The complement-regulatory protein decay-accelerating factor (DAF) can be upregulated on endothelial cells (EC) by protein kinase C (PKC)-dependent and -independent pathways. We hypothesized that basic fibroblast growth factor (bFGF) might induce EC DAF expression, providing a cytoprotective mechanism for angiogenic neovessels against complement-mediated injury. Incubation of umbilical vein, aortic, and dermal EC with bFGF or vascular endothelial growth factor (VEGF) significantly increased DAF expression. Growth factor-induced EC proliferation was inhibited by PKC antagonists. In contrast, although PKC antagonists inhibited VEGF-induced DAF expression, bFGF-induced DAF was unaffected. Investigation of mitogen-activated kinase (MAPK) pathways also revealed differences, with bFGF-induced DAF dependent on p44/42 and p38 MAPK and VEGF requiring activation of p38 MAPK alone. Upregulation of DAF by bFGF was functionally relevant, reducing C3 deposition on EC after complement activation by 60% and resulting in marked reduction in complement-mediated EC lysis. bFGF and VEGF were synergistic in terms of DAF expression, resulting in enhanced cytoprotection. These observations reveal parallel PKC-dependent and -independent pathways regulating complement activation during angiogenesis. Further elucidation of these pathways may provide important insights into innate cytoprotective mechanisms in endothelium.
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