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Belinostat resolves skin barrier defects in atopic dermatitis by targeting the dysregulated miR-335:SOX6 axis - 05/09/20

Doi : 10.1016/j.jaci.2020.02.007 
Wen Chiy Liew, PhD a, b, c, Gopinath M. Sundaram, PhD a, b, Shan Quah, PhD a, Guo Guang Lum, BSc a, Jonathan S.L. Tan, BSc a, Rajkumar Ramalingam, PhD b, John E.A. Common, PhD a, Mark B.Y. Tang, MD d, E. Birgitte Lane, PhD a, Steven Tien Guan Thng, MBBS a, e, Prabha Sampath, PhD a, c, f,
a Skin Research Institute of Singapore, Agency for Science Technology & Research, Singapore 
b Institute of Medical Biology, Singapore 
c Department of Biochemistry, Yong Loo Lin School of Medicine, National University of Singapore, Singapore 
d Skin Specialists & Laser Clinic, Mt Alvernia Medical Centre, Singapore 
e National Skin Center, Singapore 
f Program in Cancer and Stem Cell Biology, Duke-NUS Medical School, Singapore 

Corresponding author: Prabha Sampath, PhD, Skin Research Institute of Singapore Agency for Science Technology & Research (A*STAR), 8A Biomedical Grove, 05-41 Immunos, Singapore 138648.Skin Research Institute of Singapore Agency for Science Technology & Research (A∗STAR)8A Biomedical Grove05-41 Immunos138648Singapore

Abstract

Background

Atopic dermatitis (AD) is a common chronic inflammatory skin disease. Skin barrier defects contribute to disease initiation and development; however, underlying mechanisms remain elusive.

Objective

To understand the underlying cause of barrier defect, we investigated aberrant expression of specific microRNAs (miRNAs) in AD. Delineating the molecular mechanism of dysregulated miRNA network, we focused on identification of specific drugs that can modulate miRNA expression and repair the defective barrier in AD.

Methods

A screen for differentially expressed miRNAs between healthy skin and AD lesional skin resulted in the identification of miR-335 as the most consistently downregulated miRNA in AD. Using in silico prediction combined with experimental validation, we characterized downstream miR-335 targets and elucidated the molecular pathways by which this microRNA maintains epidermal homeostasis in healthy skin.

Results

miR-335 was identified as a potent inducer of keratinocyte differentiation; it exerts this effect by directly repressing SOX6. By recruiting SMARCA complex components, SOX6 suppresses epidermal differentiation and epigenetically silences critical genes involved in keratinocyte differentiation. In AD lesional skin, miR-335 expression is aberrantly lost. SOX6 is abnormally expressed throughout the epidermis, where it impairs skin barrier development. We demonstrate that miR-335 is epigenetically regulated by histone deacetylases; a screen for suitable histone deacetylase inhibitors identified belinostat as a candidate drug that can restore epidermal miR-335 expression and rescue the defective skin barrier in AD.

Conclusion

Belinostat is of clinical significance not only as a candidate drug for AD treatment, but also as a potential means of stopping the atopic march and further progression of this systemic allergic disease.

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Graphical abstract




Il testo completo di questo articolo è disponibile in PDF.

Keywords : MicroRNA, atopic dermatitis, barrier defect, chronic inflammation

Abbreviations : AD, CAGE, CE, ChIP, ChIP-seq, cRNA, DAPI, DMSO, ENCODE, FLG, GFP, GO, HDAC, HDACI, IVL, LNA, MEST, miR-335, MS, NaB, NHEK, qRT-PCR, shRNA, siRNA, SPRR, SSC, SWI/SNF, SMARCA, TGM1, 3'-UTR


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 This work was supported by the Biomedical Research Council of Singapore; and an Agency for Science, Technology, and Research and National Healthcare Group (NHG) Skin Innovation Grant (SIG18006).
 Disclosure of potential conflict of interest: The authors declare that they have no relevant conflicts of interest.


© 2020  The Authors. Pubblicato da Elsevier Masson SAS. Tutti i diritti riservati.
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