S Heyl scite author profile

S Heyl

2Publications

7Citation Statements Received

21Citation Statements Given

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Johannes Gutenberg University Mainz

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Contrary Roles of IL‐4 and IL‐12 on IL‐10 Production and Proliferation of Human Tumour Reactive T Cells

et al. 1997

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The cytokine profile of tumour reactive T cells is likely to play a central role in their function. However, little is known about how cytokine patterns of tumour reactive T cells can be regulated. Here, the authors investigated the influence of exogenous regulatory cytokines in addition to interleukin-2 (IL-2) on cytokine patterns and the proliferation of T cells recognizing an autologous sarcoma cell line. In this system, IL-4 and IL-12 showed the most polarizing influences on tumour reactive T cells. Exogenous IL-4 induced a predominant production of IL-4 while decreasing the interferon-g (IFN-g) and IL-10 production by tumour reactive T cells. It also stimulated the growth of tumour reactive CD4 + T cell clones. In contrast, IL-12 substantially increased the production of IL-10 and IFN-g. This was accompanied by a growth inhibition of tumour reactive T cells. The growth of CD4 + tumour reactive T cells was also suppressed by exogenous IL-10. This study shows that cytokine patterns and proliferation tumour reactive T cells can be significantly influenced by exogenous cytokines and confirms the hypothesis of a negative feedback loop of IL-12 by the induction of IL-10 in the context of human tumour reactive T cells.

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Specificities and functions of CD4+ HLA class II-restricted T cell clones against a human sarcoma: evidence for several recognized antigens.

Heike

Schlaak

Schulze‐Bergkamen

et al. 1996

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CD4+ T cells play an important role for tumor immunity in animal tumor models, yet there are few reports about the role of CD4+ HLA class II-restricted T cells in the immune response against human tumors. Against a human sarcoma exclusively CD4+, T cell clones could be established. These T cell clones were cytotoxic and secreted TNF and additional cytokines in response to the IFN-gamma-treated, HLA class II-positive autologous sarcoma cells. Several Ags were recognized by representative T cell clones: an Ag presented by HLA-DR and specific for the sarcoma; Ags presented by both HLA-DR alleles of the sarcoma, HLA-DR4 and -15, and shared by allogenic HLA-DR matched cell lines of different tissue lineages, including B cell blasts; and a sarcoma Ag presented by HLA-DP or DQ. Cytokine profiles of sarcoma-reactive T cell clones were dependent on the cytokine environment present during establishment of the T cell clones. The addition of exogenous IL-4 shifted the cytokine patterns of sarcoma-reactive T cell clones from Th1-like patterns to Th0/Th2-like patterns and decreased IL-10 production. TNF, IFN-gamma, IL-4, and supernatants of T cell clones induced HLA-DR expression on the sarcoma cells and, thus, were able to enhance Ag presentation. This autologous T cell response to a human sarcoma represents a new model for HLA class II-restricted T cell responses to human tumors.

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S Heyl

Contrary Roles of IL‐4 and IL‐12 on IL‐10 Production and Proliferation of Human Tumour Reactive T Cells

Specificities and functions of CD4+ HLA class II-restricted T cell clones against a human sarcoma: evidence for several recognized antigens.

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