Alterations of the nitric oxide receptor, soluble guanylate cyclase (sGC) may contribute to the pathophysiology of pulmonary arterial hypertension (PAH). In the present study, the expression of sGC in explanted lung tissue of PAH patients was studied and the effects of the sGC stimulator BAY 63-2521 on enzyme activity, and haemodynamics and vascular remodelling were investigated in two independent animal models of PAH.Strong upregulation of sGC in pulmonary arterial vessels in the idiopathic PAH lungs compared with healthy donor lungs was demonstrated by immunohistochemistry. Upregulation of sGC was detected, similarly to humans, in the structurally remodelled smooth muscle layer in chronic hypoxic mouse lungs and lungs from monocrotaline (MCT)-injected rats. BAY 63-2521 is a novel, orally available compound that directly stimulates sGC and sensitises it to its physiological stimulator, nitric oxide. Chronic treatment of hypoxic mice and MCT-injected rats, with fully established PAH, with BAY 63-2521 (10 mg?kg) partially reversed the PAH, the right heart hypertrophy and the structural remodelling of the lung vasculature.Upregulation of soluble guanylate cyclase in pulmonary arterial smooth muscle cells was noted in human idiopathic pulmonary arterial hypertension lungs and lungs from animal models of pulmonary arterial hypertension. Stimulation of soluble guanylate cyclase reversed right heart hypertrophy and structural lung vascular remodelling. Soluble guanylate cyclase may thus offer a new target for therapeutic intervention in pulmonary arterial hypertension.KEYWORDS: BAY 63-2521, cardiovascular diseases, nitric oxide, pharmacology, pulmonary arterial hypertension, smooth muscle P ulmonary arterial hypertension (PAH) is a disabling disease, with high mortality, characterised by sustained elevation in pulmonary arterial pressure (Ppa) and pulmonary vascular remodelling due to proliferation and migration of pulmonary artery smooth muscle cells (PASMCs) [1]. Imbalance of vasodilatory and vasoconstrictive mediators has been implicated in these changes. Reduced urinary excretion of prostaglandin (PG)I 2 and augmented excretion of thromboxane metabolites were found in patients with idiopathic PAH (IPAH) [2], and immunohistological studies have shown reduced expression of PGI 2 synthase in the pulmonary vessels originating from those patients [3]. Another important mediator in the regulation of vascular tone is nitric oxide (NO), which is synthesised by NO synthases. Local NO production from endothelium and epithelium regulates pulmonary perfusion, depending on alveolar ventilation to assure optimised ventilation/perfusion distribution [4][5][6]. In patients with IPAH, it has been reported that the expression of endothelial NO synthase is downregulated [7], while other reports show an upregulation in plexiform lesions of IPAH patients [8]. However, little is known about the expression and regulation of soluble guanylate cyclase (sGC) which operates as a receptor for NO. Typically, sGC is found as a hetero...
We demonstrated (a) that the parameters characterizing hypoxia-induced pulmonary hypertension are not functionally linked, (b) that the downregulation of HPV under chronic hypoxia can be prevented by inhaled NO but not by sildenafil and iloprost, and (c) that iloprost is particularly effective in preventing vascular remodeling and sildenafil in preventing RVH.
Schermuly RT. The soluble guanylate cyclase activator HMR1766 reverses hypoxia-induced experimental pulmonary hypertension in mice. Am J Physiol Lung Cell Mol Physiol 297: L658 -L665, 2009. First published July 17, 2009 doi:10.1152/ajplung.00189.2009.-Severe pulmonary hypertension (PH) is a disabling disease with high mortality, characterized by pulmonary vascular remodeling and right heart hypertrophy. In mice with PH induced by chronic hypoxia, we examined the acute and chronic effects of the soluble guanylate cyclase (sGC) activator HMR1766 on hemodynamics and pulmonary vascular remodeling. In isolated perfused mouse lungs from control animals, HMR1766 dosedependently inhibited the pressor response of acute hypoxia. This dose-response curve was shifted leftward when the effects of HMR1766 were investigated in isolated lungs from chronic hypoxic animals for 21 days at 10% oxygen. Mice exposed for 21 or 35 days to chronic hypoxia developed PH, right heart hypertrophy, and pulmonary vascular remodeling. Treatment with HMR1766 (10 mg ⅐ kg Ϫ1 ⅐ day Ϫ1 ), after full establishment of PH from day 21 to day 35, significantly reduced PH, as measured continuously by telemetry. In addition, right ventricular (RV) hypertrophy and structural remodeling of the lung vasculature were reduced. Pharmacological activation of oxidized sGC partially reverses hemodynamic and structural changes in chronic hypoxia-induced experimental PH. vascular remodeling; telemetry PULMONARY HYPERTENSION (PH) is a disabling disease characterized by vascular remodeling and right ventricular hypertrophy. Hypoxia is considered a major factor in the pathogenesis of PH, e.g., PH associated with high altitude and with chronic restrictive or obstructive lung diseases. Whereas acute hypoxia causes a selective pulmonary arteriolar vasoconstriction and increases pulmonary arterial pressure, the exposure to chronic hypoxia induces structural and functional changes of the pulmonary vasculature (15,18). In the context of chronic hypoxia, an imbalance in vasodilatory [e.g., prostacyclin, nitric oxide (NO)] and vasoconstrictive (e.g., thromboxane, endothelin) molecules has been implicated in pulmonary arterial vasoconstriction and chronic vascular remodeling.One potent vasodilator is NO, which is synthesized by NO synthases and is considered to be a key player in regulating pulmonary vascular tone. The downstream effector of NO is the soluble guanylate cyclase (sGC), which synthesizes the second messenger guanosine 3Ј,5Ј-cyclic monophosphate (cGMP) in smooth muscle cells, thus causing vasorelaxation.
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