Peroxisomal Fatty Acid Oxidation and Glycolysis Are Triggered in Mouse Models of Lesional Atopic Dermatitis

Alterations of the lipid profile of the stratum corneum have an important role in the pathogenesis of atopic dermatitis (AD) because they contribute to epidermal barrier impairment. However, they have not previously been envisioned as a cellular response to altered metabolic requirements in AD epide...

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Autores principales: Pavel, Petra, Leman, Géraldine, Hermann, Martin, Ploner, Christian, Eichmann, Thomas O., Minzaghi, Deborah, Radner, Franz P.W., Del Frari, Barbara, Gruber, Robert, Dubrac, Sandrine
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2021
Materias:
Original Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8659757/
https://www.ncbi.nlm.nih.gov/pubmed/34909730
http://dx.doi.org/10.1016/j.xjidi.2021.100033
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author Pavel, Petra
Leman, Géraldine
Hermann, Martin
Ploner, Christian
Eichmann, Thomas O.
Minzaghi, Deborah
Radner, Franz P.W.
Del Frari, Barbara
Gruber, Robert
Dubrac, Sandrine
author_facet Pavel, Petra
Leman, Géraldine
Hermann, Martin
Ploner, Christian
Eichmann, Thomas O.
Minzaghi, Deborah
Radner, Franz P.W.
Del Frari, Barbara
Gruber, Robert
Dubrac, Sandrine
author_sort Pavel, Petra
collection PubMed
description Alterations of the lipid profile of the stratum corneum have an important role in the pathogenesis of atopic dermatitis (AD) because they contribute to epidermal barrier impairment. However, they have not previously been envisioned as a cellular response to altered metabolic requirements in AD epidermis. In this study, we report that the lipid composition in the epidermis of flaky tail, that is, ft/ft mice mimics that of human lesional AD (ADL) epidermis, both showing a shift toward shorter lipid species. The amounts of C(24) and C(26) free fatty acids and C(24) and C(26) ceramides—oxidized exclusively in peroxisomes—were reduced in the epidermis of ft/ft mice despite increased lipid synthesis, similar to that seen in human ADL edpidermis. Increased ACOX1 protein and activity in granular keratinocytes of ft/ft epidermis, altered lipid profile in human epidermal equivalents overexpressing ACOX1, and increased ACOX1 immunostaining in skin biopsies from patients with ADL suggest that peroxisomal β-oxidation significantly contributes to lipid signature in ADL epidermis. Moreover, we show that increased anaerobic glycolysis in ft/ft mouse epidermis is essential for keratinocyte proliferation and adenosine triphosphate synthesis but does not contribute to local inflammation. Thus, this work evidenced a metabolic shift toward enhanced peroxisomal β-oxidation and anaerobic glycolysis in ADL epidermis.
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spelling pubmed-86597572021-12-13 Peroxisomal Fatty Acid Oxidation and Glycolysis Are Triggered in Mouse Models of Lesional Atopic Dermatitis Pavel, Petra Leman, Géraldine Hermann, Martin Ploner, Christian Eichmann, Thomas O. Minzaghi, Deborah Radner, Franz P.W. Del Frari, Barbara Gruber, Robert Dubrac, Sandrine JID Innov Original Article Alterations of the lipid profile of the stratum corneum have an important role in the pathogenesis of atopic dermatitis (AD) because they contribute to epidermal barrier impairment. However, they have not previously been envisioned as a cellular response to altered metabolic requirements in AD epidermis. In this study, we report that the lipid composition in the epidermis of flaky tail, that is, ft/ft mice mimics that of human lesional AD (ADL) epidermis, both showing a shift toward shorter lipid species. The amounts of C(24) and C(26) free fatty acids and C(24) and C(26) ceramides—oxidized exclusively in peroxisomes—were reduced in the epidermis of ft/ft mice despite increased lipid synthesis, similar to that seen in human ADL edpidermis. Increased ACOX1 protein and activity in granular keratinocytes of ft/ft epidermis, altered lipid profile in human epidermal equivalents overexpressing ACOX1, and increased ACOX1 immunostaining in skin biopsies from patients with ADL suggest that peroxisomal β-oxidation significantly contributes to lipid signature in ADL epidermis. Moreover, we show that increased anaerobic glycolysis in ft/ft mouse epidermis is essential for keratinocyte proliferation and adenosine triphosphate synthesis but does not contribute to local inflammation. Thus, this work evidenced a metabolic shift toward enhanced peroxisomal β-oxidation and anaerobic glycolysis in ADL epidermis. Elsevier 2021-06-15 /pmc/articles/PMC8659757/ /pubmed/34909730 http://dx.doi.org/10.1016/j.xjidi.2021.100033 Text en © 2021 The Authors https://creativecommons.org/licenses/by/4.0/This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Original Article
Pavel, Petra
Leman, Géraldine
Hermann, Martin
Ploner, Christian
Eichmann, Thomas O.
Minzaghi, Deborah
Radner, Franz P.W.
Del Frari, Barbara
Gruber, Robert
Dubrac, Sandrine
Peroxisomal Fatty Acid Oxidation and Glycolysis Are Triggered in Mouse Models of Lesional Atopic Dermatitis
title Peroxisomal Fatty Acid Oxidation and Glycolysis Are Triggered in Mouse Models of Lesional Atopic Dermatitis
title_full Peroxisomal Fatty Acid Oxidation and Glycolysis Are Triggered in Mouse Models of Lesional Atopic Dermatitis
title_fullStr Peroxisomal Fatty Acid Oxidation and Glycolysis Are Triggered in Mouse Models of Lesional Atopic Dermatitis
title_full_unstemmed Peroxisomal Fatty Acid Oxidation and Glycolysis Are Triggered in Mouse Models of Lesional Atopic Dermatitis
title_short Peroxisomal Fatty Acid Oxidation and Glycolysis Are Triggered in Mouse Models of Lesional Atopic Dermatitis
title_sort peroxisomal fatty acid oxidation and glycolysis are triggered in mouse models of lesional atopic dermatitis
topic Original Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8659757/
https://www.ncbi.nlm.nih.gov/pubmed/34909730
http://dx.doi.org/10.1016/j.xjidi.2021.100033
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