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  • Title: Fatty acid uptake by cultured human keratinocytes grown in medium deficient in or supplemented with essential fatty acids.
    Author: Schürer NY, Rippke F, Vogelsang K, Schliep V, Ruzicka T.
    Journal: Arch Dermatol Res; 1999 Jan; 291(1):47-53. PubMed ID: 10025727.
    Abstract:
    Epidermal linoleic acid, i.e. essential fatty acid (EFA), is essential for cutaneous barrier function. Cultured human keratinocytes, routinely used for studies of lipid metabolism, are grown in a keratinocyte serum-free medium (KSFM), under conditions that reveal EFA-deficient cells. Here, fatty acid (FA) uptake was analysed in human adult keratinocytes grown either under EFA-deficient conditions [KSFM supplemented with 10% FCS (A) or 1% UltroserG (B)] or EFA-supplemented conditions [KSFM supplemented with a devised FA cocktail (C) or evening primrose oil (D)]. The FA composition of the total cellular lipid and major lipid fractions was analysed by gas chromatography. Cells grown with supplements A or B balanced their EFA-deficient state primarily with oleic acid. Cells grown with supplements C or D normalized to the epidermal FA composition in vivo with raised linoleic and lower oleic acid contents. When cells were grown longer than 48 h with supplements C or D decreased cell growth was observed. FA uptake was curvilinear with preference for linoleic over oleic acid under all culture conditions. The uptake of linoleic acid by cells cultured with supplement B was twice the uptake of those cultured with supplement A, while the uptake of oleic acid was similar under both culture conditions. Oleic acid uptake of cells cultured with supplement C or D was lower. These results show that the uptake of linoleic, but not that of oleic acid, is influenced by the extracellular FA composition, and that EFA-supplemented keratinocytes compared to EFA-deficient cells might serve as an in vitro model for the study of EFA metabolism.
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