Cytochrome P450 mono-oxygenase-regulated signalling of Ca2+ entry in human and bovine endothelial cells.

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Cytochrome P450 mono-oxygenase-regulated signalling of Ca2+ entry in human and bovine endothelial cells.

W F Graier, S Simecek and M Sturek

Department of Medical Biochemistry, University of Graz, Austria.

1. We tested the hypothesis that agonist-stimulated Ca2+ entry,and thus formation of endothelium-derived nitric oxide (EDNO)in vascular endothelial cells, is related to activation of microsomalP450 mono-oxygenase (P450 MO) and the biosynthesis of 5,6-epoxyeicosatrienoicacid (5,6-EET). 2. Several P450 inhibitors diminished the sustained[Ca2+]i plateau response to agonist or intracellular Ca2+ storedepletion with ATPase inhibitors by 31-69% (fura-2 technique).Mn2+ influx stimulated by agonists or ATPase inhibitors wasprevented by P450 inhibitors. 3. Histamine- or ATPase inhibitor-stimulatedformation of EDNO was strongly attenuated (50-83%) by P450 inhibitors,without any effect on EDNO formation by the Ca2+ ionophore A23187,indicating that decreased EDNO synthesis is due specificallyto the inhibition of Ca2+ entry by these compounds. 4. Inductionof P450 MO by beta-naphthoflavone potentiated agonist-inducedCa2+ and Mn2+ influx by 60 and 53%, respectively. IntracellularCa2+ release remained unchanged. 5. The P450 MO product, 5,6-EET(< 156 nmol l-1), activated Ca2+/Mn2+ entry without any depletionof intracellular Ca2+ stores. The 5,6-EET-stimulated Ca2+/Mn2+entry was not affected by P450 inhibitors. 6. As with the bradykinin-stimulatedCa2+ entry pathway, the 5,6-EET-activated Ca2+ entry pathwaywas permeable to Mn2+ and Ba2+, sensitive to Ni2+, La3+ andmembrane depolarization, and insensitive to the removal of extracellularNa+ or the organic Ca2+ antagonist, nitrendipine. 7. In thepresence of 5,6-EET, stimulation with bradykinin only transientlyincreased [Ca2+]i. Vice versa, 5,6-EET failed to increase [Ca2+]ifurther in bradykinin-stimulated cells. The sustained [Ca2+]iplateau phase induced by a co-stimulation with bradykinin and5,6-EET was identical to that observed with bradykinin or 5,6-EETalone. 8. These results demonstrate that Ca2+ entry inducedby the P450 MO product, 5,6-EET, is indistinguishable to thatobserved by stimulation with bradykinin. 9. All data supportour hypothesis that depletion of endothelial Ca2+ stores activatesmicrosomal P450 MO which in turn synthesizes 5,6-EET. We proposethat the arachidonic acid metabolite 5,6-EET or one of its metabolitesis a second messenger for activation of endothelial Ca2+ entry.

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