Melatonin long-lasting beneficial effects on pulmonary vascular reactivity and redox balance in chronic hypoxic ovine neonates

Pulmonary arterial hypertension of the neonate (PAHN) is a pathophysiological condition characterized by maladaptive pulmonary vascular remodeling and abnormal contractile reactivity. This is a multifactorial syndrome with chronic hypoxia and oxidative stress as main etiological drivers, and with limited effectiveness in therapeutic approaches. Melatonin is a neurohormone with antioxidant and vasodilator properties at the pulmonary level. Therefore, this study aims to test whether a postnatal treatment with melatonin during the neonatal period improves in a long-lasting manner the clinical condition of PAHN. Ten newborn lambs gestated and born at 3600 m were used in this study, five received vehicle and five received melatonin in daily doses of 1 mg kg⁻¹ for the first 3 weeks of life. After 1 week of treatment completion, lung tissue and small pulmonary arteries (SPA) were collected for wire myography, molecular biology, and morphostructural analyses. Melatonin decreased pulmonary arterial pressure the first 4 days of treatment. At 1 month old, melatonin decreased the contractile response to the vasoconstrictors K⁺, TX₂, and ET-1. Further, melatonin increased the endothelium-dependent and muscle-dependent vasodilation of SPA. Finally, the treatment decreased pulmonary oxidative stress by inducing antioxidant enzymes and diminishing pro-oxidant sources. In conclusion, melatonin improved vascular reactivity and oxidative stress at the pulmonary level in PAHN lambs gestated and born in chronic hypoxia.     

Melatonin improves cerebrovascular function and decreases oxidative stress in chronically hypoxic lambs

Chronic hypoxia during gestation and delivery results in oxidative stress and cerebrovascular dysfunction in the neonate. We assessed whether melatonin, a potent antioxidant and potential vasodilator, improves the cerebral vascular function in chronically hypoxic neonatal lambs gestated and born in the highlands (3600 m). Six lambs received melatonin (1 mg/kg per day oral) and six received vehicle, once a day for 8 days. During treatment, biometry and hemodynamic variables were recorded. After treatment, lambs were submitted to a graded FiO₂ protocol to assess cardiovascular responses to oxygenation changes. At 12 days old, middle cerebral arteries (MCA) were collected for vascular reactivity, morphostructural, and immunostaining evaluation. Melatonin increased fractional growth at the beginning and improved carotid blood flow at all arterial PO₂ levels by the end of the treatment (P < 0.05). Further, melatonin treatment improved vascular responses to potassium, serotonin, methacholine, and melatonin itself (P < 0.05). In addition, melatonin enhanced the endothelial response via nitric oxide‐independent mechanisms in isolated arteries (162 ± 26 versus 266 ± 34 AUC, P < 0.05). Finally, nitrotyrosine staining as an oxidative stress marker decreased in the MCA media layer of melatonin‐treated animals (0.01357 ± 0.00089 versus 0.00837 ± 0.00164 pixels/μm², P < 0.05). All the melatonin‐induced changes were associated with no systemic cardiovascular alterations in vivo. In conclusion, oral treatment with melatonin modulates cerebral vascular function, resulting in a better cerebral perfusion and reduced oxidative stress in the neonatal period in chronically hypoxic lambs. Melatonin is a potential therapeutic agent for treating cerebrovascular dysfunction associated with oxidative stress and developmental hypoxia in neonates.     

Recombinant human superoxide dismutase enhances the effect of inhaled nitric oxide in persistent pulmonary hypertension.

We investigated the pulmonary vascular effects of superoxide dismutase (SOD) alone and in combination with inhaled nitric oxide (iNO) in newborn lambs with persistent pulmonary hypertension (PPHN) following prenatal ligation of the ductus arteriosus. In in vitro experiments, pretreatment with SOD significantly enhanced vascular relaxation in response to the NO donor S-nitrosyl-acetylpenicillamine (SNAP) in fifth-generation pulmonary arteries isolated from lambs with PPHN. In vivo treatment of fully instrumented newborn lambs with a single intratracheal dose of recombinant human CuZn SOD (rhSOD; 5 mg/kg) produced selective dilation of the pulmonary circulation. Further studies, of the combination of rhSOD and iNO, showed enhancement of the pulmonary vascular effects of iNO after brief periods of inhalation of 5 ppm and 80 ppm NO. We conclude that rhSOD reduces pulmonary vascular resistance and facilitates the action of iNO in a lamb model of PPHN. This suggests that rhSOD may prove to be an effective adjunctive treatment for newborns with PPHN.     

Melatonin ameliorates endothelial dysfunction,vascular inflammation,and systemic hypertension in rats with chronic intermittent hypoxia

The pathogenesis of hypertension in patients with obstructive sleep apnea (OSA) is associated with endothelial dysfunction induced by chronic intermittent hypoxia (IH). Studies have shown that administration of melatonin ameliorates oxidative injury and inflammation. This study examined the effect of melatonin on the oxidative stress, endothelial dysfunction, and inflammation during the pathogenesis of hypertension in chronic IH. Adult Sprague‐Dawley rats that had received a daily injection of melatonin or vehicle were exposed to IH treatment mimicking a severe OSA condition for 14–21 days. Systolic pressure was significantly higher in the vehicle‐treated (144 ± 2.7 mmHg) but not in the melatonin‐treated rats (123 ± 5.1 mmHg) by 21–day IH treatment when compared with the normoxic control. Levels of malondialdehyde and the expressions of NADPH oxidase, pro‐inflammatory mediators (TNF‐α, inducible NO synthase, COX‐2), and adhesion molecules (ICAM‐1, VCAM‐1, and E‐selectin) of the thoracic aorta were markedly increased by 14‐day IH treatment preceding the hypertensive response. Also, levels of nitric oxide (NO˙), endothelial‐dependent relaxation, and the expressions of endothelial NO synthase (eNOS) and antioxidant enzymes (GPx, CAT, and Cu/Zn SOD) were significantly lowered in the IH rats. Melatonin treatment significantly mitigated the increased expression of NADPH oxidase, pro‐inflammatory mediators, and adhesion molecules. Moreover, melatonin prevented the endothelial dysfunction with ameliorated levels of NO˙, endothelial‐dependent relaxation, and expressions of eNOS and antioxidant enzymes. These results suggest that melatonin is protective against IH‐induced hypertension and endothelial dysfunction via an antioxidant and anti‐inflammatory mechanism.     

Endothelium-derived vasoactive factors and regulation of vascular tone in human blood vessels

The endothelium releases a variety of factors which can affect vascular tone. Endothelium-derived relaxing factor or nitric oxide is a very potent vasodilator and inhibitor of platelet function. Its release has been demonstrated in a variety of human blood vessels. In most human vascular preparations, prostacyclin does not significantly contribute to the endothelium-dependènt relaxations. Prostacyclin is, however, an endothelium-derived product which can evoke vasodilation and inhibition of platelet aggregation. In addition, the endothelium of human veins can release endothelium-derived contracting factors produced by the cyclooxygenase pathway. Endothelin is an endothelium-derived vasoactive peptide which has profound vasoconstrictor properties in human arteries and particularly in veins. Its action can only be partially inhibited by calcium antagonists, while endothelium-derived nitric oxide and exogenous nitrovasodilators are effective antagonists of the peptide. The mechanisms and amounts of endothelin released in human blood vessels remains to be defined. Under physiological conditions, endothelium-derived relaxing factors appear to dominate. The release of endothelium-derived nitric oxide is reduced in atherosclerotic human arteries. This indicates that in cardiovascular disease endothelial dysfunction occurs; this may contribute in the pathogenesis of coronary artery disease, pulmonary hypertension and stroke.     

Chronically elevated endothelin levels reduce pulmonary vascular reactivity to nitric oxide

Although local tissue activation of the endothelin (ET) system contributes to the development of pulmonary hypertension, the impact of isolated chronic plasma hyperendothelinemia on the pulmonary circulation is unknown. METHODS: Mini-osmotic pumps were implanted in rats to deliver ET-1 during 7 or 28 days. After in vivo hemodynamics, the lungs were isolated to derive pressure-flow relations. Small pulmonary arteries ( approximately 250 microm) were mounted on an isometric myograph to study their reactivity. RESULTS: Plasma ET-1 approximately doubled (p < 0.05) after 7 and 28 days. Lung tissue ET-1 level increased fourfold after 7 days (p < 0.001) but was no longer significantly elevated after 28 days. Right ventricular systolic pressure was unaffected. The pulmonary pressure-flow relation shifted upward with a steeper slope (p < 0.05) at 7 days, but not after 28 days. Maximum dilatations to both acetylcholine (p < 0.01) and sodium nitroprusside (p < 0.001) were greatly reduced by approximately 50% after 28 days and were normalized by the addition of the nitric oxide synthase inhibitor L-NNA and the antioxidant N-acetyl-L-cysteine, respectively. CONCLUSION: Chronic hyperendothelinemia reduces the pulmonary vasodilator reserve in response to nitric oxide. Correction by an antioxidant and L-NNA suggests that this relates to increased production of reactive oxygen species, which may have clinical relevance for conditions associated with chronic increase of ET. Further studies are required to determine if, in the long term, this could contribute to the development of pulmonary hypertension.     

Daily melatonin protects the endothelial lineage and functional integrity against the aging process,oxidative stress,and toxic environment and restores blood flow in critical limb ischemia area in mice

We tested the hypothesis that daily melatonin treatment protects endothelial lineage and functional integrity against the aging process, oxidative stress/endothelial denudation (ED), and toxic environment and restored blood flow in murine critical limb ischemia (CLI). In vitro study using HUVECs, in vivo models (ie, CLI through left femoral artery ligation and ED through carotid artery wire injury), and model of lipopolysaccharide‐induced aortic injury in young (3 months old) and aged (8 months old) mice were used to elucidate effects of melatonin treatment on vascular endothelial integrity. In vitro study showed that menadione‐induced oxidative stress (NOX‐1/NOX‐2), inflammation (TNF‐α/NF‐kB), apoptosis (cleaved caspase‐3/PARP), and mitochondrial damage (cytosolic cytochrome c) in HUVECs were suppressed by melatonin but reversed by SIRT3‐siRNA (all P < .001). In vivo, reduced numbers of circulating endothelial progenitor cells (EPCs) (C‐kit/CD31+/Sca‐1/KDR+/CXCR4/CD34+), and angiogenesis (Matrigel assay of bone marrow‐derived EPC and ex vivo aortic ring cultures) in older (compared with younger) mice were significantly reversed through daily melatonin administration (20 mg/kg/d, ip) (all P < .001). Aortic vasorelaxation and nitric oxide release were impaired in older mice and reversed in age‐match mice receiving melatonin (all P < .01). ED‐induced intimal/medial hyperplasia, reduced blood flow to ischemic limb, and angiogenesis (reduced CD31+/vWF+ cells/small vessel number) were improved after daily melatonin treatment (all P < .0001). Lipopolysaccharide‐induced aortic endothelial cell detachment, which was more severe in aged mice, was also alleviated after daily melatonin treatment (P < .0001). Daily melatonin treatment protected both structural and functional integrity of vascular endothelium against aging‐, oxidative stress‐, lipopolysaccharide‐, and ischemia‐induced damage probably through upregulating the SIRT signaling pathway.     

Nicorandil protects ATP-sensitive potassium channels against oxidation-induced dysfunction in cardiomyocytes of aging rats

ATP-sensitive potassium channels (K_ATP channels) regulate vascular tone and cardiac contraction through their action on the membrane potential of smooth muscle cells and cardiomyocytes. Because aging and diseases alter K_ATP channel activity, many pharmacological treatments aimed at improving their function, therefore cardiovascular function, have been evaluated. Nicorandil, a K_ATP channel opener, nitric oxide donor and antioxidant, is used as a treatment of angina pectoris and induces vasodilation, blood pressure decrease and cardioprotection in aging as well as after ischemia-reperfusion. Here, using the patch-clamp technique, we have studied the effect a chronic low dose of nicorandil (0.1 mg/kg per day for 2 months), on the activity of cardiomyocyte K_ATP channels as a function of age, in newborn, 4-, 12- and 24-month old rats. Nicorandil exerted an anti-oxidant and protective action on cardiomyocyte K_ATP channels, especially in aged animals, leading to restoration of a normal channel activity. These findings could justify further therapeutical applications.     

Genistein, a phytoestrogen, attenuates monocrotaline-induced pulmonary hypertension

BACKGROUND: Pulmonary hypertension is characterized by high pulmonary blood pressure, vascular remodeling, and right ventricular hypertrophy. Although recent studies suggest that an imbalance between endothelial mediators on pulmonary vasculature may contribute to the development of pulmonary hypertension, the pathogenesis is not fully understood and the treatment of pulmonary hypertension is still unresolved. OBJECTIVE: The purpose of this study was to investigate whether genistein, a phytoestrogen derived from soybean, would prevent the development of monocrotaline (MCT)-induced pulmonary hypertension in rats. Hemodynamic parameters of catheterized rats and morphological feature of lungs were evaluated among MCT-treated rats receiving or not receiving genistein. Furthermore, examination of expression in endothelial nitric oxide synthase and endothelin-1 peptide level was performed. METHODS: Daily supplementation with either genistein (0.2 mg/kg) or vehicle was started 2 days prior to a single-dose injection of MCT (60 mg/kg). On day 28, rats underwent catheterization, and right ventricular hypertrophy and morphological features were assessed. Furthermore, endothelial nitric oxide synthase and endothelin-1 were examined by Western blot analysis and radioimmunoassay, respectively, in homogenated lungs. RESULTS: In rats that received daily supplementation of genistein, mean pulmonary arterial pressure was significantly reduced, whereas mean systemic arterial pressure and heart rate were unaltered compared with MCT control rats on day 28 after MCT injection. Right ventricular hypertrophy, medial wall thickness of pulmonary arteries corresponding to the terminal bronchioles, and the degree of neo-muscularization of more distal arteries were less severe in genistein-treated rats. Genistein supplementation improved MCT-induced downregulation of expression of endothelial nitric oxide synthase in the lungs. However, endothelin-1 peptide levels did not differ among all groups of lungs. CONCLUSIONS: We conclude that daily supplementation of genistein potently attenuates MCT-induced pulmonary hypertension, right ventricular hypertrophy, and pulmonary vascular remodeling in rats. The underlying mechanism responsible for this effect may be partly related to the restoration of a decreased expression of endothelial nitric oxide synthase.     

Endothelial, inducible and neuronal nitric oxide synthase in congenital pulmonary lymphangiectasis.

Abnormal growth and development of lymphatic pulmonary structures leads to severe hypoxia in congenital pulmonary lymphangiectasis (CPL). This case study aims to determine the cellular source and topographical distribution of the nitric oxide synthases in CPL. It studies the post mortem tissue of a term newborn with the clinical course and histological findings of CPL and three controls without pulmonary pathology. It was found that endothelial cells of pulmonary arteries and lymphatic structures stained significantly more for endothelial nitric oxide synthase protein in the CPL patient compared to the controls. The authors conclude that synthesis of endothelial nitric oxide synthase is upregulated in vascular and lymphatic endothelial cells in congenital pulmonary lymphangiectasis.     

Abnormal vascular responses in human chronic cardiac failure are both endothelium dependent and endothelium independent

Objective—To study underlying vascular responses in chronic heart failure in patients without ACE inhibitor treatment, and to compare them with age matched controls.
Design—Forearm blood flow was studied using venous occlusion plethysmography in patients with chronic heart failure (n = 12) and matched controls (n = 13), after infusion of L-NMMA (a nitric oxide synthase inhibitor), glyceryl trinitrate (an endothelium independent vasodilator), and serotonin (an endothelium dependent vasodilator).
Results—L-NMMA produced significant vasoconstriction in normal subjects (forearm blood flow reduced by 24%), but not in patients (6%; difference between groups p < 0.03). The vasodilator responses to glyceryl trinitrate were impaired in patients (p < 0.02). In normal controls, serotonin produced initial dilatation, followed by vasoconstriction at high doses. In patients, no vasodilator responses were observed, only late vasoconstriction (p < 0.03).
Conclusions—The vascular responses of patients are confirmed as being abnormal. The lack of response to L-NMMA suggests that nitric oxide does not contribute to basal vascular tone in patients with chronic heart failure. The responses to glyceryl trinitrate and to serotonin suggest that there is both smooth muscle and endothelial dysfunction in patients with chronic heart failure.

Keywords: heart failure;  endothelium;  nitrates;  serotonin     

Intravenous sildenafil lowers pulmonary vascular resistance in a model of neonatal pulmonary hypertension

Persistent pulmonary hypertension secondary to meconium aspiration syndrome is an important cause of morbidity and mortality in the neonatal population. We investigated the use of the phosphodiesterase-5 inhibitor sildenafil, in its intravenous form, as a pulmonary vasodilator in a model of meconium aspiration syndrome. Pulmonary hypertension was induced in 18 piglets, by endotracheal instillation of human meconium, 6 piglets subsequently received an infusion of intravenous sildenafil for 2 hours, 6 received inhaled nitric oxide for 2 hours, and 6 control animals received no additional intervention. Meconium aspiration increased pulmonary vascular resistance by 70%, and increased oxygenation index by over 100%. Pulmonary vascular resistance remained elevated for the remainder of the study period in control animals. Inhaled nitric oxide reduced the pulmonary vascular resistance by 40% after 2 hours of treatment; intravenous sildenafil completely reversed the increase in pulmonary vascular resistance within 1 hour of commencing the infusion. Neither agent had an effect on systemic hemodynamics. Sildenafil also increased cardiac output by 30%, but while doing so did not adversely influence oxygenation. Intravenous sildenafil is a selective and highly effective pulmonary vasodilator, which is at least as effective as inhaled nitric oxide, in this model of neonatal persistent pulmonary hypertension.     

Beneficial vasoactive endothelial effects of fluvastatin: focus on prostacyclin and nitric oxide

Statins are believed to exert beneficial effects against cardiovascular disease beyond correction of dyslipidemia. There are however still very sparse data on how individual statins interact with the production of vasoactive eicosanoids and nitric oxide (NO) in human vascular endothelial cells. Here we have determined how fluvastatin affects the mRNA expression of genes associated with vascular reactivity as well as the formation of two major vasodilators, prostacyclin (PGI₂) and NO, in human endothelial cells. Also, the influence of fluvastatin on arterial resistance was assessed in isolated small arteries. We show that the promoter activity of prostacyclin synthase (PTGIS), the mRNA expression of PTGIS and endothelial nitric oxide synthase (eNOS), and the production of PGI₂ and NO are significantly induced by fluvastatin. Also, strong rapid dilatation ex vivo was observed, with the equal contribution of PGI₂ and NO. Our findings in cell culture experiments and in isolated human arteries indicate that fluvastatin-evoked endothelium-derived vasodilator production may confer protection of the endothelial cells via both acute and long-term effects of fluvastatin treatment. If these effects take place in vivo, we suggest a protective pleiotropic role of fluvastatin on the cardiovascular system, particularly at the level of the vascular endothelium, to ameliorate the process of atherogenesis and in the acute manner to reduce vascular tone.     

Melatonin modulates the fetal cardiovascular defense response to acute hypoxia

Experimental studies in animal models supporting protective effects on the fetus of melatonin in adverse pregnancy have prompted clinical trials in human pregnancy complicated by fetal growth restriction. However, the effects of melatonin on the fetal defense to acute hypoxia, such as that which may occur during labor, remain unknown. This translational study tested the hypothesis, in vivo, that melatonin modulates the fetal cardiometabolic defense responses to acute hypoxia in chronically instrumented late gestation fetal sheep via alterations in fetal nitric oxide (NO) bioavailability. Under anesthesia, 6 fetal sheep at 0.85 gestation were instrumented with vascular catheters and a Transonic flow probe around a femoral artery. Five days later, fetuses were exposed to acute hypoxia with or without melatonin treatment. Fetal blood was taken to determine blood gas and metabolic status and plasma catecholamine concentrations. Hypoxia during melatonin treatment was repeated during in vivo NO blockade with the NO clamp. This technique permits blockade of de novo synthesis of NO while compensating for the tonic production of the gas, thereby maintaining basal cardiovascular function. Melatonin suppressed the redistribution of blood flow away from peripheral circulations and the glycemic and plasma catecholamine responses to acute hypoxia. These are important components of the fetal brain sparing response to acute hypoxia. The effects of melatonin involved NO‐dependent mechanisms as the responses were reverted by fetal treatment with the NO clamp. Melatonin modulates the in vivo fetal cardiometabolic responses to acute hypoxia by increasing NO bioavailability.     

Maturational changes of endothelial vasoactive factors and pulmonary vascular tone at birth.

The aim of this study was to determine which endothelial factors were involved in the decrease of pulmonary vascular resistance at birth, and how they changed with maturation. Response of intrapulmonary artery rings precontracted with prostaglandin F2alpha were studied from piglets aged <2 h, 2-3 day, 10 day and adult pigs for pharmacological responses to acetylcholine (ACh) and cromakalim (CMK) in the presence and the absence of the nitric oxide synthase (NOS) inhibitor, N(omega)-nitro-L-arginine (L-NA), the adenosine triphosphate sensitive potassium (K(ATP)) channel blocker, glibenclamide and the endothelin (ET)-A receptor antagonist, BQ123. In situ hybridization and immunochemistry studies were performed in lung tissues of the same animals in order to determine the expression of NOS and ET. There was a small contractile effect of ACh in the newborn. Relaxation to ACh, which was blocked by L-NA and reduced by glibenclamide, only appeared from the age of 3 days. The significantly greater relaxation to CMK in rings without endothelium (p<0.05) was abolished by BQ123 in the newborn, and then disappeared by 2 days of age. Glibenclamide had a greater inhibitory effect on relaxation induced by CMK at 10 days than in the newborn and 2 days old piglets. NOS expression was low in pulmonary arteries of the newborn and increased by 2 days of age whereas the converse was seen with ET expression. It is concluded that: 1) relaxant response to acetylcholine was absent at birth and appeared at 2 days; 2) the reduced relaxant response to cromakalin in rings with endothelium at birth could be blocked by BQ123; and 3) the expression of endothelin decreased whereas the expression of nitric oxide synthase increased from birth to 2 days of age.     

The cGMP-specific phosphodiesterase inhibitor E4021 dilates the pulmonary circulation.

We investigated the pulmonary vascular effects of E4021, a potent inhibitor of cGMP-specific phosphodiesterase, in control late-gestation fetal lambs, and in newborn lambs with persistent pulmonary hypertension (PPHN) after prenatal ligation of the ductus arteriosus. E4021 alone significantly relaxed fifth-generation pulmonary arteries isolated from control fetal lambs, an effect completely blocked after inhibition of nitric oxide synthase (NOS). In contrast, E4021 did not relax pulmonary arteries isolated from hypertensive lambs. Pretreatment with E4021 (10(-7) M) significantly enhanced relaxations to the NO donor S-nitrosyl-acetyl-penicilamine (SNAP) in arteries from both control and hypertensive lambs. In control, fully instrumented fetal lambs, infusions of E4021 (31 microgram/min) selectively dilated the pulmonary circulation, an effect again blocked after inhibition of NO synthase. Further studies were performed in newborn lambs with PPHN to study the vascular effects of E4021 alone, and in combination with inhaled NO. E4021 alone (1 to 100 microgram/kg/min) decreased pulmonary artery pressure (Ppa) in a dose-dependent fashion, and had minimal effect on systemic pressure. At the highest dose (100 microgram/kg/min), the dilation was selective for the pulmonary circulation. In subsequent protocols, E4021 (10 microgram/kg/min) significantly decreased Ppa and pulmonary vascular resistance (PVR), but these pulmonary vascular effects were not enhanced after NO inhalation at 0.5 or 5 ppm. We speculate that the lack of enhancement was due to the dramatic effects of E4021 alone. Potent, specific phosphodiesterase inhibitors such as E4021 may prove to be useful in the treatment of PPHN.     

Primary pulmonary hypertension during pregnancy: A case report

We describe a case of a 25-year-old pregnant woman who presented with severe primary pulmonary hypertension (PPH). Her echocardiogram showed severe right ventricular hypertrophy with dilatation and Moderate right ventricular systolic dysfunction. Right ventricle systolic pressure (RVSP) was estimated to be 125 mmHg. She had an elective caesarean section under general anaesthesia at 32 weeks of gestation. Pulmonary artery pressures measured by a pulmonary artery catheter before anaesthesia were 102 mmHg and pulmonary vascular resistance was 429. Intraoperative nitric oxide was used to reduce pulmonary artery systolic pressure (PASP). After the delivery of a healthy infant, PASP was controlled with nebulized iloprost and silandifil. Five days later she was transferred from intensive care unit after she was started on silandifil 50 mg three times daily and a small dose of warfarin.     

Chronic hypoxia inhibits the antihypertensive effect of melatonin on pulmonary artery

Exposure of animals to chronic hypoxia induces pulmonary vascular remodeling leading to pulmonary hypertension. Melatonin, the principal hormone of the pineal gland, is known to have an inhibitory effect on rat vascular reactivity. This study examined the effect of chronic hypoxia on the influence of melatonin on the vasoreactivity of the pulmonary artery. The inhibitory effect of melatonin on the phenylephrine-induced constriction in normoxia-adapted rings (101.5+/-4% versus 82.2+/-4%) in the presence or absence of melatonin, respectively) was lost following chronic hypoxic treatment (100.2+/-4% versus 102.2+/-2%) and this effect was independent of the endothelium. Melatonin also significantly enhanced the relaxant response to acetylcholine of the pulmonary arterial rings from normoxic rats (34.76+/-5.67% versus 53.82+/-4.736%) in the absence or presence of melatonin, respectively). In contrast, melatonin had no significant effect (21.71+/-1.37% versus 23.51+/-6.891%) on the relaxant response to acetylcholine of the pulmonary arterial rings from chronic hypoxia-adapted rats. Pre-treatment with melatonin (10(-4) M) showed no significant effect on the vasorelaxation by the nitric oxide donor; sodium nitroprusside (10(-7)-10(-5) M). The melatonin-induced changes were blocked by the melatonergic-receptor antagonist luzindole (2x10(-6) M). The results from our study confirm the presence of melatonergic receptors on the pulmonary trunk of rats and also suggest that the modulatory role of melatonin on the vasoreactivity of pulmonary trunk does not involve the nitric oxide pathway. Most importantly, our results show that development of pulmonary hypertension in rats is associated with the loss of the vasorelaxant influence of melatonin.     

Ouabain treatment increases nitric oxide bioavailability and decreases superoxide anion production in cerebral vessels

OBJECTIVE: Chronic administration of ouabain induces hypertension and increases the contribution of nitric oxide to vasoconstrictor responses in peripheral arteries. The aim of this study was to analyse whether ouabain treatment alters the nitric oxide bioavailability in cerebral arteries. METHODS: Basilar arteries from control and ouabain-treated rats ( approximately 8.0 microg/day, 5 weeks) were used. Vascular reactivity was analysed by isometric tension recording, protein expression by western blot, nitric oxide levels by diaminofluorescein-induced fluorescence, superoxide anion (O2) production by ethidium fluorescence and lucigenin chemiluminescence and plasma total antioxidant status by a commercial kit. RESULTS: The relaxations induced by bradykinin (1 nmol/l-10 micromol/l) and L-arginine (0.01-300 micromol/l) and the contractile responses induced by both N-nitro-L-arginine methyl ester (0.1-100 micromol/l) and oxyhaemoglobin (0.01-10 micromol/l) were greater in arteries from ouabain-treated than control rats. However, the relaxation to diethylamine NONOate-nitric oxide (0.1 nmol/l-10 micromol/l) and the contractions to KCl (7.5-120 mmol/l) and 5-hydroxytryptamine (0.01-10 micromol/l) were similar in arteries from both groups. Ouabain treatment increased basal nitric oxide levels but did not modify endothelial and neuronal nitric oxide synthase protein expression. O2 production was lower in cerebral arteries from ouabain-treated rats; however, plasma total antioxidant status and vascular protein expression of Cu/Zn-superoxide dismutase, Mn-superoxide dismutase and extracellular superoxide dismutase were similar in both groups. CONCLUSION: Chronic ouabain treatment increased nitric oxide basal levels in basilar arteries probably due to the decreased O2 levels. This might be an adaptive mechanism of the cerebral vasculature to the increase in blood pressure.