Abstract

Abstract Contact dermatitis (CD) is a chronic inflammatory disease caused by type-1 immunity. Skin exposure to haptens stimulates the secretion of Substance-P (SP) and initiates the neurogenic inflammation that intensifies CD. Neurokinin-1 receptor (NK1R)-signaling by SP or hemokinin-1 (HK1) amplifies immune responses. Nonetheless, the role and therapeutic implications of the NK1R-SP-HK1 axis in CD remain unclear. We show that SP, HK-1 and the NK1R are required for CD. Specific deletion of the NK1R in keratinocytes decreased the rapid release of IL-1β and IL-6 at the site of contact sensitization which impaired the innate and adaptive immunity of CD whereas deletion of the receptor in dendritic cells (DC) prevented only the adaptive immune response of the disease. Therefore, we hypothesized that blockade of NK1R during sensitization would be a feasible immunosuppressive intervention to treat CD. We developed a system of microneedle arrays (MNA) that co-deliver hapten and NK1R antagonists into mouse skin. This immunosuppressive approach resulted in decreased skin migration and lymph node homing of stimulatory dermal DC transporting the hapten from the sensitization site. Conversely, the immunosuppressive MNA did not affect the migration and lymph node homing of epidermal Langerhans cells (LC), and depletion of LC resulted in loss of the NK1R antagonist beneficial effects. In addition, immunosuppressive MNA caused deletion of hapten-specific T cells and increased T-regulatory cells, which prevented CD-onset and -relapses in a hapten-specific manner. Our findings indicate that immune-regulation by engineering localized skin neuroimmune-networks can be used to treat cutaneous diseases that, like CD are caused by type-1 immunity.

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