Abnormal Barrier Function in the Pathogenesis of Ichthyosis: Therapeutic Implications for Lipid Metabolic Disorders

Overview

Journal Clin Dermatol

Publisher Elsevier

Specialty Dermatology

Date 2012 Apr 18

PMID 22507046

Citations 15

Authors

Peter M Elias

Mary L Williams

Kenneth R Feingold

Affiliations

Soon will be listed here.

Abstract

Ichthyoses, including inherited disorders of lipid metabolism, display a permeability barrier abnormality in which the severity of the clinical phenotype parallels the prominence of the barrier defect. The pathogenesis of the cutaneous phenotype represents the consequences of the mutation for epidermal function, coupled with a "best attempt" by affected epidermis to generate a competent barrier in a terrestrial environment. A compromised barrier in normal epidermis triggers a vigorous set of metabolic responses that rapidly normalizes function, but ichthyotic epidermis, which is inherently compromised, only partially succeeds in this effort. Unraveling mechanisms that account for barrier dysfunction in the ichthyoses has identified multiple, subcellular, and biochemical processes that contribute to the clinical phenotype. Current treatment of the ichthyoses remains largely symptomatic: directed toward reducing scale or corrective gene therapy. Reducing scale is often minimally effective. Gene therapy is impeded by multiple pitfalls, including difficulties in transcutaneous drug delivery, high costs, and discomfort of injections. We have begun to use information about disease pathogenesis to identify novel, pathogenesis-based therapeutic strategies for the ichthyoses. The clinical phenotype often reflects not only a deficiency of pathway end product due to reduced-function mutations in key synthetic enzymes but often also accumulation of proximal, potentially toxic metabolites. As a result, depending upon the identified pathomechanism(s) for each disorder, the accompanying ichthyosis can be treated by topical provision of pathway product (eg, cholesterol), with or without a proximal enzyme inhibitor (eg, simvastatin), to block metabolite production. Among the disorders of distal cholesterol metabolism, the cutaneous phenotype in Congenital Hemidysplasia with Ichthyosiform Erythroderma and Limb Defects (CHILD syndrome) and X-linked ichthyosis reflect metabolite accumulation and deficiency of pathway product (ie, cholesterol). We validated this therapeutic approach in two CHILD syndrome patients who failed to improve with topical cholesterol alone, but cleared with dual treatment with cholesterol plus lovastatin. In theory, the ichthyoses in other inherited lipid metabolic disorders could be treated analogously. This pathogenesis (pathway)-driven approach possesses several inherent advantages: (1) it is mechanism-specific for each disorder; (2) it is inherently safe, because natural lipids and/or approved drugs often are utilized; and (3) it should be inexpensive, and therefore it could be used widely in the developing world.

Citing Articles

Case Report: Dental treatment under general anesthesia and dental management of a child with congenital ichthyosis.

Hino R, Chiba Y, Maruya Y, Tadano M, Otake S, Hoshikawa S Front Dent Med. 2025; 5:1481658.

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Primary Prevention of Canine Atopic Dermatitis: Breaking the Cycle-A Narrative Review.

Fernandes B, Alves S, Schmidt V, Bizarro A, Pinto M, Pereira H Vet Sci. 2023; 10(11).

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Untargeted Metabolomic Analysis of Sjögren-Larsson Syndrome Reveals a Distinctive Pattern of Multiple Disrupted Biochemical Pathways.

Dai H, Qiu F, Jackson K, Fruttiger M, Rizzo W Metabolites. 2023; 13(6).

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Ovol1/2 loss-induced epidermal defects elicit skin immune activation and alter global metabolism.

Dragan M, Chen Z, Li Y, Le J, Sun P, Haensel D EMBO Rep. 2023; 24(7):e56214.

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Pathogenesis-based therapy: Cutaneous abnormalities of CHILD syndrome successfully treated with topical simvastatin monotherapy.

Bajawi S, Jafarri S, Buraik M, Al Attas K, Hannani H JAAD Case Rep. 2018; 4(3):232-234.

PMID: 29687057 PMC: 5909487. DOI: 10.1016/j.jdcr.2017.11.019.

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