Enhanced oleate uptake and lipotoxicity associated with laurate

•A combination of laurate and oleate synergistically enhances lipotoxicity.•Cell death pathways influenced by a combination of oleate and laurate vary among cell types.•Laurate increases oleate uptake. Free fatty acids have been reported to induce cell death (lipotoxicity), but the effects depend on...

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Published in:FEBS open bio 2015-01, Vol.5 (1), p.485-491
Main Authors: Kitaura, Yasuyuki, Inoue, Kana, Kato, Naoki, Matsushita, Nahomi, Shimomura, Yoshiharu
Format: Article
Language:English
Subjects:
Apoptosis
carbon
Caspase
caspase-3
Cell death
Cytotoxicity
Depolarization
droplets
Experiments
Fatty acid
Fatty acids
fluorescent labeling
Laurate
Lipids
Lipotoxicity
Mitochondria
Oleate
oleic acid
palmitates
Palmitic acid
Radioisotopes
Reactive oxygen species
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Summary:•A combination of laurate and oleate synergistically enhances lipotoxicity.•Cell death pathways influenced by a combination of oleate and laurate vary among cell types.•Laurate increases oleate uptake. Free fatty acids have been reported to induce cell death (lipotoxicity), but the effects depend on the carbon chain length and number of double bonds. Medium-chain saturated fatty acids (MC-SFAs), such as laurate, have less lipotoxicity than long-chain saturated fatty acids (LC-SFAs), such as palmitate. Monounsaturated fatty acids, such as oleate, have also been reported not only to exert cytotoxic effects, but also to reduce the lipotoxicity of LC-SFA. However the interaction between MC-SFA and oleate with respect to cell death is unclear. In this report, we found that lipotoxicity was enhanced by a combination of laurate and oleate relative to either fatty acid alone. The possible mechanisms involved were examined by measuring the production of reactive oxygen species, mitochondrial depolarization, caspase-3 activity, and lipid droplet formation. Although the stress signals and cell death pathways were distinct among different cell types, we found a common phenomenon of enhanced lipid droplet formation in all cells tested. Using fluorescent- or radioisotope-labeled fatty acids, we found that oleate, but not laurate, increased the uptake of fluorescent-labeled fatty acids, and the combinatory effect was more efficient than with oleate alone. We also found that laurate increased oleate uptake, but the effect of oleate on laurate uptake varied among cell types. These results suggest that laurate enhances the influx rate of oleate, the increased intracellular concentration of which not only enhances lipid storage, but also induces cell death by lipotoxic stress responses, which vary according to cell type.
ISSN:2211-5463
2211-5463
DOI:10.1016/j.fob.2015.05.008