Epidermal ADAM17 maintains the skin barrier by regulating EGFR ligand–dependent terminal keratinocyte differentiation

CW Franzke, C Cobzaru, A Triantafyllopoulou… - Journal of Experimental …, 2012 - rupress.org
CW Franzke, C Cobzaru, A Triantafyllopoulou, S Löffek, K Horiuchi, DW Threadgill, T Kurz…
Journal of Experimental Medicine, 2012rupress.org
ADAM17 (a disintegrin and metalloproteinase 17) is ubiquitously expressed and cleaves
membrane proteins, such as epidermal growth factor receptor (EGFR) ligands, l-selectin,
and TNF, from the cell surface, thus regulating responses to tissue injury and inflammation.
However, little is currently known about its role in skin homeostasis. We show that mice
lacking ADAM17 in keratinocytes (A17ΔKC) have a normal epidermal barrier and skin
architecture at birth but develop pronounced defects in epidermal barrier integrity soon after …
ADAM17 (a disintegrin and metalloproteinase 17) is ubiquitously expressed and cleaves membrane proteins, such as epidermal growth factor receptor (EGFR) ligands, l-selectin, and TNF, from the cell surface, thus regulating responses to tissue injury and inflammation. However, little is currently known about its role in skin homeostasis. We show that mice lacking ADAM17 in keratinocytes (A17ΔKC) have a normal epidermal barrier and skin architecture at birth but develop pronounced defects in epidermal barrier integrity soon after birth and develop chronic dermatitis as adults. The dysregulated expression of epidermal differentiation proteins becomes evident 2 d after birth, followed by reduced transglutaminase (TGM) activity, transepidermal water loss, up-regulation of the proinflammatory cytokine IL-36α, and inflammatory immune cell infiltration. Activation of the EGFR was strongly reduced in A17ΔKC skin, and topical treatment of A17ΔKC mice with recombinant TGF-α significantly improved TGM activity and decreased skin inflammation. Finally, we show that mice lacking the EGFR in keratinocytes (EgfrΔKC) closely resembled A17ΔKC mice. Collectively, these results identify a previously unappreciated critical role of the ADAM17–EGFR signaling axis in maintaining the homeostasis of the postnatal epidermal barrier and suggest that this pathway could represent a good target for treatment of epidermal barrier defects.
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