Formaldehyde regulates S -adenosylmethionine biosynthesis and one-carbon metabolism

One-carbon metabolism is an essential branch of cellular metabolism that intersects with epigenetic regulation. In this work, we show how formaldehyde (FA), a one-carbon unit derived from both endogenous sources and environmental exposure, regulates one-carbon metabolism by inhibiting the biosynthes...

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Veröffentlicht in:	Science (American Association for the Advancement of Science) 2023-11, Vol.382 (6670), p.eabp9201-eabp9201
Hauptverfasser:	Pham, Vanha N, Bruemmer, Kevin J, Toh, Joel D W, Ge, Eva J, Tenney, Logan, Ward, Carl C, Dingler, Felix A, Millington, Christopher L, Garcia-Prieto, Carlos A, Pulos-Holmes, Mia C, Ingolia, Nicholas T, Pontel, Lucas B, Esteller, Manel, Patel, Ketan J, Nomura, Daniel K, Chang, Christopher J
Format:	Artikel
Sprache:	eng
Schlagworte:	Adenosylmethionine Aldehydes Amino acids Animal models Animals Asthma Biochemistry Biosynthesis Carbon Carbon - metabolism Carbon cycle Carbon dioxide Cellular manufacture Chronic exposure Cysteine Cysteine - metabolism Deoxyribonucleic acid Depletion DNA DNA methylation Environmental Exposure Epigenesis, Genetic - drug effects Epigenetics Exposure Feedback Folic acid Formaldehyde Formaldehyde - metabolism Formaldehyde - toxicity Hep G2 Cells Hepatocytes Histones Humans Inhibition Liver Liver cancer Liver diseases Metabolism Metabolites Methionine Adenosyltransferase - antagonists & inhibitors Methionine Adenosyltransferase - genetics Methionine Adenosyltransferase - metabolism Mice Nucleotides Overloading Oxidation Peptides Perturbation Protein Isoforms - antagonists & inhibitors Protein Isoforms - metabolism Proteins Proteomes Residues S-Adenosylmethionine S-Adenosylmethionine - antagonists & inhibitors S-Adenosylmethionine - metabolism Synthetic peptides Transcription factors
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Zusammenfassung:	One-carbon metabolism is an essential branch of cellular metabolism that intersects with epigenetic regulation. In this work, we show how formaldehyde (FA), a one-carbon unit derived from both endogenous sources and environmental exposure, regulates one-carbon metabolism by inhibiting the biosynthesis of -adenosylmethionine (SAM), the major methyl donor in cells. FA reacts with privileged, hyperreactive cysteine sites in the proteome, including Cys120 in S-adenosylmethionine synthase isoform type-1 (MAT1A). FA exposure inhibited MAT1A activity and decreased SAM production with MAT-isoform specificity. A genetic mouse model of chronic FA overload showed a decrease n SAM and in methylation on selected histones and genes. Epigenetic and transcriptional regulation of and related genes function as compensatory mechanisms for FA-dependent SAM depletion, revealing a biochemical feedback cycle between FA and SAM one-carbon units.
ISSN:	0036-8075 1095-9203 1095-9203
DOI:	10.1126/science.abp9201