Abstract
We characterize functional roles of a newly discovered chemical, sphingosylphosphorylcholine (SPC), in the epidermis by elucidating the biological effect of SPC on human keratinocytes in culture. The intracellular calcium level of human keratinocytes was increased by incubation with SPC, but not with sphingosine (SS) or sphingomyelin (SM). The addition of SPC, sphingosine 1-phosphate (SSP), or SS to human keratinocytes at 10 μM concentrations also significantly suppressed DNA synthesis, and SPC, but not SSP, or SS increased the activities of membrane-bound and soluble transglutaminases (TGases). Reverse transcription polymerase chain reaction (RT-PCR) of TGase transcripts revealed that SPC treatment at 10 μM concentrations increased the expression of TGase 1 mRNA. The increased activity of soluble TGase was accompanied by the concomitant activation of cathepsin D as revealed by the increased ratio of mature active form to inactive intermediate form of the protease. Pretreatment of human keratinocytes with pepstatin, a protease inhibitor, blocked the increase in soluble TGase activity induced by treatment with SPC. Consistently, SPC treatment at 1–10 μM concentrations stimulated the cornified envelope formation.These findings suggest that SPC plays an important role in the altered keratinization process of epidermis in skin diseases with high expression of sphingomyelin deacylase, such as atopic dermatitis.
Highlights
We characterize functional roles of a newly discovered chemical, sphingosylphosphorylcholine (SPC), in the epidermis by elucidating the biological effect of SPC on human keratinocytes in culture
Using digital imaging fluorescence microscopy, we have studied the effect of SPC on [Ca2ϩ]i in human keratinocytes
The potential role of SM deacylase in the pathophysiology of atopic dermatitis (AD) was suggested by its deleterious effects on the function of the stratum corneum as a permeability barrier due to the interruption of ceramide production [2]
Summary
We characterize functional roles of a newly discovered chemical, sphingosylphosphorylcholine (SPC), in the epidermis by elucidating the biological effect of SPC on human keratinocytes in culture. SPC treatment at 1–10 M concentrations stimulated the cornified envelope formation These findings suggest that SPC plays an important role in the altered keratinization process of epidermis in skin diseases with high expression of sphingomyelin deacylase, such as atopic dermatitis.—Higuchi, K., M. SM deacylase hydrolyzes SM to yield sphingosylphosphorylcholine (SPC), rather than ceramides, which are generated by the action of (SMase), and which lead to ceramide deficiency as an etiological factor in AD barrier disrupted and dry skin [2]. Sphingolipids and their metabolites have been implicated in diverse biological functions in various cellular processes [3,4,5].
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