Transfer of the Interleukin-2 Gene Into Human Cancer Cells Induces Specific Antitumor Recognition and Restores the Expression of CD3/T-Cell Receptor Associated Signal Transduction Molecules

Down-modulation of CD16 (FcgRIII) receptors and loss of natural killer (NK) cell function have been observed in oral cancer patients. However, neither the mechanisms nor the significance of the decrease in CD16 receptors have been fully understood. The cytotoxic activity and survival of NK cells are negatively regulated by antibodies directed against CD16 surface receptor. The addition of anti-CD94 antibody in combination with either F(abV ) 2 fragment or intact anti-CD16 antibody to NK cells resulted in significant inhibition of NK cell cytotoxic function and induction of apoptosis in resting human peripheral blood NK cells. Addition of interleukin-2 to anti-CD16 and/or anti-CD94 antibody-treated NK cells significantly inhibited apoptosis and increased the function of NK cells. There was a significant increase in tumor necrosis factor-a (TNF-a) but not IFN-g secretion in NK cells treated either with anti-CD16 antibody alone or in combination with anti-CD94 antibodies. Consequently, the addition of anti-TNF-a antibody partially inhibited apoptosis of NK cells mediated by the combination of anti-CD94 and anti-CD16 antibodies. Increase in apoptotic death of NK cells also correlated with an increase in type 2 inflammatory cytokines and in the induction of chemokines. Thus, we conclude that binding of antibodies to CD16 and CD94 NK cell receptors induces death of the NK cells and signals for the release of chemokines.

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Coengagement of CD16 and CD94 Receptors Mediates Secretion of Chemokines and Induces Apoptotic Death of Naive Natural Killer Cells

Jewett

Cacalano

Head

et al. 2006

Clinical Cancer Research

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Differential Loss of T Cell Signaling Molecules in Metastatic Melanoma Patients’ T Lymphocyte Subsets Expressing Distinct TCR Variable Regions

Maccalli¹,

Pisarra²,

Vegetti³

et al. 1999

The Journal of Immunology

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In this study we tested the hypothesis that loss of T cell signaling molecules in metastatic melanoma patients’ T cells may affect differently T cell subsets characterized by distinct TCR variable regions. By a two-color immunofluorescence technique, expression of ζ-chain, lck, and ZAP-70 was evaluated in CD3+ T cells and in three representative T cell subsets expressing TCRAV2, TCRBV2, or TCRBV18. Partial loss of lck and ZAP-70 was found in CD3+ T cells from PBL of most melanoma patients, but not of healthy donors. The extent of ζ-chain, lck, and ZAP-70 loss depended on the TCRV region expressed by the T cells, and this association was maintained or increased during progression of disease. Coculture of patients’ or donors’ T cell with melanoma cells, or with their supernatants, but not with normal fibroblasts or their supernatants, down-modulated expression of ζ-chain, lck, and ZAP-70 in a TCRV region-dependent way. Immunodepletion of soluble HLA class I molecules present in tumor supernatants, but not of soluble ICAM-1, blocked the suppressive effect on T cell signaling molecule expression. T cell activation with mAbs to a single TCRV region and to CD28 led to significant and TCRV region-specific re-induction of ζ-chain expression. These findings indicate that extent of TCR signaling molecules loss in T lymphocytes from metastatic melanoma patients depends on the TCRV region and suggest that tumor-derived HLA class I molecules may contribute to induce such alterations.

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Transfer of the Interleukin-2 Gene Into Human Cancer Cells Induces Specific Antitumor Recognition and Restores the Expression of CD3/T-Cell Receptor Associated Signal Transduction Molecules

Cited by 2 publications

References 18 publications

Coengagement of CD16 and CD94 Receptors Mediates Secretion of Chemokines and Induces Apoptotic Death of Naive Natural Killer Cells

Coengagement of CD16 and CD94 Receptors Mediates Secretion of Chemokines and Induces Apoptotic Death of Naive Natural Killer Cells

Differential Loss of T Cell Signaling Molecules in Metastatic Melanoma Patients’ T Lymphocyte Subsets Expressing Distinct TCR Variable Regions

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