Psoriasis is one of the most common chronic inflammatory diseases that is characterized by well-defined erythematous plaques, with typical histopathological findings of lymphocytic infiltration and epidermal hyperplasia. Topical treatments of psoriasis are either associated with limited response or with side effects. Up to date, topicals targeting neuroimmune axis in psoriasis or psoriasiform dermatitis have not been explored. Here, we investigated whether percutaneous delivery of capsaicin could attenuate the pathological change of psoriasiform inflammation. Imiquimod-induced psoriasis-like murine model was used to evaluate therapeutic effects from topical application of capsaicin. An additional model of psoriasiform dermatitis induced by direct IL-23 injection was used to identify the level of action from capsaicin in this neuroimmune axis. Cutaneous inflammation was assessed by erythema level and ear thickness change. Key cytokines, infiltrating cells in the skin, and draining lymph node cells were investigated. The results showed that capsaicin administration obstructed the activation of IL-23/IL-17 pathway induced by imiquimod, presenting with significantly reduced psoriasiform dermatitis both in gross appearance and microscopic features. Tissue gene expression of psoriatic core cytokines induced by imiquimod (including IL-23, IL-17A, IL-22, TNF-α, and IL-6) were greatly decreased by capsaicin application. This protective effect from capsaicin could be hampered by direct intradermal injection of IL-23.

Epicutaneous delivery of capsaicin on imiquimod-treated murine skin could significantly decrease expression of multiple inflammatory cytokines and the severity of prototypic change of psoriasiform inflammation. The beneficial effect imposed by capsaicin reinforces the neuroimmune contribution towards psoriasiform inflammation and provides a potential non-steroidal therapeutic alternative for topical treatment of psoriasiform dermatitis.