Exposure of human gastric cells to oxidized lipids stimulates pathways of amino acid biosynthesis on a genomic and metabolomic level

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Abstract

The Western diet is characterized by a high consumption of heat-treated fats and oils. During deep-frying processes, vegetable oils are subjected to high temperatures which result in the formation of lipid peroxidation products. Dietary intake of oxidized vegetable oils has been associated with various biological effects, whereas knowledge about the effects of structurally-characterized lipid peroxidation products and their possible absorption into the body is scarce. This study investigates the impact of linoleic acid, one of the most abundant polyunsaturated fatty acids in vegetable oils, and its primary and secondary peroxidation products, 13-HpODE and hexanal, on genomic and metabolomic pathways in human gastric cells (HGT-1) in culture. The genomic and metabolomic approach was preceded by an up-to-six-hour exposure study applying 100 μMof each test compound to the apical compartment in order to quantitate the compounds' recovery at the basolateral side. Exposure of HGT-1 cells to either 100 μMlinoleic acid or 100 μM13-HpODE resulted in the formation of approximately 1 μM of the corresponding hydroxy fatty acid, 13-HODE, in the basolateral compartment, whereas a mean concentration of 0.20 ± 0.13 μM hexanal was quantitated after an equivalent application of 100 μMhexanal. An integrated genomic and metabolomic pathway analysis revealed an impact of the linoleic acid peroxidation products, 13-HpODE and hexanal, primarily on pathways related to amino acid biosynthesis (p < 0.05), indicating that peroxidation of linoleic acid plays an important role in the regulation of intracellular amino acid biosynthesis.

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Zaunschirm, M., Pignitter, M., Kopic, A., Keßler, C., Hochkogler, C., Kretschy, N., … Somoza, V. (2019). Exposure of human gastric cells to oxidized lipids stimulates pathways of amino acid biosynthesis on a genomic and metabolomic level. Molecules, 24(22). https://doi.org/10.3390/molecules24224111

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