Abstract

d-Serine plays vital physiological roles in the functional regulation of the mammalian brain, where it is produced from l-serine by serine racemase and degraded by d-amino acid oxidase. In the present study, we identified a new d-serine metabolizing activity of serine hydroxymethyltransferase (SHMT) in bacteria as well as mammals. SHMT is known to catalyze the conversion of l-serine and tetrahydrofolate (THF) to glycine and 5,10-methylenetetrahydrofolate, respectively. In addition, we found that human and Escherichia coli SHMTs have d-serine dehydratase activity, which degrades d-serine to pyruvate and ammonia. We characterized this enzymatic activity along with canonical SHMT activity. Intriguingly, SHMT required THF to catalyze d-serine dehydration and did not exhibit dehydratase activity toward l-serine. Furthermore, SHMT did not use d-serine as a substrate in the canonical hydroxymethyltransferase reaction. The d-serine dehydratase activities of two isozymes of human SHMT were inhibited in the presence of a high concentration of THF, whereas thatof E. coli SHMT was increased. The pH and temperature profiles of d-serine dehydratase and serine hydroxymethyltransferase activities of these three SHMTs were partially distinct. The catalytic efficiency (kcat /Km ) of dehydratase activity was lower than that of hydroxymethyltransferase activity. Nevertheless, the d-serine dehydratase activity of SHMT was physiologically important because d-serine inhibited the growth of an SHMT deletion mutant of E. coli, ∆glyA, more than that of the wild-type strain. Collectively, these results suggest that SHMT is involved not only in l- but also in d-serine metabolism through the degradation of d-serine.

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