Treatment of rat hepatoma cells with insulin, glucagon, thyroxine (T4) and triiodothyronine (T3) caused a concentration-dependent decrease in the monomeric actin content as measured by the deoxyribonuclease-I inhibition assay. Similarly, human peripheral blood neutrophils responded with a decrease in monomeric actin content when stimulated with T4, T3 and the adrenergic agonists phenylephrine and isoprenaline. The effect of phenylephrine could be blocked by phentolamine, demonstrating the specificity of the interaction. These observations suggest that hormone-induced actin changes might be an important event in response to both cell-surface-reactive hormones, such as insulin, glucagon and adrenergic agents, and those hormones that act through intracellular receptors, such as thyroid hormones. It is suggested that changes in actin state may have a role in metabolic regulation and cell growth.
ABSTRACT-One of the underlying mechanisms of tumor promotion both in the skin and liver involves free radical mediated injury to informational macromolecules of target cells. A choline-deficient (CD) diet, which is an efficient liver tumor promoter, induces peroxidative damage of liver cell membrane lipids. By modifying components of a CD diet, we have shown that the efficacy of the promotion is correlated with the extent of lipid peroxidation. The substitution of fats in a CD diet with predominantly polyunsaturated fat and the addition of methapyrilene to a CD diet enhances membrane lipid peroxidation and the promoting effects. An antioxidant (BHT) and hypolipidemic peroxisome proliferators (BR93 1 and DEHP) suppress both of these erects. Contrary to these findings, phenobarbital did not induce membrane lipid peroxidation, and its addition to a CD diet inhibited the diet-induced lipid peroxidation, though such a combination exerted a stronger promoting action. Thus, a CD diet and phenobarbital exert their promoting actions through different mechanisms. The consequence of membrane lipid peroxidation in the liver cells induced by a CD diet may be multiple. Our rccent study of surface membrane insulin receptors of liver cells of rats fed a CD diet showed a decrease in number and an enhanced binding affinity leading to altered responsiveness of liver cells to insulin mediated glycogen synthesis. It is suggested that CD diet-induced lipid peroxidation leads to functional alterations of membrane receptors involved in cell growth control and may thereby exert its promoting action.
Exposure of rats to phenobarbital (PB), a tumor promoter in the two-stage hepatocarcinogenesis model, in their diet (0.06%) induces alterations in insulin receptors in the hepatocytes. There is a decrease both in the number of receptors and the dissociation constant (Kd) when compared with animals fed control laboratory diet. The number of insulin receptors/cell and the Kd were respectively: 183,000 +/- 19,000 and 15.3 +/- 2.5 nM for controls; 47,000 +/- 5000 and 2.8 +/- 0.3 nM for PB. The glycogen synthesis in response to insulin was found to be unresponsive in the hepatocytes from rats exposed to PB. Glucagon receptors on hepatocytes, however, were unaltered in animals treated with PB or fed a choline-deficient (CD) diet and the glucagon-stimulated glycogenolytic responses were also comparable to the controls. There is, therefore, a selective alteration in the hepatocyte surface membrane receptors. Both PB and CD have been shown to reduce the hepatic cell membrane receptors for epidermal growth factor, indicating that the two different tumor promoters alter peptide receptors with endogenous protein kinase activities. This similar though selective effect of the tumor promoters on cell surface receptors may be of significance in their action in carcinogenesis by having an effect on the alteration of regulation of cell growth and metabolism.
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