Relationship between expression of tight junction-related molecules and perturbed epidermal barrier function in UVB-irradiated hairless mice

In epithelia, tight junctions (TJs) create a primary barrier to the diffusion of solutes through the paracellular pathway. Although TJ-related molecules are present in the epidermis, the precise mechanisms underlying TJ functions in this tissue remain unclear. In this study, we use an ultraviolet (UV) B-irradiated murine skin model, in which the epidermal barrier function has been perturbed, to demonstrate a correlation between the expression patterns of TJ-related molecules and the epidermal permeability of TJs. Occludin remained localized in the upper epidermis, regardless of UVB irradiation (0.15 J per cm2). ZO-1 was localized in the upper portion of normal epidermis, and within 3–4 days of UVB irradiation, it was expressed throughout the upper epidermis and their expression coincided with epidermal thickening. Protein expression of claudin-1 and occludin did not alter until 3 and 4 days after UVB irradiation, respectively and thereafter expression remained elevated above pre-irradiation levels. An in vivo epidermal permeability assay revealed that tight junction-barrier function was perturbed by UVB irradiation, whereby biotinylated markers clearly permeated the stratum granulosum 3–5 days after irradiation. These results suggest that TJ-related molecules play important roles in epidermal barrier function in murine skin and show that changes in their expression patterns are associated with epidermal barrier perturbation after UVB irradiation. Specifically, it appears that epidermal barrier recovery is accelerated by the increased production and dense localization of occludin in the cell–cell contact region of the stratum granulosum.