Mitochondrial reactive oxygen species and c-Src play a critical role in hypoxic response in vascular smooth muscle cells

OBJECTIVE: Thickened atherosclerotic plaques are prone to be hypoxic because of poor perfusion. In this study, we tested (a) whether reactive oxygen species (ROS) and c-Src play roles in hypoxic induction of HIF-1alpha protein and PAI-1 gene expression in the rabbit aortic smooth muscle cell line C2/2 cells and primary cultures of rat aortic smooth muscle cells, and (b) how mitochondria act on the hypoxia-induced signaling mechanism. METHODS AND RESULTS: Hypoxic exposure of C2/2 cells increased H2O2 generation, c-Src phosphorylation, HIF-1alpha protein expression, and PAI-1 gene expression. Catalase, a scavenger of H2O2, inhibited the hypoxia-induced ROS generation and PAI-1 gene expression. Src kinase inhibitors PP1 and PP2 inhibited hypoxia-induced HIF-1alpha protein and PAI-1 gene expression. Ablation of mitochondrial respiration by rotenone abolished hypoxia-induced ROS generation, c-Src phosphorylation, HIF-1alpha protein expression, and PAI-1 gene expression. CONCLUSION: Induction of HIF-1alpha protein and PAI-1 gene expression in response to hypoxia was regulated by ROS production and c-Src activation in vascular smooth muscle cells. Mitochondria linked the hypoxic signal to c-Src, which in turn led to HIF-1alpha protein and PAI-1 gene expression. These results provide evidence that hypoxia induces the ROS-mediated and c-Src-dependent signaling cascades which are closely associated with angiogenesis and thrombosis in atherosclerotic vasculature.