Fas Ligand Induction in Human NK Cells Is Regulated by Redox Through a Calcineurin-Nuclear Factors of Activated T Cell-Dependent Pathway

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Fas Ligand Induction in Human NK Cells Is Regulated by Redox Through a Calcineurin-Nuclear Factors of Activated T Cell-Dependent Pathway

Keizo Furuke, Mitsuhiro Shiraishi, Howard S. Mostowski and Eda T. Bloom¹

Laboratory of Cellular Immunology, Division of Cellular and Gene Therapies, Center for Biologics Evaluation and Research, Food and Drug Administration, Bethesda, MD 20892

Fas ligand (FasL) on cytotoxic lymphocytes is important for mediatingapoptosis of activated lymphocytes and other target cells. We havereported that NK cell functions, such as proliferation, cell death,and killing activity, are subject to regulation by cellular redoxstatus. Here, we report that expression of FasL protein andmRNA in activated NK cells is also regulated by redox. Ligationof CD16 on IL-2-preactivated NK cells resulted in reductionof intracellular peroxide level as well as induction of FasLexpression. This CD16-induced FasL expression was suppressedby oxidative stress, including thiol deprivation or treatmentwith hydrogen peroxide (H₂O₂). Addition of thiol-reducing compounds, suchas L-cystine, 2-ME, or N-acetyl cysteine, restored FasL expression.These data suggest that CD16 stimulation requires cellular reducingstatus for FasL induction in NK cells. Because FasL gene activationfollowing CD16 cross-linking is regulated by the NF of activatedT cells (NFAT), we examined the effect of oxidative stresseson NFAT activation. Electrophoretic mobility shift assays revealedthat both thiol insufficiency and H₂O₂ treatment suppressedDNA-binding activity of NFAT and that addition of thiol-reducingcompounds reversed or even enhanced it. Furthermore, these oxidativestresses inhibited activity of calcineurin, a serine/threoninephosphatase that regulates NFAT activation. These results suggestthat suppression of calcineurin and NFAT activation is a mechanismby which oxidative stress inhibits FasL induction in activatedNK cells and further support the hypothesis that thiol-reducingcompounds might be required for maintenance of optimal NK functionsunder physiologic oxidative conditions.

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