AI Article Synopsis
- Intracellular lipids play a significant role in obesity-related diseases, and a new NMR method allows for quick lipidomic analysis alongside measurements of lipid synthesis pathways.
- The study used deuterated water to track lipid fluxes through processes like de novo lipogenesis and fatty acid synthesis in mice on different diets.
- Results showed that while high-fat diet mice increased certain lipid synthesis rates, de novo lipogenesis was low, indicating that most liver triglycerides came from reesterifying existing lipids rather than being newly created.
Article Abstract
Intracellular lipids and their synthesis contribute to the mechanisms and complications of obesity-associated diseases. We describe an NMR approach that provides an abbreviated lipidomic analysis with concurrent lipid biosynthetic fluxes. Following deuterated water administration, positional isotopomer analysis by deuterium NMR of specific lipid species was used to examine flux through de novo lipogenesis (DNL), FA elongation, desaturation, and TG-glycerol synthesis. The NMR method obviated certain assumptions regarding sites of enrichment and exchangeable hydrogens required by mass isotope methods. The approach was responsive to genetic and pharmacological gain or loss of function of DNL, elongation, desaturation, and glyceride synthesis. BDF1 mice consuming a high-fat diet (HFD) or matched low-fat diet for 35 weeks were examined across feeding periods to determine how flux through these pathways contributes to diet induced fatty liver and obesity. HFD mice had increased rates of FA elongation and glyceride synthesis. However DNL was markedly suppressed despite insulin resistance and obesity. We conclude that most hepatic TGs in the liver of HFD mice were formed from the reesterification of existing or ingested lipids, not DNL.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4242447 | PMC |
| http://dx.doi.org/10.1194/jlr.M052308 | DOI Listing |
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