectomy the majority of hepatocytes have been exposed to damaging influences) has been less widely investigated. We studied the DNA synthetic response of rat livers to toxic injury induced by a 350 or 800 mg/kg ip injection of galactosamine and that caused by 70% hepatectomy, comparing the changes in epidermal growth factor receptor status. Both resulted in down regulation of epidermal growth factor receptors, suggesting similar ligand epidermal growth factor receptor binding occurs during the proliferative response after galactosamine administration and after partial hepatectomy. In vitro studies on isolated hepatocytes showed that epidermal growth factor receptor down regulation was not a direct effect of galactosamine on hepatocyte membranes

Effect of Invivo Administration of An Antibody to Epidermal Growth-Factor On the Rapid Increase in Dna-Synthesis Induced by Partial-Hepatectomy in the Rat

Recent reports indicate that transforming growth factor alpha (TGF-alpha) is produced within the fiver and acts as the natural ligand of the epidermal growth factor (EGF) receptor causing the EGF receptor down regulation and the hepatocyte proliferation observed after partial hepatectomy. The reported phenomenon that an antibody to EGF inhibits the regenerative response to partial hepatectomy was therefore re-investigated. The IgG fraction of an anti-rat EGF antibody was injected intravenously at the time of partial hepatectomy, and its effects on regenerative DNA synthesis were compared with those of non-immune IgG. Injection of IgG reduced the DNA synthetic response to partial hepatectomy, assessed 24 hours after resection by H-3-thymidine incorporation, but the effects of normal and anti-EGF IgG were not statistically different, despite the presence of excess anti-EGF IgG in the circulation throughout the experimental period. However, anti-EGF IgG could completely block the proliferative response of hepatocytes in culture to EGF. These results support the suggestion that EGF is not the major mediator of hepatocyte DNA synthesis in the early stages of liver regeneration