Reactive oxygen generated by Nox1 triggers the angiogenic switch

Abstract

The reactive oxygen-generating enzyme Nox1 transforms NIH 3T3 cells, rendering them highly tumorigenic and, as shown herein, also increases tumorigenicity of DU-145 prostate epithelial cells. Although Nox1 modestly stimulates cell division in both fibroblasts and epithelial cells, an increased mitogenic rate alone did not account fully for the marked tumorigenicity. Herein, we show that Nox1 is a potent trigger of the angiogenic switch, increasing the vascularity of tumors and inducing molecular markers of angiogenesis. Vascular endothelial growth factor (VEGF) mRNA becomes markedly up-regulated by Nox1 both in cultured cells and in tumors, and VEGF receptors (VEGFR1 and VEGFR2) are highly induced in vascular cells in Nox1-expressing tumors. Matrix metalloproteinase activity, another marker of the angiogenic switch, also is induced by Nox1. Nox1 induction of VEGF is eliminated by coexpression of catalase, indicating that hydrogen peroxide signals part of the switch to the angiogenic phenotype.

Keywords

NOX1AngiogenesisVascular endothelial growth factorMatrix metalloproteinaseCell biologyCancer researchChemistryVascular endothelial growth factor ANeovascularizationBiologyReactive oxygen speciesNADPH oxidaseVEGF receptorsBiochemistry

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Publication Info

Year: 2002
Type: article
Volume: 99
Issue: 2
Pages: 715-720
Citations: 479
Access: Closed

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APA Style

                            
                                
                                    Jack L. Arbiser, 
                                
                                    John A. Petros, 
                                
                                    Robert Klafter
                                
                                et al.
                            
                            (2002). 
                            Reactive oxygen generated by Nox1 triggers the angiogenic switch. 
                            Proceedings of the National Academy of Sciences
                            , 99
                            (2)
                            , 715-720.
                            https://doi.org/10.1073/pnas.022630199
                        

Identifiers

DOI: 10.1073/pnas.022630199