The objective of these studies is to identify and characterize a specialized set of epidermal and splenic ultraviolet radiation (UVR)-resistant, I-J bearing, antigen-presenting cells necessary for the generation of suppressor T cells in mice. The discovery of these cells has important implications for the understanding of immunity in the skin and the local effects of UVR exposure on antigen processing. Furthermore, these cells may play a role in the development of UVR-induced skin cancers. The activity of these cells in the generation of suppressor T cells specific for UVR-induced tumors in animals chronically exposed to UVR and also in a hapten specific system will be defined. The sensitivity of the generation of these tumor specific suppressor cells to agents such as anti-I-J monoclonal antibodies, cyclophosphamide, psoralen plus UVA therapy (PUVA), and various chemotherapeutic agents will be examined in functional assays. Detailed characterization of the phenotype of these I-J+ antigen-presenting cells (APC) involved in the generation of supressor cell activity will be performed. Such characerization will include detailed Ia phenotyping, the search for Fc receptors, theta antigen, surface immunoglobulin, and C3 receptors of these special APC. The ability of these cells to phagocytose ferritin, the sensitivity of these cells to UVR, and a determination of the cells' buoyant density will also be evaluated. These phenotypic and functional parameters can then be compared to other well-characterized types of APC. Other studies will be undertaken to determine if these cells originate in the bone marrow and to what anatomic sites they migrate. In particular, we will determine if special bone marrow derived APC involved in suppressor cell activation migrate to the skin where they play a critical role in modulating inflammatory responses and also might contribute to skin neoplasia. Finally, because interleukin 1 (IL-1), an important signal in helper T cell activation, has been demonstrated to partially correct UVR-inducted defects in 1-A bearing APC function in vitro and in vivo, we will attempt to modulate the response of the UVR treated host to UVR-induced regressor tumors in vivo by administration of IL-1 and other lymphokines.

Project Start
1985-04-01
Project End
1988-03-31
Budget Start
1985-04-01
Budget End
1986-03-31
Support Year
1
Fiscal Year
1985
Total Cost
Indirect Cost
Name
Massachusetts General Hospital
Department
Type
DUNS #
City
Boston
State
MA
Country
United States
Zip Code
Grabbe, S; Granstein, R D (1993) Modulation of antigen-presenting cell function as a potential regulatory mechanism in tumor-host immune reactions. In Vivo 7:265-9
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Granstein, R D; Deak, M R; Jacques, S L et al. (1989) The systemic administration of gamma interferon inhibits collagen synthesis and acute inflammation in a murine skin wounding model. J Invest Dermatol 93:18-27
Sharpe, R J; Margolis, R J; Askari, M et al. (1988) Induction of dermal and subcutaneous inflammation by recombinant cachectin/tumor necrosis factor (TNF alpha) in the mouse. J Invest Dermatol 91:353-7
Latina, M; Flotte, T; Crean, E et al. (1988) Immunohistochemical staining of the human anterior segment. Evidence that resident cells play a role in immunologic responses. Arch Ophthalmol 106:95-9
Granstein, R D; Murphy, G F; Margolis, R J et al. (1987) Gamma-interferon inhibits collagen synthesis in vivo in the mouse. J Clin Invest 79:1254-8
Granstein, R D; Sauder, D N (1987) Whole-body exposure to ultraviolet radiation results in increased serum interleukin-1 activity in humans. Lymphokine Res 6:187-93
Granstein, R D; Askari, M; Whitaker, D et al. (1987) Epidermal cells in activation of suppressor lymphocytes: further characterization. J Immunol 138:4055-62

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