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Modulation of Stratum Corneum Lipid Composition and Organization of Human Skin Equivalents by Specific Medium Supplements

Our in-house human skin equivalents contain all stratum corneum (SC) barrier lipid classes, but have a reduced level of free fatty acids (FAs), of which a part is mono-unsaturated. These differences lead to an altered SC lipid organization and thereby a reduced barrier function compared to human skin. In this study we aimed to improve the SC FA composition and consequently the SC lipid organization of the Leiden Epidermal Model (LEM) by specific medium supplements.

Thakoersing, V.S.; van Smeden, J.; Boiten, W.A.; Gooris, G.S.; Mulder, A.A.; Vreeken, R.J.; El Ghalbzouri, A.; Bouwstra, J.A.
02 May 2015
Online publication (DOI)

The standard FA mixture (consisting of palmitic, linoleic and arachidonic acid) supplemented to the medium was modified, by replacing protonated palmitic acid with deuterated palmitic acid or addition of deuterated arachidic acid to the mixture, to determine whether FAs are taken up from the medium and are incorporated into SC of LEM. Furthermore, supplementation of the total FA mixture or that of palmitic acid alone was increased four times to examine whether this improves the SC FA composition and lipid organization of LEM. The results demonstrate that the deuterated FAs are taken up into LEMs and are subsequently elongated and incorporated in their SC. However, a fourfold increase in palmitic acid supplementation does not change the SC FA composition or lipid organization of LEM. Increasing the concentration of the total FA mixture in the medium resulted in a decreased level of very long chain FAs and an increased level of mono-unsaturated FAs, which lead to deteriorated SC lipid properties. These results indicate that SC lipid properties can be modulated by specific medium supplements. This article is protected by copyright. All rights reserved.

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