AI Article Synopsis
- One carbon metabolism (1CM) is the process of transferring carbon units between metabolites, relying mainly on nutrients like choline and methionine to support various biosynthetic processes, including nucleotides and amino acids.
- A key component of 1CM is the synthesis of -adenosylmethionine (SAMe), which controls numerous methyl transfer reactions in cells and is tightly regulated due to its significance.
- Research on 1CM has helped us understand nonalcoholic fatty liver disease (NAFLD), particularly the roles of specific enzymes and how variations in their activity can lead to different subtypes of NAFLD, including subtype A, which is associated with a specific serum lipid profile and increased cardiovascular risk.
Article Abstract
One carbon metabolism (1CM) can be defined as the transfer of a carbon unit from one metabolite to another and its replenishment by different sources of labile methyl-group nutrients: primarily choline, methionine, betaine, and serine. This flow of carbon units allows the biosynthesis of nucleotides, amino acids, formylated methionyl-tRNA, polyamines, glutathione, phospholipids, detoxification reactions, maintenance of the redox status and the concentration of NAD, and methylation reactions including epigenetic modifications. That is, 1CM functions as a nutrient sensor and integrator of cellular metabolism. A critical process in 1CM is the synthesis of -adenosylmethionine (SAMe), the source of essentially all the hundreds of millions of daily methyl transfer reactions in a cell. This versatility of SAMe imposes a tight control in its synthesis and catabolism. Much of our knowledge concerning 1CM has been gained from studies in the production and prevention of nonalcoholic fatty liver disease (NAFLD). Here, we discuss in detail the function of the most important enzymes for their quantitative contribution to maintaining the flux of carbon units through 1CM in the liver and discuss how alterations in their enzymatic activity contribute to the development of NAFLD. Next, we discuss NAFLD subtypes based on serum lipidomic profiles with different risk of cardiovascular disease. Among the latter, we highlight the so-called subtype A for its serum lipidomic profile phenocopying that of mice deficient in SAMe synthesis and because its high frequency (about 50% of the NAFLD patients).
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10137169 | PMC |
| http://dx.doi.org/10.3390/livers2040020 | DOI Listing |
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