Browsing by keyword "NK Cell Lectin-Like Receptor Subfamily K"
Now showing items 1-2 of 2
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Inflammatory cytokine-mediated evasion of virus-induced tumors from NK cell controlInfections with DNA tumor viruses, including members of the polyomavirus family, often result in tumor formation in immune-deficient hosts. The complex control involved in antiviral and antitumor immune responses during these infections can be studied in murine polyomavirus (PyV)-infected mice as a model. We found that NK cells efficiently kill cells derived from PyV-induced salivary gland tumors in vitro in an NKG2D (effector cell)-RAE-1 (target cell)-dependent manner; but in T cell-deficient mice, NK cells only delay but do not prevent the development of PyV-induced tumors. In this article, we show that the PyV-induced tumors have infiltrating functional NK cells. The freshly removed tumors, however, lack surface RAE-1 expression, and the tumor tissues produce soluble factors that downregulate RAE-1. These factors include the proinflammatory cytokines IL-1alpha, IL-1beta, IL-33, and TNF. Each of these cytokines downregulates RAE-1 expression and susceptibility to NK cell-mediated cytotoxicity. CD11b(+)F4/80(+) macrophages infiltrating the PyV-induced tumors produce high amounts of IL-1beta and TNF. Thus, our data suggest a new mechanism whereby inflammatory cytokines generated in the tumor environment lead to evasion of NK cell-mediated control of virus-induced tumors.
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NK cells and gammadelta T cells mediate resistance to polyomavirus-induced tumorsNK and gammadelta T cells can eliminate tumor cells in many experimental models, but their effect on the development of tumors caused by virus infections in vivo is not known. Polyomavirus (PyV) induces tumors in neonatally infected mice of susceptible strains and in adult mice with certain immune deficiencies, and CD8+ alphabeta T cells are regarded as the main effectors in anti-tumor immunity. Here we report that adult TCRbeta knockout (KO) mice that lack alphabeta but have gammadelta T cells remain tumor-free after PyV infection, whereas TCRbeta x delta KO mice that lack all T cells develop tumors. In addition, E26 mice, which lack NK and T cells, develop the tumors earlier than TCRbeta x delta KO mice. These observations implicate gammadelta T and NK cells in the resistance to PyV-induced tumors. Cell lines established from PyV-induced tumors activate NK and gammadelta T cells both in culture and in vivo and express Rae-1, an NKG2D ligand. Moreover, these PyV tumor cells are killed by NK cells in vitro, and this cytotoxicity is prevented by treatment with NKG2D-blocking antibodies. Our findings demonstrate a protective role for NK and gammadelta T cells against naturally occurring virus-induced tumors and suggest the involvement of NKG2D-mediated mechanisms.
