Increase in protein kinase C activity is associated with human fibroblast growth inhibition. |
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Authors: | V Rogalsky G Todorov T Den T Ohnuma |
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Affiliation: | Department of Neoplastic Diseases, Mount Sinai Medical Center, New York, NY 10029. |
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Abstract: | Protein kinase C (PKC) activity and DNA synthesis were measured in human fetal bone marrow fibroblasts following treatment with tumor necrosis factor alpha (TNF alpha) (500 U/ml) or conditioned media containing natural cell proliferation inhibitor (CM-NCPI). Treatment with TNF alpha led to growth stimulation (120 +/- 7% of control in 24 h, 141 +/- 6% in 72 h). At the same time particulate PKC activity diminished, reaching 55 +/- 8% of control in 24 h and remaining at this level at 72 h. CM-NCPI treatment of the cells resulted in a decrease in DNA synthesis (by 39 +/- 6% in 2 h, by 58 +/- 5% in 24 h, and by 78 +/- 8% in 72 h). This was accompanied by a significant rise in particulate PKC activity which increased over 3-fold in 2 h, over 5-fold in 24 h, and up to 11-fold in 72 h. This 11-fold elevation was maintained after 2 week exposure of the fibroblasts to CM-NCPI. The PKC inhibitor neomycin abolished CM-NCPI induced growth inhibition, whereas PKC activator 12-O-tetradecanoylphorbol 13-acetate intensified it. These results suggest that CM-NCPI acts as PKC activator and that negative growth regulation by extracellular agents may involve stimulation of PKC activity. |
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