Abstract
The stratum corneum (SC), the top layer of skin, dictates the rate of both water loss through the skin and absorption of exogenous molecules into the body. The crystalline organization of the lipids in the SC is believed to be a key feature associated with the very limited permeability of the skin. In this work, we characterized the organization of SC lipid models that include, as in native SC, cholesterol, a series of FFAs (saturated with C16-C24 chains), as well as a ceramide bearing an oleate chain-linked to a very long saturated acyl chain [N-melissoyl-oleoyloxy hexacosanoyl-D-erythro-sphingosine (Cer EOS)]. The latter is reported to be essential for the native SC lipid organization. Our 2H-NMR, infrared, and Raman spectroscopy data reveal that Cer EOS leads to the formation of highly disordered liquid domains in a solid/crystalline matrix. The lipid organization imposes steric constraint on Cer EOS oleate chains in such a way that these hydrocarbon nanodroplets remain in the liquid state down to −30°C. These findings modify the structural description of the SC substantially and propose a novel role of Cer EOS, as this lipid is a strong modulator of SC solid/liquid balance.
Highlights
The stratum corneum (SC), the top layer of skin, dictates the rate of both water loss through the skin and absorption of exogenous molecules into the body
The band position was very similar to those obtained for FFA24-d47 and Cer NS-d47 molecules at 70°C. These results indicated that the oleate chain of Cer N-melissoyl-oleoyloxy hexacosanoyl-Derythro-sphingosine (EOS) was highly disordered, even at low temperatures
The present work reveals a novel feature of SC lipid organization: this lipid structure is formed by solid lipids in which highly disordered liquid domains formed by the oleate chain of CerEOS are embedded
Summary
The stratum corneum (SC), the top layer of skin, dictates the rate of both water loss through the skin and absorption of exogenous molecules into the body. We characterized the organization of SC lipid models that include, as in native SC, cholesterol, a series of FFAs (saturated with C16-C24 chains), as well as a ceramide bearing an oleate chain-linked to a very long saturated acyl chain [N-melissoyl-oleoyloxy hexacosanoyl-Derythro-sphingosine (Cer EOS)]. The latter is reported to be essential for the native SC lipid organization. Skin becomes 20–50 times more permeable when the lipid fraction is extracted with an organic solvent [1] At this point, the origin of skin impermeability is mainly associated with the presence of lipid crystalline phases. Ceramide EOS seems to play a crucial role in the
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