Mitochondrial Regulation of NADPH Oxidase in Hindlimb Unweighting Rat Cerebral Arteries

We previously reported that NADPH oxidase activity is greater in intracranial cerebral versus systemic arteries of the rat. Here, we first tested whether NADPH oxidase activity is also greater in intracranial cerebral than systemic arteries of three other animal species, i.e., mouse, rabbit, and pig. Second, using Nox2-deficient mice, we evaluated the involvement of Nox2-containing NADPH oxidases in any such regional differences. NADPH-stimulated superoxide (O2−) production by basilar, middle cerebral arteries (MCA), and common carotid arteries (CA) and thoracic aorta (AO) from rat, mouse, rabbit, and pig was measured using lucigenin-enhanced chemiluminescence. Basal production of O2− and hydrogen peroxide (H2O2) by cerebral arteries, AO, and CA from wild-type (WT) and Nox2−/− mice was measured using L-012-enhanced chemiluminescence and Amplex Red fluorescence, respectively. Western blotting was used to measure Nox2 and SOD1–3 protein expression, and immunofluorescence was used to localize Nox2, in mouse arteries. In rats, WT mice, rabbits, and pigs, NADPH-stimulated O2− production by cerebral arteries was up to 40-fold greater than that in AO and CA. In WT mice, basal O2− and H2O2 production by cerebral arteries was ninefold and ∼2.5-fold higher, respectively, than that in AO and CA and was associated with ∼40% greater expression of Nox2 protein. Nox2 immunofluorescence was localized to the endothelium, and to a lesser extent the adventitia, in all mouse arteries and appeared to be more intense in endothelium of MCA than AO or CA. In Nox2−/− mice, NADPH-stimulated O2− production by cerebral arteries was ∼35% lower than that in WT mice, whereas Nox2 deletion had no significant effect on O2− production by AO or CA. Thus NADPH oxidase activity is greater in intracranial cerebral versus systemic arteries of several animal species and is associated with higher cerebrovascular expression and activity of Nox2.

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Effects of simulated microgravity on arterial nitric oxide synthase and nitrate and nitrite content

Journal of Applied Physiology ◽

10.1152/japplphysiol.00294.2002 ◽

2003 ◽

Vol 94 (1) ◽

pp. 83-92 ◽

Cited By ~ 32

Author(s):

Jin Ma ◽

Chadi I. Kahwaji ◽

Zhenmin Ni ◽

Nosratola D. Vaziri ◽

Ralph E. Purdy

Keyword(s):

Nitric Oxide ◽

Nitric Oxide Synthase ◽

Thoracic Aorta ◽

Simulated Microgravity ◽

Cerebral Arteries ◽

Inos Expression ◽

Mesenteric Arteries ◽

Hindlimb Unweighting ◽

Nitrate And Nitrite ◽

Oxide Synthase

The aim of the present work was to investigate the alterations in nitric oxide synthase (NOS) expression and nitrate and nitrite (NOx) content of different arteries from simulated microgravity rats. Male Wistar rats were randomly assigned to either a control group or simulated microgravity group. For simulating microgravity, animals were subjected to hindlimb unweighting (HU) for 20 days. Different arterial tissues were removed for determination of NOS expression and NOx. Western blotting was used to measure endothelial NOS (eNOS) and inducible NOS (iNOS) protein content. Total concentrations of NOx, stable metabolites of nitric oxide, were determined by the chemiluminescence method. Compared with controls, isolated vessels from simulated microgravity rats showed a significant increase in both eNOS and iNOS expression in carotid arteries and thoracic aorta and a significant decrease in eNOS and iNOS expression of mesenteric arteries. The eNOS and iNOS content of cerebral arteries, as well as that of femoral arteries, showed no differences between the two groups. Concerning NOx, vessels from HU rats showed an increase in cerebral arteries, a decrease in mesenteric arteries, and no change in carotid artery, femoral artery and thoracic aorta. These data indicated that there were differential alterations in NOS expression and NOx of different arteries after hindlimb unweighting. We suggest that these changes might represent both localized adaptations to differential body fluid redistribution and other factors independent of hemodynamic shifts during simulated microgravity.

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Suramin inhibits NADPH oxidase activity in cerebral arteries after subarachnoid hemorrhage

The FASEB Journal ◽

10.1096/fasebj.20.4.a725-a ◽

2006 ◽

Vol 20 (4) ◽

Author(s):

Christopher Sobey ◽

Sophocles Chrissobolis ◽

Haruyo Hickey ◽

Grant Drummond

Keyword(s):

Subarachnoid Hemorrhage ◽

Nadph Oxidase ◽

Oxidase Activity ◽

Cerebral Arteries ◽

Nadph Oxidase Activity

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Blockade of AT1 receptor partially restores vasoreactivity, NOS expression, and superoxide levels in cerebral and carotid arteries of hindlimb unweighting rats

Journal of Applied Physiology ◽

10.1152/japplphysiol.01278.2007 ◽

2009 ◽

Vol 106 (1) ◽

pp. 251-258 ◽

Cited By ~ 35

Author(s):

Ran Zhang ◽

Yun-Gang Bai ◽

Le-Jian Lin ◽

Jun-Xiang Bao ◽

Yu-Yang Zhang ◽

...

Keyword(s):

Vascular Reactivity ◽

Carotid Arteries ◽

Cerebral Arteries ◽

Renin Angiotensin System ◽

Maximal Response ◽

Ang Ii ◽

Hindlimb Unweighting ◽

Basilar Arteries ◽

Receptor Signaling Pathway ◽

Oxide Synthase

Previous studies have demonstrated activation of the local renin-angiotensin system in hindlimb unweighting (HU) rat vasculature. The present study intended to identify the effects of blockade of angiotensin II (ANG II) type 1 (AT1) receptors with losartan on vascular reactivity, nitric oxide synthase (NOS) expression, and superoxide anion (O2•−) levels in 3-wk HU rat cerebral and carotid arteries. Three weeks later, vasoconstriction, vasodilatation, endothelial NOS (eNOS) and inducible NOS (iNOS) protein, as well as O2•− levels in rat cerebral and carotid arteries were examined. We found that HU enhanced maximal response to KCl/5-hydroxytryptamine ( P < 0.01) in basilar arteries and KCl/phenylephrine ( P < 0.05) in common carotid arteries from HU rats. Acetylcholine induced concentration-dependent vasodilatation in all the artery rings, but with significantly smaller amplitude in basilar ( P < 0.01) and common carotid ( P < 0.05) arteries from HU rats than those from control rats. Chronic treatment with losartan partially restored response to vasoconstrictors and acetylcholine-induced vasodilatation in basilar ( P < 0.01) and common carotid ( P < 0.05) arteries from losartan-treated HU rats. Furthermore, iNOS content in cerebral arteries and eNOS/iNOS content in carotid arteries were significantly ( P < 0.01) increased in HU rats. Meanwhile, HU increased O2•− levels in all the layers of these arteries. However, losartan restored NOS content and O2•− levels toward normal. These results suggested that the HU-induced enhancement of vasoconstriction and reduction in endothelium-dependent relaxation involved alterations in O2•− and NOS content through an ANG II/AT1 receptor signaling pathway.

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