Nitric oxide produced by cytochrome c oxidase helps stabilize HIF-1α in hypoxic mammalian cells

The mitochondrial respiratory chain has been reported to play a role in the stabilization of HIF-1α when mammalian cells experience hypoxia, most likely through the generation of free radicals. Although previous studies have suggested the involvement of superoxide catalyzed by complex III more recent studies raise the possibility that nitric oxide (NO) catalyzed by cytochrome c oxidase (Cco/NO), which functions in hypoxic signaling in yeast, may also be involved. Herein, we have found that HEK293 cells, which do not express a NOS isoform, possess Cco/NO activity and that this activity is responsible for an increase in intracellular NO levels when these cells are exposed to hypoxia. By using PTIO, a NO scavenger, we have also found that the increased NO levels in hypoxic HEK293 cells help stabilize HIF-1α. These findings suggest a new mechanism for mitochondrial involvement in hypoxic signaling in mammalian cells.

► HEK293 mammalian cells, which lack a NOS isoform, make nitric oxide under hypoxia. ► Cytochrome c oxidase produces nitric oxide in hypoxic HEK293 cells. ► Nitric oxide from cytochrome c oxidase stabilizes HIF-1α in hypoxic cells. ► A new mode of mitochondrial involvement in hypoxic signaling in mammals is proposed.