The epidermal expression of IL-1 in psoriasis is clearly altered, but data are still incomplete and poorly understood. To thoroughly study the IL-1 system in psoriasis, we semiquantitatively analyzed the expression of all currently characterized IL-1 isoforms and their receptors in parallel in both lesional (PP) and nonlesional psoriatic (PN) epidermis. Immunostaining of skin sections showed that IL-1alpha, located in the basal keratinocytes of normal control (NN) and PN epidermis, was significantly decreased to negligible levels in PP epidermis. IL-1 receptor antagonist (IL-1ra) and IL-1R type II (IL-1RII) were both significantly overexpressed in mutually exclusive compartments of PP epidermis, the suprabasal and basal compartment, respectively. A significant inverse correlation was found between the expressions of IL-1alpha and these two IL-1 antagonists, which may be inherent to the accelerated terminal differentiation of the psoriatic keratinocyte. In situ hybridization of IL-1(R) mRNAs confirmed the staining results. Levels of IL-1ra mRNA, however, were not increased in PP epidermis, suggesting that the overexpression of IL-1ra protein may be explained at the level of translation. The more sensitive PCR demonstrated a clearly increased expression of IL-1beta mRNA in PP epidermal cells (EC), which may be related to the inflammatory response in psoriasis. IL-1RI mRNA was clearly present in both PP and NN EC. The mRNA levels of the secreted IL-1ra isoform, but not intracellular IL-1raI and II, and IL-1RII were elevated in PP EC and paralleled those of IL-1beta. In summary, this study provides a defined phenotype of the complete epidermal IL-1 system in psoriasis; it shows that the expressions of IL-1(R) isoforms are coordinately altered, resulting in a predominance of IL-1 antagonists, which may represent a negative feedback response to IL-1 agonists, leading to a decreased IL-1 responsiveness.