Long Hanging Structure of Collagen VII Connects the Elastic Fibers and the Basement Membrane in Young Skin Tissue

Abstract

Aging leads to substantial structural changes in the skin. Elastic fibers maintain skin structure, but their degeneration and loss of function with age result in wrinkle formation and loss of skin elasticity. Oxytalan fiber, a type of elastic fiber, extends close to the dermal–epidermal junction (DEJ) from the back of the dermis. Oxytalan fibers are abundant in the papillary layer and contribute to skin elasticity and texture. However, to accurately understand the mechanisms of skin elasticity, the interaction between elastic fibers and DEJ should be elucidated. Here, we investigated elastic fibers and DEJ and their structural alterations with aging. Several basement membrane proteins [collagen (COL) IV, COLVII, and laminin 332], fibrous tropoelastin, and fibrillin-1 in excised human skin tissue were observed using three-dimensional imaging. Age-related alterations in COLVII, elastic fibers, and fibrillin-1 were evaluated. We found that COLVII forms long hanging structures and is co-localized with fibrous tropoelastin in young skin but not aged skin. Fibrillin-1-rich regions were observed at the tips of elastin fibers in young skin tissue, but rarely in aged skin. This co-localization of elastic fiber and COLVII may maintain skin structure, thereby preventing wrinkling and sagging. COLVII is a potential therapeutic target for skin wrinkling: