Immunopathologic Mechanisms Involved in Inflammatory Skin Diseases
Katz, Stephen I.   
Clinical Sciences, United States

This laboratory studies the role of the skin as an immunological organ. We study the mechanisms involved in delayed type hypersensitivity reactions in the skin and use this knowledge to better understand lymphocyte- mediated skin diseases. In the past year we have focused our studies on 1) the immune elements of the epidermis and dermis and on their interactions with the rest of the immune system, 2) the identification and characterization of mast cell precursors in fetal skin, and 3) the development of a model that may provide insight into mechanisms involved in autoimmune reactions in skin and in the maintainance of tolerance to epidermally-derived proteins. We have attempted to delineate whether and how CD4+ T cell responses could be skewed toward Th1 or Th2 rich reactions. We found that a relative skewing of a T cell response can occur as a consequence of immunization with various types of adjuvants. We also continue to try to skew these inflammatory responses using gene transfer into bone marrow derived dendritic cells. In characterizing the infiltrates of day 16 fetal skin we found that many of the cells represent immature mast cells. Under certain culture conditions these cells could proliferate and become mature mast cells. This novel culture method has enabled us to follow and characterize mast cells throughout development. The studies were facilitated by finding that the mAb DX5 bound not only to NK cells but also to fetal skin mast cells as well as to connective tissue mast cells. These cells were distinct from bone marrow derived mast cells. The third project that we are pursuing involves the development of a model of skin autoimmunity and tolerance induction. We are crossing mice that have a TCR transgene that recognizes ovalbumin in association with H-2b with mice that have been generated with a K14-ovalbumin encoding gene. These mice have the TCR for ovalbumin and express ovalbumin in the epidermis but have no apparent disease. Preliminary studies indicate that these mice are depleted of CD8 cells that have the TCR transcripts. This finding is being pursued at this time.