Elastase 2 is expressed in human and mouse epidermis and impairs skin barrier function in Netherton syndrome through filaggrin and lipid misprocessing
Chrystelle Bonnart, Céline Deraison, Matthieu Lacroix, Yoshikazu Uchida, Céline Besson, Aurélie Robin, Anaïs Briot, Marie Gonthier, Laurence Lamant, Pierre Dubus, Bernard Monsarrat, Alain Hovnanian
Chrystelle Bonnart, Céline Deraison, Matthieu Lacroix, Yoshikazu Uchida, Céline Besson, Aurélie Robin, Anaïs Briot, Marie Gonthier, Laurence Lamant, Pierre Dubus, Bernard Monsarrat, Alain Hovnanian
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Research Article Dermatology

Elastase 2 is expressed in human and mouse epidermis and impairs skin barrier function in Netherton syndrome through filaggrin and lipid misprocessing

Abstract

The human epidermis serves 2 crucial barrier functions: it protects against water loss and prevents penetration of infectious agents and allergens. The physiology of the epidermis is maintained by a balance of protease and antiprotease activities, as illustrated by the rare genetic skin disease Netherton syndrome (NS), in which impaired inhibition of serine proteases causes severe skin erythema and scaling. Here, utilizing mass spectrometry, we have identified elastase 2 (ELA2), which we believe to be a new epidermal protease that is specifically expressed in the most differentiated layer of living human and mouse epidermis. ELA2 localized to keratohyalin granules, where it was found to directly participate in (pro-)filaggrin processing. Consistent with the observation that ELA2 was hyperactive in skin from NS patients, transgenic mice overexpressing ELA2 in the granular layer of the epidermis displayed abnormal (pro-)filaggrin processing and impaired lipid lamellae structure, which are both observed in NS patients. These anomalies led to dehydration, implicating ELA2 in the skin barrier defect seen in NS patients. Thus, our work identifies ELA2 as a major new epidermal protease involved in essential pathways for skin barrier function. These results highlight the importance of the control of epidermal protease activity in skin homeostasis and designate ELA2 as a major protease driving the pathogenesis of NS.

Authors

Chrystelle Bonnart, Céline Deraison, Matthieu Lacroix, Yoshikazu Uchida, Céline Besson, Aurélie Robin, Anaïs Briot, Marie Gonthier, Laurence Lamant, Pierre Dubus, Bernard Monsarrat, Alain Hovnanian

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Figure 7

(Pro-)filaggrin is a target of ELA2.

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(Pro-)filaggrin is a target of ELA2. (A) Ultrastructural analysis of 4-d...
(A) Ultrastructural analysis of 4-day-old Tg-ELA2 (Tg) shows hyperkeratosis and a reduction in size and number of keratohyalin granules (blue arrowheads). SP, spinous layer. Scale bar: 5 μm. Each panel is a composite of 2 images. (B) Filaggrin immunostaining is markedly decreased in 4-day-old Tg-ELA2 epidermis compared with littermate WT animals. Scale bar: 250 μm. (C) Immunodetection of profilaggrin (proFlg), filaggrin (Flg), and filaggrin-processing intermediate dimers (2xFlg) and trimers (3xFlg) in epidermal extract from a 4-day-old litter composed of 2 WT and 2 Tg-ELA2 animals (Tg). In Tg-ELA2 epidermis, profilaggrin and filaggrin intermediates are decreased in intensity and filaggrin monomers are not detectable. (D) In vitro degradation of (pro-)filaggrin by purified ELA2. Epidermal extracts from WT animals were incubated with (+) or without (–) purified ELA2 for different time periods (0, 15, 30, and 60 minutes) before Western blotting analyses using an anti-filaggrin antibody. In the absence of ELA2, no degradation of either filaggrin form is observed. In the presence of ELA2, profilaggrin and filaggrin intermediates are digested progressively with incubation time.