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Interferons block protein kinase C-dependent but not-independent activation of Raf-1 and mitogen-activated protein kinases and mitogenesis in NIH 3T3 cells.

Ben May Institute, University of Chicago, Illinois 60637.

ABSTRACT

Interferons (IFNs) exert antiproliferative effects on many types of cells. The underlying molecular mechanism, however, is unclear. One possibility is that IFNs block growth factor-induced mitogenic signaling, which involves activation of Ras/Raf-1/MEK/mitogen-activated protein kinase. We have tested this hypothesis by using HER14 cells (NIH 3T3 cell expressing both platelet-derived growth factor [PDGF] and epidermal growth factor [EGF] receptors) as a model system. Our studies showed that IFNs (alpha/beta and gamma) blocked PDGF-and phorbol ester- but not EGF-stimulated DNA synthesis and cell proliferation. While the ligand-stimulated receptor tyrosine phosphorylation and interaction with downstream signaling molecules, such as GRB2, were not affected, IFNs specifically blocked PDGF- and phorbol ester- but not EGF-stimulated activation of Raf-1, mitogen-activated protein kinases, and tyrosine phosphorylation of an unidentified 34-kDa protein. This inhibition could be detected as early as 5 min after IFN treatments and was insensitive to cycloheximide, indicating that de novo protein synthesis is not required. The IFN-induced inhibition acted upstream of Raf-1 kinase and downstream of diacyl glycerol/phorbol ester, suggesting that protein kinase C (PKC) is the potential primary target. Consistently, downregulation of PKC by chronic phorbol myristate acetate treatment or inhibition of PKC by H7 and staurosporine blocked PDGF- and phorbol myristate acetate- but not EGF-induced signaling and DNA synthesis. Moreover, incubating cells with antisense oligodeoxyribonucleotides of PKC delta eliminated production of PKC delta protein and specifically blocked PDGF- but not EGF-stimulated mitogenesis in these cells. Thus, these studies have elucidated a major difference in the early events of EGF-and PDGF-stimulated signal transduction and, more importantly, revealed a novel mechanism by which IFNs may execute their antiproliferative function.

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