Literature DB >> 25668238

Topical Mineralocorticoid Receptor Blockade Limits Glucocorticoid-Induced Epidermal Atrophy in Human Skin.

Eve Maubec1, Cédric Laouénan2, Lydia Deschamps3, Van Tuan Nguyen4, Isabelle Scheer-Senyarich5, Anne-Catherine Wackenheim-Jacobs6, Maud Steff7, Stéphanie Duhamel8, Sarah Tubiana9, Nesrine Brahimi5, Stéphanie Leclerc-Mercier10, Béatrice Crickx7, Claudine Perret8, Selim Aractingi11, Brigitte Escoubet12, Xavier Duval9, Philippe Arnaud13, Frederic Jaisser8, France Mentré2, Nicolette Farman8.   

Abstract

A major deleterious side effect of glucocorticoids is skin atrophy. Glucocorticoids activate the glucocorticoid and the mineralocorticoid (MR) receptor, both present in the epidermis. We hypothesized that glucocorticoid-induced epidermal atrophy may be related to inappropriate occupancy of MR by glucocorticoids. We evaluated whether epidermal atrophy induced by the topical glucocorticoid clobetasol could be limited by coadministration of MR antagonist. In cultured human skin explants, the epidermal atrophy induced by clobetasol was significantly limited by MR antagonism (canrenoate and eplerenone). Blockade of the epithelial sodium channel ENaC by phenamil was also efficient, identifying a role of MR-ENaC cascade in keratinocytes, acting through restoration of clobetasol-induced impairment of keratinocyte proliferation. In the SPIREPI randomized double-blind controlled trial, gels containing clobetasol, the MR antagonist spironolactone, both agents, or placebo were applied on four zones of the forearms of 23 healthy volunteers for 28 days. Primary outcome was histological thickness of the epidermis with clobetasol alone or clobetasol+spironolactone. Spironolactone alone did not affect the epidermal thickness but coapplication of clobetasol and spironolactone significantly limited clobetasol-induced atrophy and was well tolerated. Altogether, these findings identify MR as a factor regulating epidermal homeostasis and suggest that topical MR blockade could limit glucocorticoid-induced epidermal atrophy.

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Year:  2015        PMID: 25668238     DOI: 10.1038/jid.2015.44

Source DB:  PubMed          Journal:  J Invest Dermatol        ISSN: 0022-202X            Impact factor:   8.551


  47 in total

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4.  Targeted skin overexpression of the mineralocorticoid receptor in mice causes epidermal atrophy, premature skin barrier formation, eye abnormalities, and alopecia.

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  14 in total

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2.  Spironolactone Depletes the XPB Protein and Inhibits DNA Damage Responses in UVB-Irradiated Human Skin.

Authors:  Michael G Kemp; Smita Krishnamurthy; Michael N Kent; David L Schumacher; Priyanka Sharma; Katherine J D A Excoffon; Jeffrey B Travers
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3.  Effects of Intermittent Treatment with Topical Corticosteroids and Calcineurin Inhibitors on Epidermal and Dermal Thickness Using Optical Coherence Tomography and Ultrasound.

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4.  The significance of CYP11A1 expression in skin physiology and pathology.

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5.  Ginsenoside Rg1 attenuates ultraviolet B-induced glucocortisides resistance in keratinocytes via Nrf2/HDAC2 signalling.

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6.  Cortisol Homeostasis in the Epidermis is Influenced by Topical Corticosteroids in Patients with Atopic Dermatitis.

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7.  Epidermal glucocorticoid and mineralocorticoid receptors act cooperatively to regulate epidermal development and counteract skin inflammation.

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9.  Primary aldosteronism patients show skin alterations and abnormal activation of glucocorticoid receptor in keratinocytes.

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Review 10.  Roles of the Glucocorticoid and Mineralocorticoid Receptors in Skin Pathophysiology.

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