Epidermal T lymphocytes--ontogeny, features and function.

Abstract

The murine epidermis contains a network of Thy-1+ dendritic T cells. These T cells arise from early fetal stem cells and differentiate in the fetal or neonatal thymic or epidermal microenvironment. Their lack of expression of CD5, CD4, and CD8 antigens, as well as their virtually exclusive expression of a CD3/TCR Vγ3/Vδ1 complex, distinguishes DETC from the bulk of peripheral T cells. The early appearance of TCR γ/δ cells in ontogeny, the lack of expression of CD4 and CD8 antigens, and the relative paucity of γ and δ genes compared to α and β genes, indicates that γ/δ T cells provide a phylogenetically primitive, broadly acting, and poorly discriminating immunologic defense system. In this system, recognition of antigen is not restricted by classical MHC class I and class II antigens, but may occur in the context of relatively nonpolymorphic restricting elements, such as Qa [82], Tla [10] or CD1 [62]. This rather primitive immune system provided by DETC may serve to protect the epidermal integrity. Upon recognition of self proteins released following epidermal injury, DETC may become activated and assist in the removal of altered cells. In this limited fashion, the epidermis may be an independently competent immunologic system. However, the fact that the TCR repertoire of DETC does not allow for the recognition of antigenic peptides in conjunction with MHC moieties excludes the possibility that the diverse immune response elicited by topical contact with foreign antigens is mediated by DETC. Whether this statement also applies to the human epidermis cannot be answered at the present time. Let us consider a few plausible concepts concerning derivation and function of human epidermal T cells. First, one could postulate that in early ontogeny, the human epidermis harbors a small, indigenous population of naive T lymphocytes with monomorphic TCR representing an analogue to murine DETC. These cells could function in a manner similar to that proposed for murine DETC. They may even persist into adult life, so far undetected because they would be outnumbered by immigrating polymorphic T cells from peripheral lymphoid organs. Second, it is conceivable that the human epidermis contains an indigenous population of naive T lymphocytes with a polymorphic TCR repertoire representing a phylogenetically advanced analogue to murine DETC. Although equipped with TCR allowing antigen recognition in the context of MHC, their density is probably too low to make them an effective host defense system against the multitude of environmental antigens presented by Langerhans cells. One could rather assume that they proliferate upon recognition of self antigens occurring in a perturbed epidermis. The autoreactivity of these cells may not necessarily be beneficial. Finally, the fact that the entry of circulating HECA-452+ memory cells into the skin is dependent upon the injury-induced ELAM-1 expression by endothelial cells of the dermal microvasculature could indicate that all T cells present in adult human epidermis are recruited upon alteration of the skin. Following this reasoning, the human epidermis should not be regarded as a complete, self-sustaining immunologic organ but rather as a homing site for and a target of lymphocytes antigenically sensitized in peripheral lymphoid organs.