A Hot-Spring Water Improves Inflammatory Conditions in an Injury-Induced Atopic Dermatitis Mouse Model by Regulating Skin Barrier Function.
Yoko Naito, Abdullah Md Sheikh, Jubo Bhuiya, Fatema Binte Abdullah, Jerin Fahmida, Shatera Tabassum, Hiro Tamegai, Kenichi Iwasa, Shozo Yano, Atsushi Nagai
Abstract
Open AccessBackground: Atopic dermatitis (AD) is a common inflammatory skin condition in which skin barrier function plays a crucial role. Hot spring water is known for its beneficial effects on skin health. This study investigates the impact of a hot spring water on AD pathology, focusing on skin barrier function. Methods: Using the tape-stripping method, we induced an AD mouse model, treated the mice with either hot-spring water or tap water, and assessed time-dependent changes in skin barrier function, histology, and AD-related proteins. Results: Transepithelial water loss (TEWL) was significantly increased after tape-stripping, which began to decrease from day 2 in both treatment groups. On day 3, water loss was significantly decreased in hot-spring-treated mice than tap water-treated mice. Histological analysis revealed thickening and vacuolization of the stratum spinosum from day 2, becoming more pronounced on day 3 in tap-water-treated mice. However, in hot-spring-treated mice, the stratum spinosum was significantly less thickened, and the stratum granulosum was better formed. Immunostaining showed that transient receptor potential vanilloid 4 (TRPV4) levels decreased at day 2 but returned to baseline by day 3, with no significant differences between groups. Filaggrin, a key skin barrier protein, was markedly low in tape-stripped areas at day 0, but increased progressively, with a higher level in the upper epidermis of hot-spring-treated mice compared to tap-water-treated counterparts. Additionally, hot spring water treatment significantly reduced CD8+ T cell numbers and IL-4 cytokine levels, mitigating inflammation. Conclusions: Threfore, hot spring water enhances skin barrier recovery and reduces inflammation in AD.