Gene expression profiles identify a role for cyclooxygenase 2–dependent prostanoid generation in BMP6-induced angiogenic responses

Abstract

AbstractThe bone morphogenetic protein (BMP) family of proteins participates in regulation of angiogenesis in physiologic and pathologic conditions. To investigate the molecular mechanisms that contribute to BMP-dependent angiogenic signaling, we performed gene expression profiling of BMP6-treated mouse endothelial cells. We detected 77 mRNAs that were differentially regulated after BMP6 stimulation. Of these, cyclooxygenase 2 (Cox2) was among the most highly up-regulated by BMP stimulation, suggesting a role for Cox2 as a downstream regulator of BMP-induced angiogenesis. Up-regulation of Cox2 by BMP6 was detected at both mRNA and protein levels in endothelial cells, and BMP6 increased production of prostaglandins in a Cox2-dependent fashion. BMP6 up-regulated Cox2 at the transcriptional level through upstream SMAD-binding sites in the Cox2 promoter. Pharmacologic inhibition of Cox2, but not Cox1, blocked BMP6-induced endothelial cell proliferation, migration, and network assembly. BMP6-dependent microvessel outgrowth was markedly attenuated in aortic rings from Cox2−/− mice or after pharmacologic inhibition of Cox2 in aortas from wild-type mice. These results support a necessary role for Cox2 in mediating proangiogenic activities of BMP6. These data indicate that Cox2 may serve as a unifying component downstream from disparate pathways to modulate angiogenic responses in diseases in which neovascularization plays an underlying pathophysiologic role.