Abstract

Abstract Dendritic cells (DC) that primarily reside in tissues carry antigens to local lymphoid organs to induce immunity or tolerance. We posit that a defect in the migration of tissue-DCs may predispose to autoimmunity in a tissue-specific manner; and an improved migration of tissue-DC may ameliorate disease in the respective organ. Here, we demonstrate that treatment of lupus dermatitis-prone MRL-lpr and MRL+/+ mice that exhibit a profound defect in the migration of skin-DC with a glycolipid αGalCer reduced the severity of dermatitis and enhanced the migration of skin-DCs, more so in Langerhans cells (LC; p=0.004) than in Lang+dDC (p=0.03). This effect of αGalCer was independent of its effect on iNKT cells, but required the presence of CD1d. Furthermore, αGalCer treatment enhanced the numbers of epidermis-resident γδ T cells in MRL-lpr mice that had reduced numbers of γδ T cells as compared to MHC-matched control mice. Finally, gd T cell-deficient mice had reduced skin-DC migration, and isolated skin-gd T cells directly promoted the migration of LC via CD40L-CD40 interaction. These data elucidate a new mechanism of regulation of skin-DC homeostasis whereby skin-gd T cells normally facilitate LC migration from skin to cutaneous lymph node. Such ‘local’ control of migratory behavior of tissue-DC can regulate immune response in a tissue-specific manner. This mechanism of skin-DC homeostasis is disrupted in lupus dermatitis, but can be repaired by treatment with a glycolipid.

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