Functional Interplay between IL-9 and Peptide YY Contributes to Chronic Skin Inflammation

Abstract

Complex interactions between keratinocytes and various cell types, such as inflammatory cells and stromalcells, contribute to the pathogenesis of chronic inflammatory skin lesions. In proinflammatory cytokine‒mediated disease settings, IL-9 plays a pathological role in inflammatory dermatitis. However, IL-9‒related mechanisms remain incompletely understood. In this study, we established tamoxifen-induced keratinocyte-specific IL-9RA-deficient mice (K14CRE/ERTIl9raΔ/Δ mice) to examine the role of IL-9 in multicellular interactions under chronic skin inflammatory conditions. Studies using an imiquimod-induced psoriasis-like model showed that K14CRE/ERTIl9raΔ/Δ mice exhibited a significantly reduced severity of dermatitis and mast cell infiltration compared with control K14WTIl9rafl/fl mice. Transcriptome analyses of psoriasis-like lesions showed thatthelevel of peptide Y-Y (Pyy), a member of the neuropeptide Y family, was markedly downregulated in K14CRE/ERTIl9raΔ/Δ epidermis. Pyy blockade suppressed epidermal thickening and mast cell numbers in imiquimod-treated wild-type mice. Together with invitro studies indicating that Pyy induced IL-9 production and chemotactic activity in bone marrow‒derived mast cells, these findings suggest that Pyy-mediated interplay between keratinocytes and mast cells contributes to psoriasiform inflammation. Further investigation focusing on the IL-9‒Pyy axis may provide valuable information for the development of new treatment modalities for inflammatory dermatitis.