Kelly J. Peyton scite author profile

Since recent studies demonstrate that vascular smooth muscle cells synthesize two distinct guanylate cyclase–stimulatory gases, NO and CO, we examined possible regulatory interactions between these two signaling molecules. Treatment of rat aortic smooth muscle cells with the NO donors, sodium nitroprusside, S -nitroso- N -acetyl-penicillamine, or 3-morpholinosydnonimine, increased heme oxygenase-1 (HO-1) mRNA and protein levels in a concentration- and time-dependent manner. Both actinomycin D and cycloheximide blocked NO-stimulated HO-1 mRNA and protein expression. Nuclear run-on experiments demonstrated that NO donors increased HO-1 gene transcription between 3- and 6-fold. In contrast, NO donors had no effect on the stability of HO-1 mRNA. Incubation of vascular smooth muscle cells with the membrane-permeable cGMP analogues, dibutyryl cGMP and 8-bromo-cGMP, failed to induce HO-1 gene expression. Treatment of vascular smooth muscle cells with NO donors also stimulated the production and release of CO, as demonstrated by the CO-dependent increase in intracellular cGMP levels in coincubated platelets. Finally, incubating vascular smooth muscle cells with interleukin-1β and tumor necrosis factor-α induced NO synthesis and also significantly increased the level of HO-1 protein. The cytokine-stimulated production of both NO and HO-1 protein in smooth muscle cells was blocked by the NO synthase inhibitor methyl- l -arginine. These results demonstrate that exogenously administered or endogenously released NO stimulates HO-1 gene expression and CO production in vascular smooth muscle cells. The ability of NO to induce HO-catalyzed CO release from vascular smooth muscle cells provides a novel mechanism by which NO might modulate soluble guanylate cyclase and, thereby, vascular smooth muscle cell and platelet function.

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Adenovirus-Mediated Heme Oxygenase-1 Gene Delivery Inhibits Injury-Induced Vascular Neointima Formation

Tulis

et al. 2001

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Background-Recent studies have demonstrated that systemic pharmacological induction of heme oxygenase-1 (HO-1), the inducible isoform of the initial and rate-limiting enzyme for heme catabolism, attenuates neointima formation after experimental vascular injury. We have now investigated the ability of localized adenovirus-mediated HO-1 (Ad-HO-1) gene delivery to modify arterial remodeling after balloon angioplasty. Methods and Results-Two weeks after balloon angioplasty in the rat carotid artery, elevated HO-1 protein was observed in the Ad-HO-1 arteries compared with those exposed to empty adenovirus (Ad-E) or to PBS. The arteries exposed to Ad-HO-1 exhibited significantly reduced neointimal area, medial wall area, neointimal area/medial wall area ratio, and neointimal thickness compared with arteries exposed to Ad-E. The Ad-E vessels showed subtle reductions in each morphometric parameter compared with PBS vessels. In a separate group of animals, concomitant treatment of Ad-HO-1 with the HO-1 inhibitor tin protoporphyrin completely restored each morphometric parameter to control levels. Arteries exposed to Ad-HO-1 demonstrated significantly increased TUNEL labeling of apoptotic nuclei and significantly decreased PCNA labeling of DNA synthesis in the medial wall 48 hours after injury. Conclusions-These results indicate that HO-1 represents an important in vivo vasoprotective mediator that is capable of attenuating the pathophysiological remodeling response to endovascular injury and suggest that HO-1 may be a novel target for the treatment of vascular disease.

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Heme oxygenase-1–derived carbon monoxide is an autocrine inhibitor of vascular smooth muscle cell growth

et al. 2002

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Activation of AMPK stimulates heme oxygenase-1 gene expression and human endothelial cell survival

Liu¹,

Peyton²,

Shebib³

et al. 2011

American Journal of Physiology-Heart and Circulatory Physiology

150

121

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The present study determined whether AMP-activated protein kinase (AMPK) regulates heme oxygenase (HO)-1 gene expression in endothelial cells (ECs) and if HO-1 contributes to the biological actions of this kinase. Treatment of human ECs with the AMPK activator 5-aminoimidazole-4-carboxamide-1-β-d-ribofuranoside (AICAR) stimulated a concentration- and time-dependent increase in HO-1 protein and mRNA expression that was associated with a prominent increase in nuclear factor-erythroid 2-related factor 2 (Nrf2) protein. Induction of HO-1 was also observed in rat carotid arteries after the in vivo application of AICAR. Induction of HO-1 by AICAR was blocked by the AMPK inhibitor compound C, the adenosine kinase inhibitor 5'-iodotubercidin, and by silencing AMPK-α(1/2) and was mimicked by the AMPK activator A-769662 and by infecting ECs with an adenovirus expressing constitutively active AMPK-α(1). AICAR also induced a significant rise in HO-1 promoter activity that was abolished by mutating the antioxidant responsive elements of the HO-1 promoter or by the overexpression of dominant negative Nrf2. Finally, activation of AMPK inhibited cytokine-mediated EC death, and this was prevented by the HO inhibitor tin protoporphyrin-IX or by silencing HO-1 expression. In conclusion, AMPK stimulates HO-1 gene expression in human ECs via the Nrf2/antioxidant responsive element signaling pathway. The induction of HO-1 mediates the antiapoptotic effect of AMPK, and this may provide an important adaptive response to preserve EC viability during periods of metabolic stress.

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Arginase inhibition restores arteriolar endothelial function in Dahl rats with salt-induced hypertension

Johnson¹,

Johnson²,

Peyton³

et al. 2005

American Journal of Physiology-Regulatory, Integrative and Comp

125

117

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Vascular tissues express arginase that metabolizes L-arginine to L-ornithine and urea and thus reduces substrate availability for nitric oxide formation. Dahl salt-sensitive (Dahl-S) rats with salt-induced hypertension show endothelial dysfunction, including decreased vascular nitric oxide formation. This study tests the hypothesis that increased vascular arginase activity contributes to endothelial dysfunction in hypertensive Dahl-S rats. Male Dahl-S rats (5-6 wk) were placed on high (8%) or low (0.3%) NaCl diets for 4 wk. With respect to the low-salt group, mean arterial blood pressure was increased in the high-salt animals. Immunohistochemical stainings for arginase I and II were enhanced in arterioles isolated from high-salt Dahl-S rats. Experiments used isolated Krebs buffer-superfused first-order gracilis muscle arterioles with constant pressure (80 mmHg) and no luminal flow or constant midpoint but altered endpoint pressures to establish graded levels of luminal flow (0-50 microl/min). In high-salt arterioles, responses to an endothelium-dependent vasodilator acetylcholine (1 nmol/l to 3 micromol/l) and flow-induced dilation were decreased. Acute in vitro treatment with an inhibitor of arginase, 100 micromol/l (S)-(2-boronoethyl)-L-cystine, or the nitric oxide precursor, 1 mmol/l L-arginine, similarly enhanced acetylcholine and flow-induced maximal dilations and abolished the differences between high- and low-salt arterioles. These data show that arteriolar arginase expression is increased and that endothelium-dependent vasodilation is decreased in high-salt Dahl-S rats. Acute pretreatment with an arginase inhibitor or with L-arginine restores endothelium-dependent vasodilation and abolishes the differences between high- and low-salt groups. These results suggest that enhanced vascular arginase activity contributes to endothelial dysfunction in Dahl-S rats with salt-induced hypertension and identifies arginase as a potential therapeutic target to prevent endothelial dysfunction.

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Kelly J. Peyton

Nitric Oxide Induces Heme Oxygenase-1 Gene Expression and Carbon Monoxide Production in Vascular Smooth Muscle Cells

Adenovirus-Mediated Heme Oxygenase-1 Gene Delivery Inhibits Injury-Induced Vascular Neointima Formation

Heme oxygenase-1–derived carbon monoxide is an autocrine inhibitor of vascular smooth muscle cell growth

Activation of AMPK stimulates heme oxygenase-1 gene expression and human endothelial cell survival

Arginase inhibition restores arteriolar endothelial function in Dahl rats with salt-induced hypertension

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