Carbon monoxide signals via inhibition of cytochrome c oxidase and generation of mitochondrial reactive oxygen species

doi:10.1096/fj.06-6644com

Carbon monoxide signals via inhibition of cytochrome c oxidase and generation of mitochondrial reactive oxygen species

Brian S. Zuckerbraun^*^,1, Beek Yoke Chin, Martin Bilban, Joana de Costa d’Avila, Jayashree Rao^*, Timothy R. Billiar^* and Leo E. Otterbein

Departments of Surgery,
^* University of Pittsburgh School of Medicine, Pittsburgh, Pennsylvania, USA; and

Beth Israel Deaconess Medical Center, Harvard Medical School, Boston, Massachusetts, USA

¹Correspondence: University of Pittsburgh School of Medicine, NW653 MUH, 3459 Fifth Ave., Pittsburgh, PA 15213, USA. E-mail: zuckerbraunbs{at}upmc.edu

Carbon monoxide (CO), which is produced endogenously in thebreakdown of heme, has been recognized as an important physiologicalsecond messenger similar to NO. Additionally, pharmacologicaldelivery of CO is protective in numerous models of injury, includingischemia/reperfusion, transplantation, hemorrhagic shock, andendotoxemia. However, the mechanism of action of CO is onlypartially elucidated focused primarily on how it modulates thecellular response to stress. The purpose of these investigationsis to test the hypothesis that CO acts via inhibition of cytochromec oxidase leading to the generation of low levels of reactiveoxygen species (ROS) that in turn mediate subsequent adaptivesignaling. We show here that CO increases ROS generation inRAW 264.7 cells, which is inhibited by antimycin A and is absentin respiration-deficient ${rho}$ ⁰ cells. CO inhibits cytochrome c oxidase,while maintaining cellular ATP levels and increasing mitochondrialmembrane potential. The addition of antioxidants or inhibitionof complex III of the electron transport chain by antimycinA attenuates the inhibitory effects of CO on lipopolysaccharide(LPS)-induced TNF- ${alpha}$ and blocked CO-induced p38 MAPK phosphorylation,which we previously have shown to be important in the anti-inflammatoryeffects of CO.—Zuckerbraun, B. S., Chin, B. Y., Bilban,M., de Costa d’Avila, J., Rao, J., Billiar, T. R., Otterbein,L. E. Carbon monoxide signals via inhibition of cytochrome coxidase and generation of mitochondrial reactive oxygen species.

Key Words: macrophage • p38 MAPK • tumor necrosis factor-alpha

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