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Abstract
Although mitogenic and differentiating factors often activate a number of common signaling pathways, the mechanisms leading to their distinct cellular outcomes have not been elucidated. In a previous report, we demonstrated that mitogen-activated protein (MAP) kinase (ERK) activation by the neurogenic agents fibroblast growth factor (FGF) and nerve growth factor is dependent on protein kinase Cδ (PKCδ), whereas MAP kinase activation in response to the mitogen epidermal growth factor (EGF) is independent of PKCδ in rat hippocampal (H19-7) and pheochromocytoma (PC12) cells. We now show that EGF activates MAP kinase through a PKCζ-dependent pathway involving phosphatidylinositol 3-kinase and PDK1 in H19-7 cells. PKCζ, like PKCδ, acts upstream of MEK, and PKCζ can potentiate Raf-1 activation by EGF. Inhibition of PKCζ also blocks EGF-induced DNA synthesis as monitored by bromodeoxyuridine incorporation in H19-7 cells. Finally, in embryonic rat brain hippocampal cell cultures, inhibitors of PKCζ or PKCδ suppress MAP kinase activation by EGF or FGF, respectively, indicating that these factors activate distinct signaling pathways in primary as well as immortalized neural cells. Taken together, these results implicate different PKC isoforms as determinants of growth factor signaling specificity within the same cell. Furthermore, these data provide a mechanism whereby different growth factors can differentially activate a common signaling intermediate and thereby generate biological diversity.
ACKNOWLEDGMENTS
We thank Matthew Saelzler for expert technical assistance and Jane Booker for assistance in the preparation of the manuscript. We also thank A. Toker for generously providing plasmids and antibodies.
This work was supported by National Institute of Health grants NS33858 (M.R.R.) and CA26056 (J.-W.S. and I.B.W.), Pharmacological Sciences Training grant 5 T32 GM 07151-24 (K.C.C.), a gift from the Cornelius Crane Trust for Eczema Research (M.R.R.), and an award from the National Foundation for Cancer Research (I.B.W.).