Abstract
Abstract— The tetrahydrofolate‐dependent serine hydroxymethyl transferase (l‐serine: tetrahydrofolate 10‐hydroxymethyl transferase, EC 2.1.2.1) reaction in rat or human brain homogenates incubated aerobically is dependent on added reducing agents for full activity in order to protect the readily oxidized substrate, tetrahydrofolate. In this role, 0.1 mm‐NADH is as affective as 10mm‐2‐mercaptoethanol and it can be shown that the NADH prevents destruction of tetrahydrofolate incubated with brain homogenates. If the dihydropteridine reductase (NADPH:6,7‐dihydropteridine oxidoreductase, EC 1.6.99.7) activity of the brain homogenate is inhibited by a specific antiserum, NADH, but not 2‐mercaptoeth‐anol, is no longer effective. Furthermore, an homogenate of a brain biopsy from a human lacking dihydropteridine reductase requires added dihydropteridine reductase for maximal stimulation by NADH of the serine hydroxymethyl transferase reaction. We conclude that dihydropteridine reductase mediates the NADH stimulation and can play a role in preserving tetrahydrofolate from oxidation. The rinding of greatly reduced folate levels in the brain biopsy from the human lacking dihydropteridine reductase supports this postulated role of dihydropteridine reductase in folate metabolism.
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