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Enhanced vulnerability to oxidative stress and induction of inflammatory gene expression in 3‐phosphoglycerate dehydrogenase‐deficient fibroblasts

l‐Serine (l‐Ser) is a necessary precursor for the synthesis of proteins, lipids, glycine, cysteine, d‐serine, and tetrahydrofolate metabolites. Low l‐Ser availability activates stress responses and cell death; however, the underlying molecular mechanisms remain unclear. l‐Ser is synthesized de novo...

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Published in:	FEBS open bio 2018-06, Vol.8 (6), p.914-922
Main Authors:	Hamano, Momoko, Haraguchi, Yurina, Sayano, Tomoko, Zyao, Chong, Arimoto, Yashiho, Kawano, Yui, Moriyasu, Kazuki, Udono, Miyako, Katakura, Yoshinori, Ogawa, Takuya, Kato, Hisanori, Furuya, Shigeki
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Language:	English
Subjects:	Amino acids Biosynthesis Cell death Cellular stress response Cysteine D-Serine Dehydrogenases Embryo fibroblasts Embryos Fibroblasts Gene expression Glutathione Glycine Hydrogen peroxide Inflammation Intracellular Kinases L-Serine Laboratories Lipid metabolism l‐serine deficiency Metabolites Molecular modelling Oxidative stress Phgdh Phosphoglycerate dehydrogenase Proteins Ptgs2 Software Tetrahydrofolic acid Thioredoxin Transcription factors Txnip
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creator	Hamano, Momoko Haraguchi, Yurina Sayano, Tomoko Zyao, Chong Arimoto, Yashiho Kawano, Yui Moriyasu, Kazuki Udono, Miyako Katakura, Yoshinori Ogawa, Takuya Kato, Hisanori Furuya, Shigeki
description	l‐Serine (l‐Ser) is a necessary precursor for the synthesis of proteins, lipids, glycine, cysteine, d‐serine, and tetrahydrofolate metabolites. Low l‐Ser availability activates stress responses and cell death; however, the underlying molecular mechanisms remain unclear. l‐Ser is synthesized de novo from 3‐phosphoglycerate with 3‐phosphoglycerate dehydrogenase (Phgdh) catalyzing the first reaction step. Here, we show that l‐Ser depletion raises intracellular H2O2 levels and enhances vulnerability to oxidative stress in Phgdh‐deficient mouse embryonic fibroblasts. These changes were associated with reduced total glutathione levels. Moreover, levels of the inflammatory markers thioredoxin‐interacting protein and prostaglandin‐endoperoxide synthase 2 were upregulated under l‐Ser‐depleted conditions; this was suppressed by the addition of N‐acetyl‐l‐cysteine. Thus, intracellular l‐Ser deficiency triggers an inflammatory response via increased oxidative stress, and de novo l‐Ser synthesis suppresses oxidative stress damage and inflammation when the external l‐Ser supply is restricted. l‐Serine (l‐Ser) is a necessary precursor for the synthesis of a variety of biological molecules, and reduced availability of l‐Ser causes increased vulnerability to oxidative stress and inflammation. In this study, we found that l‐Ser depletion leads to enhanced reactive oxygen species generation and subsequent induction of the inflammatory markers thioredoxin‐interacting protein and prostaglandin‐endoperoxide synthase 2 in Phgdh‐deleted embryonic fibroblast cells.
doi_str_mv	10.1002/2211-5463.12429
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Low l‐Ser availability activates stress responses and cell death; however, the underlying molecular mechanisms remain unclear. l‐Ser is synthesized de novo from 3‐phosphoglycerate with 3‐phosphoglycerate dehydrogenase (Phgdh) catalyzing the first reaction step. Here, we show that l‐Ser depletion raises intracellular H2O2 levels and enhances vulnerability to oxidative stress in Phgdh‐deficient mouse embryonic fibroblasts. These changes were associated with reduced total glutathione levels. Moreover, levels of the inflammatory markers thioredoxin‐interacting protein and prostaglandin‐endoperoxide synthase 2 were upregulated under l‐Ser‐depleted conditions; this was suppressed by the addition of N‐acetyl‐l‐cysteine. Thus, intracellular l‐Ser deficiency triggers an inflammatory response via increased oxidative stress, and de novo l‐Ser synthesis suppresses oxidative stress damage and inflammation when the external l‐Ser supply is restricted. l‐Serine (l‐Ser) is a necessary precursor for the synthesis of a variety of biological molecules, and reduced availability of l‐Ser causes increased vulnerability to oxidative stress and inflammation. In this study, we found that l‐Ser depletion leads to enhanced reactive oxygen species generation and subsequent induction of the inflammatory markers thioredoxin‐interacting protein and prostaglandin‐endoperoxide synthase 2 in Phgdh‐deleted embryonic fibroblast cells.</description><identifier>ISSN: 2211-5463</identifier><identifier>EISSN: 2211-5463</identifier><identifier>DOI: 10.1002/2211-5463.12429</identifier><identifier>PMID: 29928571</identifier><language>eng</language><publisher>England: John Wiley & Sons, Inc</publisher><subject>Amino acids ; Biosynthesis ; Cell death ; Cellular stress response ; Cysteine ; D-Serine ; Dehydrogenases ; Embryo fibroblasts ; Embryos ; Fibroblasts ; Gene expression ; Glutathione ; Glycine ; Hydrogen peroxide ; Inflammation ; Intracellular ; Kinases ; L-Serine ; Laboratories ; Lipid metabolism ; l‐serine deficiency ; Metabolites ; Molecular modelling ; Oxidative stress ; Phgdh ; Phosphoglycerate dehydrogenase ; Proteins ; Ptgs2 ; Software ; Tetrahydrofolic acid ; Thioredoxin ; Transcription factors ; Txnip</subject><ispartof>FEBS open bio, 2018-06, Vol.8 (6), p.914-922</ispartof><rights>2018 The Authors. 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Low l‐Ser availability activates stress responses and cell death; however, the underlying molecular mechanisms remain unclear. l‐Ser is synthesized de novo from 3‐phosphoglycerate with 3‐phosphoglycerate dehydrogenase (Phgdh) catalyzing the first reaction step. Here, we show that l‐Ser depletion raises intracellular H2O2 levels and enhances vulnerability to oxidative stress in Phgdh‐deficient mouse embryonic fibroblasts. These changes were associated with reduced total glutathione levels. Moreover, levels of the inflammatory markers thioredoxin‐interacting protein and prostaglandin‐endoperoxide synthase 2 were upregulated under l‐Ser‐depleted conditions; this was suppressed by the addition of N‐acetyl‐l‐cysteine. 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Low l‐Ser availability activates stress responses and cell death; however, the underlying molecular mechanisms remain unclear. l‐Ser is synthesized de novo from 3‐phosphoglycerate with 3‐phosphoglycerate dehydrogenase (Phgdh) catalyzing the first reaction step. Here, we show that l‐Ser depletion raises intracellular H2O2 levels and enhances vulnerability to oxidative stress in Phgdh‐deficient mouse embryonic fibroblasts. These changes were associated with reduced total glutathione levels. Moreover, levels of the inflammatory markers thioredoxin‐interacting protein and prostaglandin‐endoperoxide synthase 2 were upregulated under l‐Ser‐depleted conditions; this was suppressed by the addition of N‐acetyl‐l‐cysteine. Thus, intracellular l‐Ser deficiency triggers an inflammatory response via increased oxidative stress, and de novo l‐Ser synthesis suppresses oxidative stress damage and inflammation when the external l‐Ser supply is restricted. l‐Serine (l‐Ser) is a necessary precursor for the synthesis of a variety of biological molecules, and reduced availability of l‐Ser causes increased vulnerability to oxidative stress and inflammation. In this study, we found that l‐Ser depletion leads to enhanced reactive oxygen species generation and subsequent induction of the inflammatory markers thioredoxin‐interacting protein and prostaglandin‐endoperoxide synthase 2 in Phgdh‐deleted embryonic fibroblast cells.</abstract><cop>England</cop><pub>John Wiley & Sons, Inc</pub><pmid>29928571</pmid><doi>10.1002/2211-5463.12429</doi><tpages>9</tpages><oa>free_for_read</oa></addata></record>
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subjects	Amino acids Biosynthesis Cell death Cellular stress response Cysteine D-Serine Dehydrogenases Embryo fibroblasts Embryos Fibroblasts Gene expression Glutathione Glycine Hydrogen peroxide Inflammation Intracellular Kinases L-Serine Laboratories Lipid metabolism l‐serine deficiency Metabolites Molecular modelling Oxidative stress Phgdh Phosphoglycerate dehydrogenase Proteins Ptgs2 Software Tetrahydrofolic acid Thioredoxin Transcription factors Txnip
title	Enhanced vulnerability to oxidative stress and induction of inflammatory gene expression in 3‐phosphoglycerate dehydrogenase‐deficient fibroblasts
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