Generation of one-carbon units in methionine-supplemented Euglena cells

Abstract

The possible effect of L-methionine supplements on the folate metabolism of division-synchronized Euglena gracilis (strain Z) cells has been examined. Cells receiving 1 mM L-methionine for four cell cycles were examined for folate derivatives, prior to and during cell division. Before cell division, methionine-supplemented cells contained less formylfolate but more methylfolate than unsupplemented cells. During division, both types of folates were present in lower concentrations in the supplemented cells. Growth in methionine for 10 and 34 hr also increased the levels of free aspartate, threonine, serine, cysteine and methionine relative to the controls. Methionine-supplemented cells contained ca 50% of the 10-formyltetrahydrofolate synthetase (EC 6.3.4.3) activity per cell of unsupplemented control cultures and specific enzyme activity was reduced ca 90%. Supplemented cells contained almost twice as much serine hydroxymethyltransferase (EC 2.1.2.1) activity per cell but comparable levels of glycollate dehydrogenase. Growth in methionine also reduced the incorporation of formate- 14C] into serine, RNA, DNA, adenine and protein methionine. In contrast, incorporation of glycine-[2- 14C] and serine-[3- 14C] into folate-related products was not greatly altered by this treatment. Levels of radioactivity in these products suggested that formate was a more important C 1 unit source than glycine or serine when growth occurred in unsupplemented medium. It is concluded that methionine reduces formylfolate production by an effect on the cellular levels of formyltetrahydrofolate synthetase.