Psoriasis is a recurrent inflammatory skin disease, affecting approximately 2% of the population. Previous studies have demonstrated that psoriatic dermal mesenchymal stem cells (DMSC) stimulated keratinocyte (KC) proliferation and that psoriasis exhibited missense SPRED1 mutations. To further investigate the molecular mechanism by which psoriatic DMSC stimulate KC proliferation, and the role of missense SPRED1 mutations in psoriasis, we assessed expression levels of miRNA, and both mRNA and protein of SPRED1 in normal human epidermal keratinocyte cells (NHEK) cocultured with either psoriatic or control DMSC. Expression levels of miRNA and mRNA were determined by RNA sequencing. Expression levels of spred1 protein were assessed using western blot analysis. Moreover, the variation in SPRED1 was also examined by whole-genome sequencing in 665 psoriatic patients, and verified by Sanger sequencing. Our results showed that coculture of NHEK with psoriatic DMSC induced 32 differentially expressed miRNA, in which expression levels of miR-1 increased approximately 16-fold over control DMSC-treated NHEK (P < 0.05). Likewise, expression levels of miR-21-3p increased over twofold (P < 0.05). Moreover, coculture of NHEK with psoriatic DMSC induced marked increase in expression levels of mRNA for MAPK3, CDC25B and CDC25C, while decreasing expression levels of SPRED1 mRNA and protein in comparison with control DMSC treatment (P < 0.05 for all between cocultured with control and psoriatic DMSC). Furthermore, psoriasis displayed non-synonymous mutation of SPRED1 enriched in exon 7: c.A881T:p.Y294F (chr15:38351210). These results suggest that dysregulation and mutations of SPRED1 may participate in the pathogenesis of psoriasis, including epidermal hyperproliferation.
Keywords: SPRED1; miRNA; mitogen-activated protein kinase pathway; mutation; psoriasis.
© 2020 Japanese Dermatological Association.