Catalytic consumption of nitric oxide by prostaglandin H synthase-1 regulates platelet function

Nitric oxide (( small middle dot)NO) plays a central role in vascular homeostasis via regulation of smooth muscle relaxation and platelet aggregation. Although mechanisms for ( small middle dot)NO formation are well known, removal pathways are less well characterized, particularly in cells that respond to ( small middle dot)NO through activation of soluble guanylate cyclase. Herein, we report that ( small middle dot)NO is catalytically consumed by prostaglandin H synthase-1 (PGHS-1) through acting as a reducing peroxidase substrate. With purified ovine PGHS-1, ( small middle dot)NO consumption requires peroxide (LOOH or H(2)O(2)), with a K(m)( (app)) for 15(S)hydroperoxyeicosatetraenoic acid (HPETE) of 3. 27 +/- 0.35 microm. During this, 2 mol ( small middle dot)NO are consumed per mol HPETE, and loss of HPETE hydroperoxy group occurs with retention of the conjugated diene spectrum. Hydroperoxide-stimulated ( small middle dot)NO consumption requires heme incorporation, is not inhibited by indomethacin, and is further stimulated by the reducing peroxidase substrate, phenol. PGHS-1-dependent ( small middle dot)NO consumption also occurs during arachidonate, thrombin, or activation of platelets (1-2 microm.min(-1) for typical plasma platelet concentrations) and prevents ( small middle dot)NO stimulation of platelet soluble guanylate cyclase. Platelet sensitivity to ( small middle dot)NO as an inhibitor of aggregation is greater using a platelet-activating stimulus () that does not cause ( small middle dot)NO consumption, indicating that this mechanism overcomes the anti-aggregatory effects of ( small middle dot)NO. Catalytic consumption of ( small middle dot)NO during eicosanoid synthesis thus represents both a novel proaggregatory function for PGHS-1 and a regulated mechanism for vascular ( small middle dot)NO removal.