Rita K. Upmacis scite author profile

The mechanism by which the inflammatory enzyme prostaglandin H 2 synthase-1 (PGHS-1) deactivates remains undefined. This study aimed to determine the stabilizing parameters of PGHS-1 and identify factors leading to deactivation by nitric oxide species (NO x ). Purified PGHS-1 was stabilized when solubilized in b-octylglucoside (rather than Tween-20 or CHAPS) and when reconstituted with hemin chloride (rather than hematin). Peroxynitrite (ONOO 2 ) activated the peroxidase site of PGHS-1 independently of the cyclooxygenase site. After ONOO 2 exposure, holoPGHS-1 could not metabolize arachidonic acid and was structurally compromised, whereas apoPGHS-1 retained full activity once reconstituted with heme. After incubation of holoPGHS-1 with ONOO 2 , heme absorbance was diminished but to a lesser extent than the loss in enzymatic function, suggesting the contribution of more than one process to enzyme inactivation. Hydroperoxide scavengers improved enzyme activity, whereas hydroxyl radical scavengers provided no protection from the effects of ONOO 2 . Mass spectral analyses revealed that tyrosine 385 (Tyr 385) is a target for nitration by ONOO 2 only when heme is present. Multimer formation was also observed and required heme but could be attenuated by arachidonic acid substrate. We conclude that the heme plays a role in catalyzing Tyr 385 nitration by ONOO 2 and the demise of PGHS-1.-Deeb, R.

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Regulation of Prostaglandin H₂ Synthase Activity by Nitrogen Oxides

Upmacis

Deeb

Hajjar

1999

Biochemistry

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Nitric oxide and its derivatives have been shown to both activate and inhibit prostaglandin H(2) synthase 1 (PGHS-1). We set out to determine the mechanisms by which different nitrogen oxide derivatives modulate PGHS-1 activity. To this end, we show that 3-morpholinosydnonimine hydrochloride (SIN-1), a compound capable of generating peroxynitrite, activates purified PGHS-1 and also stimulates PGE(2) production in arterial smooth muscle cells in the presence of exogenous arachidonic acid. The effect of SIN-1 in smooth muscle cells was abrogated by superoxide and peroxynitrite inhibitors, which supports the hypothesis that peroxynitrite is an activating species of PGHS-1. Indeed, authentic peroxynitrite also induced PGE(2) production in arachidonic acid-stimulated cells. In contrast, when cells were exposed to the nitric oxide-releasing compound 1-hydroxy-2-oxo-3-[(methylamino)propyl]-3-methyl-1-triazene (NOC-7), PGHS-1 enzyme activity was inhibited in the presence of exogenous arachidonic acid. Finally, in lipid-loaded smooth muscle cells, we demonstrate that SIN-1 stimulates arachidonic acid-induced PGE(2) production; albeit, the extent of activation is reduced compared to that under normal conditions. These results indicate that formation of peroxynitrite is a key intermediary step in PGHS-1 activation. However, other forms of NO(x)() inhibit PGHS-1. These results may have implications in the regulation of vascular function and tone in normal and atherosclerotic arteries.

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Tyrosine nitration in prostaglandin H2 synthase

Deeb

Resnick

Mittar

et al. 2002

Journal of Lipid Research

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In this study, we investigated the effects of various nitrogen oxide (NO x ) species on the extent of prostaglandin H 2 synthase-1 (PGHS-1) nitration in purified protein and in vascular smooth muscle cells. We also examined PGHS-1 activity under these conditions and found the degree of nitration to correlate inversely with enzyme activity. In addition, since NO x species are thought to invoke damage during the pathogenesis of atherosclerosis, we examined human atheromatous tissue for PGHS-1 nitration. Both peroxynitrite and tetranitromethane induced Tyr nitration of purified PGHS-1, whereas 1-hydroxy-2-oxo-3-( Nmethyl-aminopropyl)-3-methyl-1-triazene (NOC-7; a nitric oxide-releasing compound) did not. Smooth muscle cells treated with peroxynitrite showed PGHS-1 nitration. The extent of nitration by specific NO x species was determined by electrospray ionization mass spectrometry. Tetranitromethane was more effective than peroxynitrite, NOC-7, and nitrogen dioxide at nitrating a tyrosine-containing peptide (12%, 5%, 1%, and Ͻ 1% nitration, respectively). Nitrogen dioxide and, to a lesser extent, peroxynitrite, induced dityrosine formation. Using UV/Vis spectroscopy, it was estimated that the reaction of PGHS-1 with excess peroxynitrite yielded two nitrated tyrosines/PGHS-1 subunit. Finally, atherosclerotic tissue obtained from endarterectomy patients was shown to contain nitrated PGHS-1.Thus, prolonged exposure to elevated levels of peroxynitrite may cause oxidative damage through tyrosine nitration. -Deeb, R.

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Nitric oxide enhances prostaglandin-H synthase-1 activity by a heme-independent mechanism: Evidence implicating nitrosothiols

Hajjar¹,

Lander²,

Pearce³

et al. 1995

J. Am. Chem. Soc.

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Rita K. Upmacis

Structure and thermal reactions of dihydrogen complexes: the IR characterization of M(CO)5(H2) (M = chromium, molybdenum, and tungsten) and cis-Cr(CO)4(H2)2 in liquid xenon solution and the formation of HD during exchange of hydrogen and deuterium

Heme catalyzes tyrosine 385 nitration and inactivation of prostaglandin H2 synthase-1 by peroxynitrite

Regulation of Prostaglandin H₂ Synthase Activity by Nitrogen Oxides

Tyrosine nitration in prostaglandin H2 synthase

Nitric oxide enhances prostaglandin-H synthase-1 activity by a heme-independent mechanism: Evidence implicating nitrosothiols

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Rita K. Upmacis

Structure and thermal reactions of dihydrogen complexes: the IR characterization of M(CO)5(H2) (M = chromium, molybdenum, and tungsten) and cis-Cr(CO)4(H2)2 in liquid xenon solution and the formation of HD during exchange of hydrogen and deuterium

Heme catalyzes tyrosine 385 nitration and inactivation of prostaglandin H2 synthase-1 by peroxynitrite

Regulation of Prostaglandin H2 Synthase Activity by Nitrogen Oxides

Tyrosine nitration in prostaglandin H2 synthase

Nitric oxide enhances prostaglandin-H synthase-1 activity by a heme-independent mechanism: Evidence implicating nitrosothiols

Contact Info

Product

Resources

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Regulation of Prostaglandin H₂ Synthase Activity by Nitrogen Oxides