Comparative profiling and comprehensive quantification of stratum corneum ceramides in humans and mice by LC-MS/MS.

Ceramides are the predominant lipids in the stratum corneum (SC) and are crucial components for normal skin barrier function. Although the composition of various ceramide classes in the human SC has been reported, that in mice is still unknown, despite mice being widely used as animal models of skin barrier function. Here, we performed LC-MS/MS analyses using recently available ceramide class standards to measure 25 classes of free ceramides and 5 classes of protein-bound ceramides from the human and mouse SC. Phytosphingosine-type ceramides (P-ceramides) and 6-hydroxy sphingosine-type ceramides (H-ceramides), which both contain an additional hydroxyl group, were abundant in human SC (35% and 45% of total ceramides, respectively). In contrast, in mice, P-ceramides and H-ceramides were present at ~1% and undetectable levels, respectively, and sphingosine-type ceramides accounted for ~90%. In humans, ceramides containing alpha-hydroxy FA were abundant, whereas ceramides containing beta-hydroxy FA (B-ceramides) or omega-hydroxy FA were abundant in mice. The hydroxylated beta-carbon in B-ceramides was in the (R)-configuration. Genetic knockout of beta-hydroxy acyl-CoA dehydratases in HAP1 cells increased B-ceramide levels, suggesting that beta-hydroxy acyl-CoA, an FA-elongation cycle intermediate in the endoplasmic reticulum, is a substrate for B-ceramide synthesis. We anticipate that our methods and findings will help to elucidate the role of each ceramide class in skin barrier formation and in the pathogenesis of skin disorders.