Interleukin-1 Inhibits Gamma Interferon-Induced Bacteriostasis in Human Uroepithelial Cells

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American Society for Microbiology

RESUMO

The most prominent gamma interferon (IFN-γ)-induced antimicrobial effector mechanisms are the induction of nitric oxide (NO) synthase (NOS) and of indoleamine 2,3-dioxygenase (IDO) activity. We have recently found that human glioblastoma cells and human macrophages inhibit the growth of group B streptococci after stimulation with IFN-γ. In this report, we show that in addition, human RT4 (uroepithelial) cells can inhibit the growth of enterococci. Murine macrophages (RAW cells) are unable to inhibit bacterial growth after IFN-γ stimulation. Stimulation of human glioblastoma cells, macrophages, and RT4 cells with human IFN-γ results in a strong expression of IDO activity; however, NO production remains undetectable. In strong contrast, murine RAW cells produce large amounts of NO when stimulated with murine IFN-γ and IDO activity is not detectable. Interleukin-1 (IL-1) induces NO synthase in human RT4 cells when the cells are costimulated with IFN-γ. We found that IL-1 inhibits IFN-γ-stimulated IDO activity and antimicrobial effects in RT4 cells, while in human glioblastoma cells, which lack detectable NO synthase activity, neither of these effects was altered by costimulation with IFN-γ and IL-1. The IL-1-mediated inhibition of IDO activity and of subsequent antibacterial effect is due to the production of NO. This conclusion was supported by evidence that NG-monomethyl-l-arginine, a competitive inhibitor of inducible NOS activity, is able to block the inhibitory action of IL-1 on IFN-γ-induced bacteriostasis. We therefore conclude that NO production does not inhibit the growth of enterococci but might be involved in the regulation of IDO activity in some human cells.

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