Decreased expression of myocardial eNOS and caveolin in dogs with hypertrophic cardiomyopathy.

Because nitric oxide (NO) regulates cardiac and vessel contraction, we compared the expression and activity of the endothelial NO synthase (eNOS) and caveolin, which tonically inhibits eNOS in normal and hypertrophic cardiomyopathic hearts. NOS activity (L-[(3)H]citrulline formation), eNOS immunostaining, and caveolin abundance were measured in heart tissue of 23 mongrel dogs before and at 3 and 7 wk of perinephritic hypertension (PHT). Hemodynamic parameters in vivo and endothelial NO-dependent relaxation of macro- and coronary microvessels in vitro were assessed in the same animals. eNOS immunostaining and total calcium-dependent NOS activity decreased at 7 wk in all four heart cavities (in left ventricle, from 17.0 +/- 1.3 to 0.2 +/- 0.2 fmol. min(-1). mg protein(-1), P < 0.001). Caveolin-1 and -3 also decreased in PHT dog hearts. Accordingly, basal vascular tone was preserved, but maximal endothelial NO-dependent relaxation was impaired in all vessels from 7-wk PHT dogs. The latter had preserved systolic function but impaired diastolic relaxation [relaxation time constant (T(1)), 25.1 +/- 0.9 vs. 22.0 +/- 1 ms in controls; P < 0.05]. Peripheral infusion of the NOS inhibitor N(G)-nitro-L-arginine methyl ester increased mean aortic pressure in both groups and reduced diastolic (T(1), 31.9 +/- 1.4 ms) and systolic function in PHT dogs (DP40, 47.5 +/- 2.5 vs. 59.4 +/- 3.8 s(-1) in control animals). In conclusion, both eNOS and caveolin proteins are decreased in the hypertrophic hearts of PHT dogs. This is associated with altered maximal (but not basal) vascular relaxation and impaired diastolic function. Further degradation of cardiac function after NOS inhibition suggests a critical role of residual NOS activity, probably supported by the concurrent downregulation of caveolin.

Cardiovascular effects of beta 3-adrenoceptor stimulation in perinephritic hypertension.

BACKGROUND: A new beta 3-adrenoceptor (beta3-AR) has been shown to mediate peripheral vasodilation. This study was conducted to evaluate effects of the beta3-AR agonist, SR58611 in normal and hypertensive dogs. MATERIALS AND METHODS: In protocol 1, SR58611 was infused in normal dogs after placebo, after beta1/beta2 blockade with nadolol, after beta1/beta2/beta3 blockade with bupranolol and after combined autonomic blockade (CAB). In protocol 2, perinephritic hypertension was produced in dogs, which received SR58611 at 3 and 6 weeks of hypertension. Effects of SR58611 were evaluated at 7 weeks of hypertension after CAB. RESULTS: In normal dogs, SR58611 produced a dose-dependent decrease in mean aortic pressure (AOP) (from 116 +/- 19 to 100 +/- 19 mmHg, - 14%; P < 0.05) that was accompanied by baroreflex activation (heart rate increased by 70%; P < 0.01). This hypotensive effect resulting from peripheral vasodilation persisted after nadolol or CAB while baroreflex activation was blunted or abolished. A biphasic response of cardiac output, characterized by a rise and a decline (P < 0.05) reflected a reduction in after- and pre-load. After CAB, SR58611 did not modify cardiac contractility. SR58611 stimulated lipolysis as reflected by a 4-fold increase in blood free fatty acids (FFA) (P < 0.0005). Under CAB, the rise of FFA was reduced (P < 0.01). In hypertensive dogs, SR58611 produced a dose-dependent decrease in mean AOP (from 168 +/- 32 to 125 +/- 35 mmHg; - 26%, P < 0.0001), that was greater than in normal dogs (P < 0.05). Reflex-mediated tachycardia also occurred but at higher blood pressure values. Blood FFA rose similarly (P < 0.0001). Under CAB, heart rate remained unchanged but SR58611 still induced a decrease (P < 0.0001) in mean AOP concomitantly with a rise of (dP/dt)/DP40 (P < 0.005), an effect not observed in normal dogs. CONCLUSIONS: Beta3-AR stimulation exerts hypotensive effects, increases cardiac contractility and stimulates lipolysis in hypertensive dogs.

Cardiac and hemodynamic effects of intravenous dofetilide in patients with heart failure.

This study assesses the effects of dofetilide, a new selective Ikr blocker with class III properties, on left ventricular function and hemodynamics of heart failure and compares these effects with those of placebo and amiodarone. Because available antiarrhythmic drugs may depress myocardial performance, an invasive hemodynamic study was performed to assess the safety of this agent. Hemodynamic and angiographic data were obtained at baseline and after 30 minutes of double-blind infusion of dofetilide (8 microg/kg; n = 12), placebo (n = 12), or amiodarone (5 mg/kg; n = 6) in heart failure patients (New York Heart Association class II or III, ejection fraction <35%). Intravenous dofetilide preserved the inotropic indexes and the end-systolic volume index despite a slight but significant decrease in heart rate, whereas intravenous amiodarone increased end-diastolic and end-systolic volume indexes. Amiodarone induced a negative inotropic effect illustrated by a rightward shift of the pressure-volume loop and a reduction in pressure-derived indexes of contractility. Intravenous dofetilide acutely prolonged QT interval more than intravenous amiodarone; however, dofetilide did not slow the overall relaxation rate and reduced QT dispersion. In an acute setting, compared with intravenous amiodarone, intravenous dofetilide preserves cardiac function offering a hemodynamic advantage to treat arrhythmias in patients with impaired left ventricular function.

Carvedilol and lacidipine prevent cardiac hypertrophy and endothelin-1 gene overexpression after aortic banding.

Carvedilol and lacidipine have been shown to exert cardioprotective effects in rat models of chronic hypertension. We investigated their effects in an acute model of pressure overload produced by suprarenal aortic constriction, in which enhanced myocardial production of endothelin-1 could play a crucial role. In the absence of drug treatment, after 1 week, aortic banding provoked an increase in carotid pressure associated with left ventricular hypertrophy (29%; P<0.01). These changes were accompanied by increased myocardial expression of preproendothelin-1 (2.5 times; P<0.05) and skeletal alpha-actin (3.6 times; P<0.05), but the expression of cardiac alpha-actin was not modified. Oral administration of carvedilol at a dose of 30 mg. kg(-1). d(-1) to rats with aortic banding normalized carotid pressure and left ventricular weight as well as preproendothelin-1 and skeletal alpha-actin gene expression. Carvedilol at a lower dose (7.5 mg x kg(-1) x d(-1)) and lacidipine 1 mg x kg(-1) x d(-1) had only moderate and nonsignificant effects on carotid pressure but largely prevented left ventricular hypertrophy (P<0.01) and preproendothelin-1 overexpression (P<0.05). Labetalol (60 mg x kg(-1) x d(-1)) tended to exert similar effects but insignificantly. These results show that the antihypertrophic properties of carvedilol and lacidipine are partly independent of their antihypertensive effects and may be related to their ability to blunt myocardial preproendothelin-1 overexpression. Moreover, carvedilol at a dose of 7.5 mg x kg(-1) x d(-1) did not prevent myocardial overexpression of skeletal alpha-actin, which suggests that, in this model, reexpression of a fetal gene can be activated by pressure overload independently of cardiac hypertrophy.

Endothelin-1 receptor antagonism does not influence myocardial function in hypertensive dogs.

BACKGROUND: As endothelin-1 exerts positive inotropic effects, the present study evaluated whether the hypotensive effects of the endothelin-1 receptor antagonist bosentan were partially related to a decrease in myocardial performance. METHODS: In group I, eight anaesthetized open-chest dogs with perinephritic hypertension received four cumulative doses of bosentan (B1-B4). In group II, eight animals received the same doses of bosentan after autonomic blockade. Indices of heart function were derived from the pressure-length loops obtained during vena cava occlusion. RESULTS: In group I, bosentan decreased left ventricular systolic pressure (LVSP) and mean aortic pressure (MAP) dose dependently, reaching 21% and 23% respectively at B4 (LVSP from 190 +/- 8 to 150 +/- 5 mmHg, P < 0.001; MAP from 167 +/- 7 to 128 +/- 5 mmHg, P < 0.001). These effects were only related to peripheral vasodilatation, without depression of myocardial contractility, as systemic vascular resistance dropped (from 670 +/- 83 to 446 +/- 53 mmHg mL-1 min-1 x 10(4); P < 0.05), and the end-systolic pressure-length relationship (ESPLR) remained unchanged (4.0 +/- 0.4 vs. 4.3 +/- 0.7 mmHg mm-1 kg-1). Concomitantly with pressure decline, heart rate tended to increase in this group (from 150 +/- 4 to 156 +/- 6 beats min-1). When autonomic system was blocked (group II), administration of bosentan induced similar hypotensive effects as in group I (26% and 28% reduction in LVSP and MAP respectively, P < 0.001) whereas ESPLR did not change (3.0 +/- 0.9 vs. 3.1 +/- 0.5mmHg-1 mm kg-1 ). Under these sympathetically blocked conditions, heart rate significantly fell after bosentan infusion (from 120 +/- 4 to 110 +/- 6 beats min-1, P < 0.001). CONCLUSIONS: Without influencing heart function, bosentan is an efficient and safe therapy that opens up new therapeutic perspectives in human essential hypertension.

Angiotensin II and endothelin-1 receptor antagonists have cumulative hypotensive effects in canine Page hypertension.

OBJECTIVE: To evaluate whether the cumulative hypotensive effect of the endothelin-1 receptor antagonist bosentan, previously demonstrated in the presence of an angiotensin converting enzyme inhibitor, persists under angiotensin II receptor blockade with losartan. DESIGN: The model of hypertension was canine renovascular hypertension (Page hypertension). METHODS: Ten conscious dogs, studied on two occasions, were administered losartan (a 0.1 mg/kg bolus plus 90 min infusion at 0.1 mg/kg per min) and then bosentan vehicle (experiment I) or losartan and then two cumulative doses of bosentan (a 0.3 mg/kg bolus plus 30 min infusion at 0.7 mg/kg per min; and a 3 mg/kg bolus plus 30 min infusion at 7 mg/kg per min; experiment II). RESULTS: At the end of the study, mean aortic pressure in dogs had decreased by 14% in experiment I (from 139 +/- 4.7 to 119 +/- 4.7 mmHg, P<0.05), whereas a 28% reduction occurred in experiment II (from 145 +/- 8.9 to 104 +/- 5.0 mmHg, P<0.005), corresponding to an additional 14% decrease after administration of bosentan (P<0.005 between groups). This cumulative effect of bosentan was related to a decrease in systemic vascular resistance (from 1220 +/- 119 to 847 +/- 189 mmHg/ml per min per kg x 10(3), P<0.05). Plasma angiotensin II level increased similarly in both experiments (in experiment I from 133 +/- 43 to 622 +/- 145 pg/ml, P=0.01; in experiment II from 198 +/- 63 to 771 +/- 134 pg/ml, P<0.005) whereas plasma endothelin-1 level increased only in experiment II (from 3.8 +/- 0.4 to 32.7 +/- 3.2 pg/ml, P<0.001). CONCLUSION: The cumulative hypotensive effect of bosentan suggests that, besides angiotensin II, endothelin-1 is independently involved in the pathophysiology of hypertension, which presents new therapeutic perspectives.

Dose-related hemodynamic and electrocardiographic effects of the calcium promoter BAY y 5959 in the presence or absence of congestive heart failure.

OBJECTIVES: The aim of this study was to assess the cardiovascular effects of BAY y 5959, a calcium promoter modulating myocardial calcium channels, in the presence or absence of congestive heart failure. BACKGROUND: There is still a clinical need for short-term administration of intravenous positive inotropes. BAY y 5959 was developed as a new approach to increase myocardial performance by selectively enhancing calcium influx in the myocytes. METHODS: Forty-one patients (21 without and 20 with congestive heart failure) were studied in an open label, dose-ranging study. Hemodynamic variables (including left ventricular [LV] angiography) and plasma samples were obtained at baseline and after 20 min of intravenous infusion of BAY y 5959 at doses ranging from 0.25 to 4.5 microg/kg body weight per min. RESULTS: In both study groups, BAY y 5959 produced dose-dependent increases in the indexes of inotropic state, without affecting isovolumetric relaxation rate. The magnitude of the response was comparable in patients with or without heart failure (average 38% increase in maximal first derivative of LV pressure [dP/dt max] at plasma levels of 100 microg/liter). BAY y 5959 also induced mild but statistically significant bradycardia and significantly decreased end-systolic volume while producing a leftward shift of the pressure-volume loop. Mean aortic pressure was unaffected at doses up to 3.0 microg/kg per min, and cardiac index improved in patients with heart failure at doses of 2.0 microg/kg per min (+23%, p < 0.05). However, at a dose of 4.5 microg/kg per min, mean aortic pressure and LV systolic wall stress increased, suggesting systemic vasoconstriction. The QT interval was also prolonged significantly at most doses. CONCLUSIONS: BAY y 5959 exhibits positive inotropic effects in patients with and without heart failure. The optimal response--combining bradycardia, reduced preload and improved cardiac output--appeared to be achieved at a dose of approximately 2.0 microg/kg per min. The impact of QT prolongation with regard to potential antiarrhythmic or proarrhythmic effects is unclear at this time.

Additional hypotensive effect of endothelin-1 receptor antagonism in hypertensive dogs under angiotensin-converting enzyme inhibition.

BACKGROUND: Endothelin-1 (ET-1) may play a role in hypertension. ET-1 receptor antagonism by bosentan lowers blood pressure in hypertension. We evaluated whether the effect of bosentan is still observed under ACE inhibitors (ACEI). METHODS AND RESULTS: Thirty anesthetized and 18 conscious hypertensive dogs were studied randomly. Anesthetized dogs were divided into 4 groups: group 1 received cumulative doses of bosentan (bolus+30-minute infusion: 0.1 mg/kg+/-0.23 mg/kg per hour to 3 mg/kg+/-7 mg/kg per hour); group 2, the same dose-responses after 1 mg/kg enalaprilat; group 3, the vehicle after enalaprilat; and group 4, the dose responses to bosentan followed by enalaprilat. The conscious dogs were divided into 3 groups: group 5 received 2 cumulative doses of bosentan; group 6, the vehicle; and group 7, enalaprilat alone. In groups 1 and 2, bosentan produced dose-related decreases (P=.0001) in left ventricular systolic pressure and mean aortic pressure (AOP). In group 1, bosentan decreased mean AOP by 22%. In group 2, enalaprilat decreased mean AOP by 25% (from 173+/-26 to 130+/-25 mm Hg; P<.005); an additional 18% decrease was obtained with bosentan, the mean AOP reaching 98+/-21 mm Hg (P<.01). In group 3, the effect of enalaprilat alone was a 22% decrease in mean AOP (P<.005). The additive effect of the bosentan-ACEI association was also observed in group 4. In group 5, bosentan reduced mean AOP by 20% (P<.005), whereas mean AOP remained unchanged in group 6. The effect of ACEI alone (group 7) was similar to that of bosentan. CONCLUSIONS: Bosentan produces an additional hypotensive effect to that of ACEI, which opens new therapeutic perspectives.

Adrenomedullin: view on a novel vasodilatory peptide with natriuretic properties.

Although initially described in human pheochromocytoma, adrenomedullin has been isolated in several animal and human peripheral organs, including cardiovascular tissues. In experimental models, adrenomedullin exerts potent vasodilatory and natriuretic properties which could participate to maintain physiological cardiovascular and renal homeostasis. Whether adrenomedullin is powerful in humans remains to be proven. On the basis of increased plasma levels in hypertension and heart failure, adrenomedullin is suspected to contribute to the pathogenesis of these diseases. A reduced clearance is another possibility but has not yet been investigated in these pathological states. Finally, the ubiquitous distribution of adrenomedullin suggest various other biological activities that need to be established in future.