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      Genetic activation of Nrf2 reduces cutaneous symptoms in a murine model of Netherton syndrome

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          ABSTRACT

          Netherton syndrome is a monogenic autosomal recessive disorder primarily characterized by the detachment of the uppermost layer of the epidermis, the stratum corneum. It results from mutations in the SPINK5 gene, which codes for a kallikrein inhibitor. Uncontrolled kallikrein activity leads to premature desquamation, resulting in a severe epidermal barrier defect and subsequent life-threatening systemic infections and chronic cutaneous inflammation. Here, we show that genetic activation of the transcription factor nuclear factor (erythroid-derived 2)-like 2 (Nfe2l2/Nrf2) in keratinocytes of Spink5 knockout mice, a model for Netherton syndrome, significantly alleviates their cutaneous phenotype. Nrf2 activation promoted attachment of the stratum corneum and concomitant epidermal barrier function, and reduced the expression of pro-inflammatory cytokines such as tumor necrosis factor α and thymic stromal lymphopoietin. Mechanistically, we show that Nrf2 activation induces overexpression of secretory leukocyte protease inhibitor (Slpi), a known inhibitor of kallikrein 7 and elastase 2, in mouse and human keratinocytes in vivo and in vitro, respectively. In the Spink5-deficient epidermis, the upregulation of Slpi is likely to promote stabilization of corneodesmosomes, thereby preventing premature desquamation. Our results suggest pharmacological NRF2 activation as a promising treatment modality for Netherton syndrome patients.

          This article has an associated First Person interview with the first author of the paper.

          Abstract

          Summary: Nrf2 activation ameliorates the epidermal barrier defect and cutaneous inflammation in a mouse model of Netherton syndrome, suggesting the utility of NRF2-activating compounds in patients with this genetic disease.

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          Identification of novel NRF2-regulated genes by ChIP-Seq: influence on retinoid X receptor alpha

          Brian Chorley, Michelle Campbell, Xuting Wang (2012)
          Cellular oxidative and electrophilic stress triggers a protective response in mammals regulated by NRF2 (nuclear factor (erythroid-derived) 2-like; NFE2L2) binding to deoxyribonucleic acid-regulatory sequences near stress-responsive genes. Studies using Nrf2-deficient mice suggest that hundreds of genes may be regulated by NRF2. To identify human NRF2-regulated genes, we conducted chromatin immunoprecipitation (ChIP)-sequencing experiments in lymphoid cells treated with the dietary isothiocyanate, sulforaphane (SFN) and carried out follow-up biological experiments on candidates. We found 242 high confidence, NRF2-bound genomic regions and 96% of these regions contained NRF2-regulatory sequence motifs. The majority of binding sites were near potential novel members of the NRF2 pathway. Validation of selected candidate genes using parallel ChIP techniques and in NRF2-silenced cell lines indicated that the expression of about two-thirds of the candidates are likely to be directly NRF2-dependent including retinoid X receptor alpha (RXRA). NRF2 regulation of RXRA has implications for response to retinoid treatments and adipogenesis. In mouse, 3T3-L1 cells’ SFN treatment affected Rxra expression early in adipogenesis, and knockdown of Nrf2-delayed Rxra expression, both leading to impaired adipogenesis.
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            Kallikrein 5 induces atopic dermatitis–like lesions through PAR2-mediated thymic stromal lymphopoietin expression in Netherton syndrome

            Anais Briot, Céline Deraison, Matthieu Lacroix (2009)
            Netherton syndrome (NS) is a severe genetic skin disease with constant atopic manifestations that is caused by mutations in the serine protease inhibitor Kazal-type 5 (SPINK5) gene, which encodes the protease inhibitor lymphoepithelial Kazal-type–related inhibitor (LEKTI). Lack of LEKTI causes stratum corneum detachment secondary to epidermal proteases hyperactivity. This skin barrier defect favors allergen absorption and is generally regarded as the underlying cause for atopy in NS. We show for the first time that the pro-Th2 cytokine thymic stromal lymphopoietin (TSLP), the thymus and activation-regulated chemokine, and the macrophage-derived chemokine are overexpressed in LEKTI-deficient epidermis. This is part of an original biological cascade in which unregulated kallikrein (KLK) 5 directly activates proteinase-activated receptor 2 and induces nuclear factor κB–mediated overexpression of TSLP, intercellular adhesion molecule 1, tumor necrosis factor α, and IL8. This proinflammatory and proallergic pathway is independent of the primary epithelial failure and is activated under basal conditions in NS keratinocytes. This cell-autonomous process is already established in the epidermis of Spink5−/− embryos, and the resulting proinflammatory microenvironment leads to eosinophilic and mast cell infiltration in a skin graft model in nude mice. Collectively, these data establish that uncontrolled KLK5 activity in NS epidermis can trigger atopic dermatitis (AD)–like lesions, independently of the environment and the adaptive immune system. They illustrate the crucial role of protease signaling in skin inflammation and point to new therapeutic targets for NS as well as candidate genes for AD and atopy.
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              Quorum sensing between bacterial species on the skin protects against epidermal injury in atopic dermatitis

              Michael Williams, Stephen Costa, Livia Zaramela (2019)
              Colonization of the skin by Staphylococcus aureus is associated with exacerbation of atopic dermatitis (AD), but any direct mechanism through which dysbiosis of the skin microbiome may influence the development of AD is unknown. Here, we show that proteases and phenol-soluble modulin α (PSMα) secreted by S. aureus lead to endogenous epidermal proteolysis and skin barrier damage that promoted inflammation in mice. We further show that clinical isolates of different coagulase-negative staphylococci (CoNS) species residing on normal skin produced autoinducing peptides that inhibited the S. aureus agr system, in turn decreasing PSMα expression. These autoinducing peptides from skin microbiome CoNS species potently suppressed PSMα expression in S. aureus isolates from subjects with AD without inhibiting S. aureus growth. Metagenomic analysis of the AD skin microbiome revealed that the increase in the relative abundance of S. aureus in patients with active AD correlated with a lower CoNS autoinducing peptides to S. aureus ratio, thus overcoming the peptides’ capacity to inhibit the S. aureus agr system. Characterization of a S. hominis clinical isolate identified an autoinducing peptide (SYNVCGGYF) as a highly potent inhibitor of S. aureus agr activity, capable of preventing S. aureus –mediated epithelial damage and inflammation on murine skin. Together, these findings show how members of the normal human skin microbiome can contribute to epithelial barrier homeostasis by using quorum sensing to inhibit S. aureus toxin production.
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                Author and article information

                Journal
                Journal ID (nlm-ta): Dis Model Mech
                Journal ID (iso-abbrev): Dis Model Mech
                Journal ID (publisher-id): DMM
                Journal ID (hwp): dmm
                Title: Disease Models & Mechanisms
                Publisher: The Company of Biologists Ltd
                ISSN (Print): 1754-8403
                ISSN (Electronic): 1754-8411
                Publication date Collection: 1 May 2020
                Publication date (Electronic): 1 June 2020
                Publication date PMC-release: 1 June 2020
                Volume: 13
                Issue: 5
                Electronic Location Identifier: dmm042648
                Affiliations
                [1 ]Department of Biology, Institute of Molecular Health Sciences, ETH Zurich , 8093 Zurich, Switzerland
                [2 ]Department of Molecular and Cellular Sport Medicine, German Sport University Cologne , 50933 Cologne, Germany
                [3 ]Department of Dermatology, University Hospital of Zurich , Gloriastrasse 3, 8091 Zurich, Switzerland
                Author notes
                Author information
                http://orcid.org/0000-0001-9330-4027
                http://orcid.org/0000-0001-7397-8710
                http://orcid.org/0000-0001-6754-0448
                Article
                Publisher ID: DMM042648
                DOI: 10.1242/dmm.042648
                PMC ID: 7286291
                PubMed ID: 32457102
                SO-VID: c5bec670-b59d-4d87-b84d-09f21618fad1
                Copyright © © 2020. Published by The Company of Biologists Ltd
                License:

                This is an Open Access article distributed under the terms of the Creative Commons Attribution License ( https://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution and reproduction in any medium provided that the original work is properly attributed.

                History
                Date received : 4 October 2019
                Date accepted : 16 March 2020
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                Funding
                Funded by: Gebert-Rüf Foundation;
                Award ID: 052/13
                Funded by: Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung, http://dx.doi.org/10.13039/501100001711;
                Award ID: 31003A_169204
                Categories
                Subject: 311
                Subject: Research Article

                ScienceOpen disciplines: Molecular medicine
                Keywords: epidermal barrier,inflammation,netherton syndrome,nrf2
                Data availability:
                ScienceOpen disciplines: Molecular medicine
                Keywords: epidermal barrier, inflammation, netherton syndrome, nrf2

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