The Human Skin Barrier Is Organized as Stacked Bilayers of Fully Extended Ceramides with Cholesterol Molecules Associated with the Ceramide Sphingoid Moiety

The skin barrier is fundamental to terrestrial life and its evolution; it upholds homeostasis and protects against the environment. Skin barrier capacity is controlled by lipids that fill the extracellular space of the skin's surface layer—the stratum corneum. Here we report on the determinatio...

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Published inJournal of investigative dermatology Vol. 132; no. 9; pp. 2215 - 2225
Main Authors Iwai, Ichiro, Han, HongMei, Hollander, Lianne den, Svensson, Stina, Öfverstedt, Lars-Göran, Anwar, Jamshed, Brewer, Jonathan, Bloksgaard, Maria, Laloeuf, Aurelie, Nosek, Daniel, Masich, Sergej, Bagatolli, Luis A., Skoglund, Ulf, Norlén, Lars
Format Journal Article
LanguageEnglish
Published New York, NY Elsevier Inc 01.09.2012
Nature Publishing Group
Elsevier Limited
Subjects
Adult
Biological and medical sciences
Ceramides - chemistry
Cholesterol - chemistry
Dermatologi och venereologi
Dermatology
Dermatology and Venereal Diseases
Humans
Lipid Bilayers - chemistry
Male
Medical sciences
Medicin och hälsovetenskap
Middle Aged
Permeability
Skin - chemistry
Skin - ultrastructure
Sphingolipids - chemistry
Human
Sphingolipid
Ceramide
Skin
Dermatology
Cholesterol
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Summary:The skin barrier is fundamental to terrestrial life and its evolution; it upholds homeostasis and protects against the environment. Skin barrier capacity is controlled by lipids that fill the extracellular space of the skin's surface layer—the stratum corneum. Here we report on the determination of the molecular organization of the skin's lipid matrix in situ, in its near-native state, using a methodological approach combining very high magnification cryo-electron microscopy (EM) of vitreous skin section defocus series, molecular modeling, and EM simulation. The lipids are organized in an arrangement not previously described in a biological system—stacked bilayers of fully extended ceramides (CERs) with cholesterol molecules associated with the CER sphingoid moiety. This arrangement rationalizes the skin's low permeability toward water and toward hydrophilic and lipophilic substances, as well as the skin barrier's robustness toward hydration and dehydration, environmental temperature and pressure changes, stretching, compression, bending, and shearing.
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ISSN:0022-202X
1523-1747
1523-1747
DOI:10.1038/jid.2012.43