Elastin microfibril interface-located protein 1 and its catabolic enzyme, cathepsin K, regulate the age-related structure of elastic fibers in the skin

Using our new assessment strategy, we observed that EMILIN-1 and CTSK are highly linked to changes in the elastic fiber structure with aging. These results indicate that suppressing CTSK expression and increasing EMILIN-1 expression might be an effective approach to prevent elastic fiber morphological changes that lead to wrinkles and sagging. Furthermore, EMILIN-1 in the dermis increases due to interaction with the epidermis, which could provide a new target for the therapeutic care of elastic fibers (including preservation of oxytalan fibers) in epidermis-dermis interaction.

We performed a combined 3D structural analysis using tissue decolorization technology and mRNA abundance and comprehensive protein expression of tissue-derived cells. The relationship between the proteins was evaluated.

Elastin microfibril interface-located protein 1 (EMILIN-1) and cathepsin K (CTSK) were implicated in structural changes in elastic fibers with aging. EMILIN-1 and CTSK levels were highly correlated and changed with age. CTSK was identified as the degrading enzyme of EMILIN-1. CTSK fragmented the otherwise linearly existing dermal elastic fiber structure, with more evident changes in oxytalan fibers. EMILIN-1 expression in fibroblasts was increased by co-culturing with keratinocytes. Furthermore, CTSK expression was increased by UV stress in keratinocytes, resulting in decreased EMILIN-1 expression.