Abstract
The efficacy of wheat extract oil (WEO), standardized to glucosylceramides, for protecting against ultraviolet B (UVB)-induced damage of skin barrier function was assessed using the SHK-1 hairless mouse model and two human skin cell lines, namely, CCD-986sk and HeCaT. The ability of repeated oral administration of 30, 60, and 120 mg of WEO/kg/day for 12 weeks to prevent skin damage of SKH-1 hairless mice induced by UVB irradiation was evaluated. The results demonstrated that UVB-induced water evaporation (transepidermal water loss, TEWL) was significantly decreased by WEO. Similarly, UVB-induced losses in moisture and skin elasticity were improved by WEO supplementation. WEO attenuated the tissue procollagen type I, hyaluronic acid (HA), and ceramide reductions induced by UVB treatment as well. Collagen concentrations in skin tissue were increased in the WEO-treated mice, while UVB-induced epidermal thickening was reduced. In vitro studies using HeCaT human keratinocytes confirmed increased HA and collagen synthesis in response to WEO treatment. This may occur via WEO suppression of matrix metalloproteinase-1 (MMP-1), since its induction by UVB treatment was diminished in treated CCD-986sk cells. Oral administration of WEO improves skin barrier function in UVB-irradiated mice by attenuating damage typically observed in photoaging. This research further clarifies the clinical benefits previously observed by dietary WEO consumption.
Highlights
Skin has a critical barrier function, protecting the body from external elements and pathogenic microorganisms; as such, the integrity of this organ is vital to health [1]
Stratum corneum hydration and Transepidermal Water Loss (TEWL) were evaluated to determine the effect of wheat extract oil (WEO) treatment on skin barrier function
While hydration of skin was reduced in response to ultraviolet B (UVB) treatment, mice supplemented with WEO started to show better hydration of the stratum corneum compared with
Summary
Skin has a critical barrier function, protecting the body from external elements and pathogenic microorganisms; as such, the integrity of this organ is vital to health [1]. Structural changes that can disrupt the integrity of the skin barrier are observed. One clinical manifestation of these changes is dry skin caused by transepidermal water loss across a thinning epidermal layer [1,2]. The three major layers of the skin include the epidermis, dermis, and hypodermis. The outermost layer, the epidermis, provides a moisture barrier and gives skin its tone [3]. The outer layer of the epidermis, or stratum corneum, is composed of lipids and keratinocytes. There are three major lipids: cholesterol, fatty acids, and ceramides. As a key structural component, ceramides represent
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