Age-related and seasonal changes in covalently bound ceramide content in forearm stratum corneum of Japanese subjects: determination of molecular species of ceramides

The stratum corneum (SC) consists of corneocytes surrounded by a neutral lipid-enriched intercellular matrix. Ceramides represent approximately 50% of intercellular lipids, and play important roles in retaining epidermal water. The SC also contains covalently bound ceramides, which are thought to pl...

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Published inArchives of Dermatological Research Vol. 310; no. 9; pp. 729 - 735
Main Authors Fujiwara, Anna, Morifuji, Masashi, Kitade, Masami, Kawahata, Keiko, Fukasawa, Tomoyuki, Yamaji, Taketo, Itoh, Hiroyuki, Kawashima, Makoto
Format Journal Article
LanguageEnglish
Published Berlin/Heidelberg Springer Berlin Heidelberg 01.11.2018
Springer Nature B.V
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Summary:The stratum corneum (SC) consists of corneocytes surrounded by a neutral lipid-enriched intercellular matrix. Ceramides represent approximately 50% of intercellular lipids, and play important roles in retaining epidermal water. The SC also contains covalently bound ceramides, which are thought to play a crucial role in the formation of lamellar structures, and are involved in maintaining skin barrier function. A previous report showed that levels of free ceramides in human SC changed with the seasons and age, although whether the content of different species of covalently bound ceramides also underwent such temporal changes was unclear. Here, SC samples were taken from 99 healthy individuals of different ages (24–64 years) and during different seasons. The content of different molecular species of covalently bound ceramides in the samples was quantified using HPLC–MS/MS. The levels of total covalently bound ceramides (Total-Cers) significantly decreased approximately 50% in autumn and winter, compared with that of spring and summer. The levels of covalently bound ceramides containing saturated fatty acids (SFA-Cers) in the spring and summer were approximately 2.3-fold higher than that seen in autumn and winter, whereas the level of covalently bound ceramides containing unsaturated fatty acids (USFA-Cers) in spring and summer were approximately 1.6-fold higher than that in autumn and winter. Furthermore, the ratio between SFA-Cers and USFA-Cers was significantly lower in spring and summer than in autumn and winter. The levels of SFA-Cers, but not USFA-Cers, were significantly lower in individuals ≥ 50 years old compared to those who are 30- and 40-years old in the spring. Our study showed for the first time that, similar to free ceramides, the level of covalently bound ceramides changed with the seasons. However, age-related changes in covalently bound ceramide content were limited in that only the amount of SFA-Cers in the spring was lower in older individuals.
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ISSN:0340-3696
1432-069X
DOI:10.1007/s00403-018-1859-z