Abstract
PubMed searches reveal much literature regarding lipids in barrier function of skin and less literature on lipids in barrier function of the oral mucosa. In terrestrial mammals, birds, and reptiles, the skin’s permeability barrier is provided by ceramides, fatty acids, and cholesterol in the outermost layers of the epidermis, the stratum corneum. This layer consists of about 10–20 layers of cornified cells embedded in a lipid matrix. It effectively prevents loss of water and electrolytes from the underlying tissue, and it limits the penetration of potentially harmful substances from the environment. In the oral cavity, the regions of the gingiva and hard palate are covered by keratinized epithelia that much resemble the epidermis. The oral stratum corneum contains a lipid mixture similar to that in the epidermal stratum corneum but in lower amounts and is accordingly more permeable. The superficial regions of the nonkeratinized oral epithelia also provide a permeability barrier. These epithelial regions do contain ceramides, cholesterol, and free fatty acids, which may underlie barrier function. The oral epithelial permeability barriers primarily protect the underlying tissue by preventing the penetration of potentially toxic substances, including microbial products. Transdermal drug delivery, buccal absorption, and lipid-related disease are discussed.
Highlights
PubMed searches reveal much literature regarding lipids in barrier function of skin and less literature on lipids in barrier function of the oral mucosa
The permeability barrier of the skin is provided by the outermost layer, the stratum corneum [6]
An approximately equimolar mixture of ceramides, fatty acids, and cholesterol between the flattened, cornified cells determine the permeability of the skin [7]
Summary
Several reviews of various aspects of the roles of lipids in the barrier function of the skin have been published recently [1,2,3,4]. Fatty acids, and cholesterol are the main lipids in the stratum corneum. Acylglucosylceramide within the internal lamellae of the lamellar granule cosylated form the acylceramide that passes into that the intercellular spaces of the stratum becomes to deglycosylated to form the acylceramide passes into the intercellular spaces corneum [24,26]. Lamellae to form broad multilamellar [46], shown from in theFigure granule gives rise to the CLE and the acylceramide among the free lipids in the Acylglucosylceramide from the lamellar granule gives rise to the CLE stratum and the corneum. The structures of human stratumthe corneum-free ceramides are shown in Figure 3.of intercellular lipid lamellae determine permeability of the skin. The porcine stratum linked fatty acid [48] In these structures, sphingosine is always accompanied dihydrosphingosine.
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