Novel role of serine racemase in anti-apoptosis and metabolism

Abstract

BackgroundSerine racemase (SR) catalyzes the production of d-serine, a co-agonist of the N-methyl-d-aspartate receptor (NMDAR). A previous report shows the contribution of SR in the NMDAR-mediated neuronal cell death process. Methods and resultsTo analyze the intrinsic role of SR in the cell death process, we established the epithelial human embryonic kidney 293T (HEK293T) cell lines expressing wild-type SR (SR-WT), catalytically inactive mutant SR (SR-K56G), and catalytically hyperactive mutant SR (SR-Q155D). To these cell lines, staurosporine (STS), which induces apoptosis, was introduced. The cells expressing SR-WT and SR-Q155D showed resistance to STS-induced apoptosis, compared with nontransfected HEK293T cells and cells expressing SR-K56G. The SR-WT cells also showed a significant higher viability than the SR-QD cells. Furthermore, we detected elevated phosphorylation levels of Bcl-2 at serine-70 and Akt at serine-473 and threonine-308, which are related to cell survival, in the cells expressing SR-WT and SR-Q155D. From the results of metabolite analysis, we found elevated levels of acetyl CoA and ATP in cells expressing SR-WT. ConclusionBecause SR has two enzymatic activities, namely, racemization and α, β-elimination, and SR-Q155D shows enhanced racemization and reduced α, β-elimination activities, we concluded that the racemization reaction catalyzed by SR may have a more protective role against apoptosis than the α, β-elimination reaction. Moreover, both of these activities are important for maximal survival and elevated levels of acetyl CoA and ATP. General significanceOur findings reveal the NMDAR-independent roles of SR in metabolism and cell survival.