The immune system is a major mechanism of defense against invading pathogens and disease. This important system is regulated by a series of cells and factors which can either augment or inhibit immune responsiveness. This proposal is primarily concerned with the mechanism involved in the down regulation of both cellular and humoral immunity. Over the past several years we demonstrated that at least 3 distinct T lymphocytes and a macrophage population are involved in the process of immune suppression. We plan to fully characterize the mechanisms responsible for immune suppression in a model system involving mice. Studies are to be conducted both in vivo and in vitro to permit generalization of the results.
We aim to determine 1) how these suppressor T lymphocytes are induced, 2) how they acquire their specificity, 3) what controls suppressor cell activation, 4) what molecules convey the regulatory signals, 5) what controls cellular interactions and 6) how suppressor cells and factors interact with their ultimate targets. To answer these questions we will rely on populations of cloned T cells and macrophages especially cloned hybridoma cells with proven biological activity. Over the past few years we have successfully prepared and characterized these hybridomas. Using immunological, genetic, and biochemical techniques we will study these problems at the molecular level. The results may impact broad areas of medicine, since imbalances in immune regulation have been implicated in numerous diseases including cancer.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Unknown (R35)
Project #
5R35CA039790-06
Application #
3479040
Study Section
Special Emphasis Panel (SRC)
Project Start
1985-07-01
Project End
1992-06-30
Budget Start
1990-07-06
Budget End
1991-06-30
Support Year
6
Fiscal Year
1990
Total Cost
Indirect Cost
Name
Harvard University
Department
Type
Schools of Medicine
DUNS #
082359691
City
Boston
State
MA
Country
United States
Zip Code
02115
O'Hara Jr, R M; Byrne, M C; Kuchroo, V K et al. (1995) T cell receptor alpha-chain defines the antigen specificity of antigen-specific suppressor factor but does not impart genetic restriction. J Immunol 154:2075-81
Abromson-Leeman, S; Hayashi, M; Martin, C et al. (1993) T cell responses to myelin basic protein in experimental autoimmune encephalomyelitis-resistant BALB/c mice. J Neuroimmunol 45:89-101
Jayaraman, S; Luo, Y; Dorf, M E (1992) Tolerance induction in T helper (Th1) cells by thymic macrophages. J Immunol 148:2672-81
Kuchroo, V K; Sobel, R A; Laning, J C et al. (1992) Experimental allergic encephalomyelitis mediated by cloned T cells specific for a synthetic peptide of myelin proteolipid protein. Fine specificity and T cell receptor V beta usage. J Immunol 148:3776-82
Kuchroo, V K; Byrne, M C; Atsumi, Y et al. (1991) T-cell receptor alpha chain plays a critical role in antigen-specific suppressor cell function. Proc Natl Acad Sci U S A 88:8700-4
Jayaraman, S; Mensi, N; Webb, D R et al. (1991) Involvement of protein kinase C in competence induction of macrophages to generate T suppressor cells. J Immunol 146:4085-91
Martin, C A; Dorf, M E (1991) Differential regulation of interleukin-6, macrophage inflammatory protein-1, and JE/MCP-1 cytokine expression in macrophage cell lines. Cell Immunol 135:245-58
Ju, S T; Ruddle, N H; Strack, P et al. (1990) Expression of two distinct cytolytic mechanisms among murine CD4 subsets. J Immunol 144:23-31
Abromson-Leeman, S R; Jayaraman, S; Dorf, M E (1990) Characterization of T cell clones from an athymic mouse. J Immunol 144:2451-8
Kuchroo, V K; Steele, J K; O'Hara Jr, R M et al. (1990) Relationships between antigen-specific helper and inducer suppressor T cell hybridomas. J Immunol 145:438-48

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