The role of methionine in regulating folate-dependent reactions in isolated rat hepatocytes

Abstract

In isolated rat hepatocytes, histidine and formate, are oxidized to CO 2 by folate-dependent reactions. These reactions are stimulated two- to fourfold by the addition of l-methionine, dl-homocysteine, S-adenosyl- l-methionine (Ado-Met), or S-adenosyl- l-homocysteine (Ado-Hcy). These compounds all increase the hepatocyte concentration of Ado-Met and Ado-Hcy. Substrates of hepatic catechol O-methyltransferase, such as l-Dopa methyl ester and 3,4-dihydroxyphenylacetic acid, decrease the hepatocyte concentration of Ado-Met in the presence or absence of added l-methionine or dl-homocysteine. The catechols do not affect the concentration of Ado-Hcy, but they inhibit the oxidation of formate and histidine. Thus, there is an excellent positive correlation between the rate of histidine and formate oxidation and the concentration of Ado-Met. There is no correlation between the rate of these reactions and either the Ado-Hcy concentration or the concentration ratio of Ado-Met:Ado-Hcy. Ado-Met inhibition of rat hepatic 5,10-methylene tetrahydrofolate reductase activity is reversed by Ado-Hcy, but the dependency of rat hepatic 5-methyltetrahydrofolate-homocysteine transmethylase activity (methionine synthetase) on Ado-Met is not altered by Ado-Hcy. These results indicate that methionine, through its conversion to Ado-Met, regulates folate-dependent reactions in isolated hepatocytes by increasing activity of methionine synthetase which leads to an increased concentration of tetrahydrofolate. That methionine and Ado-Met increase the hepatocyte concentration of nonmethyltetrahydrofolate compounds and decrease the hepatocyte concentration of 5-methyltetrahydrofolate supports this hypothesis.