Mortality after coronary artery occlusion in different models of cardiac hypertrophy in rats

Chronic treatment with minoxidil induces cardiac trophic and sympathetic responses, which may increase the propensity for lethal arrhythmias. To test this hypothesis, acute coronary artery occlusion was performed in conscious normotensive rats treated for 2 or 5 weeks with minoxidil with the use of a 2-stage approach to cause a myocardial infarction. For comparison, rats with aortocaval (A-V) shunts and spontaneously hypertensive rats (SHR) were studied. Minoxidil increased left ventricular and right ventricular weights by 15% to 20%, and the A-V shunt increased these weights by 30% to 40%. In SHR, left ventricular weight was increased by 50%, and right ventricular weight was increased by 25%. In rats treated with minoxidil for 5 weeks, coronary artery occlusion caused a rapid and marked mortality, and 4 hours after myocardial infarction, only 18% of these rats were alive versus 61% of the control rats. In rats with the A-V shunt, coronary artery occlusion was also associated with increased mortality, and after 6 hours, 33% were still alive compared with 59% of the control rats. In contrast, SHR with marked hypertension and cardiac hypertrophy showed only a minor increase in mortality (survival rates were 53% versus 60% in SHR versus Wistar-Kyoto rats, respectively). Mortality was preceded by high arrhythmia scores, and ventricular fibrillation was the cause of death. Discontinuation of minoxidil for 1 week, sympathetic blockade with nadolol or clonidine, or blockade of the renin-angiotensin system with enalapril or losartan did not improve minoxidil-induced excess mortality. We conclude that ventricular stretch and other mechanisms (eg, cardiac vagal activity) in rats appear to be more potent than hypertension-induced left ventricular hypertrophy in predisposing for lethal arrhythmias in the setting of acute ischemia.     

Time-course of changes in cardiac hypertrophy and pressor mechanisms in two-kidney, one clip hypertensive rats during treatment with minoxidil, enalapril or after uninephrectomy

In rats with severe two-kidney, one clip (2-K,1C) hypertension the time-course of changes in left and right ventricular (LV and RV) weight and LV dimensions was assessed following initiation of chronic treatment with minoxidil, enalapril or removal of the clipped kidney in relation to changes in blood pressure (BP) and sympathetic activity, as well as plasma and blood volumes. Minoxidil decreased BP markedly, but tolerance to the antihypertensive effect developed after 2-3 weeks. In contrast, enalapril or uninephrectomy caused a rapid and persistent normalization of BP. Significant increases in LV and RV weight occurred after 3-5 weeks of treatment with minoxidil. Left ventricular wall thickness decreased over the initial 1-2 weeks and then returned to untreated levels. Left ventricular internal dimensions showed an increase after 1-2 weeks of minoxidil, which persisted with more prolonged treatment. With enalapril, regression to normal occurred for both LV and RV weight within 1 week of treatment. Following uninephrectomy a more gradual regression took place and normal cardiac weight was not obtained until 3 weeks. Indices of sympathetic activity (plasma catecholamines, BP response to hexamethonium or heart rate) did not differ significantly in minoxidil treatment versus untreated hypertensive rats from 2 to 35 days of treatment. A significant increase in heart rate was found after 1 day of minoxidil and a decrease after enalapril. Plasma and blood volumes were elevated in minoxidil-treated rats from 7 to 35 days, as well as initially after uninephrectomy. Therefore, in 2-K, 1C hypertensive rats long-term treatment with minoxidil induces both RV hypertrophy and LV eccentric hypertrophy. Changes in cardiac volume load may play a major role in the differing effects of different antihypertensive therapies on cardiac hypertrophy.     

Vasodilators and regression of left ventricular hypertrophy. Hydralazine versus prazosin in hypertensive humans

Long-term treatment of hypertensive rats with arterial vasodilators may further increase left ventricular hypertrophy. Since left ventricular hypertrophy may be an important determinant of outcome in hypertension, the long-term effects of arterial vasodilation with hydralazine on left ventricular mass and function were compared with those of an alternative third-line drug, the alpha1 blocker prazosin, in patients still hypertensive despite combined diuretic and beta blocker therapy. A single-blind, randomized, two-group parallel design was employed. Both treatments induced a sustained antihypertensive effect, with hydralazine showing more effect on supine blood pressure, and prazosin having more effect on standing pressure. Heart rate, cardiac output, and volume status showed only minor changes. Plasma norepinephrine showed a sustained increase when measured in both the supine and standing positions, but the increases were similar for the two treatments. Supine and standing plasma renin activity increased only during long-term treatment with hydralazine. Prazosin induced a progressive decrease in left ventricular mass over time (-34 +/- 15 g/m2 at 12 months), but hydralazine did not (-9 +/- 10 g/m2 after 12 months). Stepwise regression indicated that a decrease in systolic blood pressure was associated with a decrease in left ventricular mass with both treatments, but an increase in plasma norepinephrine was associated with an increase in left ventricular mass only with hydralazine, suggesting that increased sympathetic activity may affect left ventricular mass via cardiac alpha1 receptors. Thus, if regression of left ventricular hypertrophy is a worthwhile therapeutic goal, hydralazine and analogous arterial vasodilators are not drugs of choice.     

Pumping ability of the hypertrophying left ventricle of the spontaneously hypertensive rat.

Cardiac pumping ability was assessed during the natural development of left ventricular hypertrophy by elevating venous pressure by infusing Tyrode's solution intravenously to produce peak cardiac output. This experiment was performed on spontaneously hypertensive rats (SHR) of three age groups (11, 24, and 83 weeks). From 11 to 24 weeks, peak cardiac output of SHR increased in direct proportion to the abnormally increased ventricular mass; Thus peak cardiac output per gram of left ventricle (LV) remained stable. Similar results were obtained for two strains of normotensive rats at each of the same three age groups. Thus, in the normotensive animal peak cardiac output per gram of LV remained stable over a wide range of ages and varying left ventricular weights. However, with progressive elevation of arterial pressure in aging SHR (83 weeks), we observed severe ventricular hypertrophy (100% increases in left ventricular to body weight ratio). In this oldest SHR group, unlike age-matched normotensive rats, there was a marked reduction in the pumping ability per gram of LV. Thus, during the natural development of left ventricular hypertrophy SHR demonstrated both a stable stage of hypertrophy in which the increased left ventricular mass maintained its pumping ability, and a later stage of deterioration in which there was a loss of the normal relationship between ventricular mass and pumping ability.     

Cardiac dimensions in spontaneously hypertensive rats following different modes of blood pressure reduction by antihypertensive treatment

The present study examined changes in left ventricular design in spontaneously hypertensive (SHR) and normotensive Wistar-Kyoto (WKY) rats in response to different types of antihypertensive therapy. Blood pressure was reduced for 12 weeks by either peripheral vasodilators [hydralazine or felodipine (calcium antagonist)] or by sympatholytic drugs (alpha-methyldopa or metoprolol). End diastolic volumes (EDV) were obtained in vitro by determining the diastolic pressure-volume relationships of isolated perfused hearts, arrested in diastole by excluding calcium from the perfusate. Wall thickness (w) and internal radius (ri) were calculated from a ventricle considered as a spherical model. Compared with WKY, untreated SHR had elevated EDV and w. Vasodilator therapy, particularly felodipine, increased EDV but reduced w, while sympatholytic therapy with alpha-methyldopa reduced EDV in SHR. It is suggested that cardiac design is affected not only by the prevailing arterial pressure level which will affect w, but also by the haemodynamic situation. Vasodilators turn such a situation into one characterized by increased cardiac output and hence increased cardiac filling, whereas sympatholytic drugs by venodilatation will turn the haemodynamic situation towards a state characterized by reduced cardiac filling. Left ventricular EDV (ri) therefore seems to adapt to long-term filling conditions, while w adapts to bring w:ri ratio in balance with the pressure load.     

Immunoreactive atrial natriuretic peptide in ventricles, atria, hypothalamus, and plasma of genetically hypertensive rats

To evaluate the role of extra-atrial atrial natriuretic peptide (ANP) in volume and blood pressure regulation, the plasma, atrial, ventricular, and hypothalamic levels of immunoreactive atrial natriuretic peptide (IR-ANP) were measured simultaneously in the spontaneously hypertensive rats (SHR) and Wistar-Kyoto rats (WKY) at the ages of 2, 6, and 12 months. Plasma IR-ANP in the 12-month-old, conscious SHR was significantly higher than that of the WKY (300 +/- 18 versus 200 +/- 20 pg/ml, p less than 0.05, n = 9), while no differences in plasma IR-ANP levels were found between the strains in younger rats. Acute volume expansion with saline (1.1 ml/100 g body wt) in hypertensive as well as in normotensive rats resulted in marked increases in right atrial pressure and plasma IR-ANP concentration. The older SHR had attenuated ANP release to volume loading as shown by the shift of the ANP versus right atrial pressure curve to the right. Right auricular IR-ANP concentration decreased, while that of left auricle increased with increasing age in both strains. No substantial differences were noted in auricular ANP concentration between SHR and WKY. However, the total atrial IR-ANP content (micrograms/atria) was consistently lower in SHR compared with WKY. In both ventricles, IR-ANP concentrations and contents increased with increasing age in WKY and SHR, but the ventricular levels of ANP were reduced in ventricles of the SHR heart compared with normotensive controls. The depletion of total ventricular IR-ANP was greatest in SHR with greatest ventricular hypertrophy and coincided with the attenuated ANP release to acute volume load. The increase of left but not right ventricular weight occurring secondary to 6 weeks minoxidil treatment was accompanied by higher ANP concentration in both strains. In contrast to the ventricles, the hypothalamic IR-ANP concentration was significantly increased in SHR compared with that of WKY and decreased in both strains after 6 weeks' treatment with antihypertensive drugs. Thus, ventricular and hypothalamic, as well as atrial, ANP respond to increased pressure overload in genetically hypertensive rats. Our results suggest that chronic stimulation of ANP release from ventricles is associated with depleted stores of ANP from both ventricles and reduced response to acute volume load. Our findings that ventricular ANP increased with increasing weight and in response to a hypertrophic stimulus in WKY and was decreased in SHR with severe ventricular hypertrophy suggest that ANP may locally have an inhibitory effect on the development of cardiac hypertrophy.     

Vascular remodeling and improvement of coronary reserve after hydralazine treatment in spontaneously hypertensive rats

The purpose of these studies was to evaluate cardiovascular structural and functional changes in a model of hypertension-induced myocardial hypertrophy in which vasodilator therapy decreased blood pressure to normal levels. Thus, we determined the separate contributions of hypertension and hypertrophy on myocardial and coronary vascular function and structure. Twelve-month-old spontaneously hypertensive rats (SHR) and normotensive Wistar-Kyoto rats (WKY) with and without 12 weeks of vasodilator antihypertensive treatment (hydralazine) were studied using an isolated perfused rat heart model. Hydralazine treatment normalized blood pressure in SHR but did not cause regression of cardiac hypertrophy (heart weight to body weight ratio of SHR + hydralazine 4.33 +/- 0.098 vs. SHR 4.66 +/- 0.091; WKY 3.21 +/- 0.092 and WKY + hydralazine 3.38 +/- 0.152; mean +/- SEM). Coronary flow reserve, elicited by adenosine vasodilation in the perfused heart, was decreased in SHR (29%) compared with WKY (105%) and WKY + hydralazine (100%) and was significantly improved in SHR + hydralazine (75%). Morphometric evaluation of perfusion-fixed coronary arteries and arterioles (30-400 microns diameter) demonstrated a significant increase in the slope of the regression line comparing the square root of medial area versus outer diameter in SHR (0.444) compared with WKY (0.335) and WKY + hydralazine (0.336, p less than 0.05). Blood vessels from SHR + hydralazine were not different from control (0.338). Cardiac oxygen consumption was decreased in SHR (10.9 +/- 0.74 mumols oxygen/min/g/60 mm Hg left ventricular pressure) compared with WKY (22.4 +/- 1.47) and WKY + hydralazine (23.4 +/- 1.90; p less than 0.01), while SHR + hydralazine was intermediate (16.0 +/- 1.60). These studies suggest that significant alterations in myocardial and coronary vascular structure and function occur in hypertension-induced cardiac hypertrophy. The coronary vasculature is responsive to blood pressure, independent of cardiac hypertrophy, although moderate coronary deficits do remain after chronic antihypertensive therapy.     

Central and regional hemodynamic effects and neurohumoral consequences of minoxidil in severe congestive heart failure and comparison to hydralazine and nitroprusside

Minoxidil is a potent oral vasodilator of potential value in patients with congestive heart failure (CHF), although preliminary studies show that it causes fluid retention. To test whether minoxidil acts primarily as an arterial vasodilator in CHF, it was compared with hydralazine and nitroprusside. To evaluate its chronic efficacy and mechanism of fluid retention, the effects of minoxidil (7 patients) were compared, in a double-blind manner, with those of hydralazine (8 patients) on central and regional hemodynamics and the renin-angiotensin-aldosterone and sympathetic nervous systems. There was no demonstrable difference in the central hemodynamic effects of minoxidil and hydralazine in the dosages used. After 6 hours both drugs increased cardiac index (minoxidil group, from 1.65 ± 0.29 to 2.26 ± 0.40 liters /min/m², p < 0.0001; hydralazine group, from 1.88 ± 0.61 to 2.34 ± 0.90 liters/min/m², p < 0.0001), decreased systemic vascular resistance and increased heart rate without change in pulmonary arterial, pulmonary capillary wedge or right atrial pressures. Nitroprusside effects differed from those of minoxidil and hydralazine with respect to heart rate (p < 0.005) and mean pulmonary arterial (p < 0.007) and right atrial (p < 0.009) pressures. Nitroprusside also decreased relative hepatomesenteric flow compared with the other 2 agents (p < 0.005). Neither renal blood flow, glomerular filtration rate, filtration fraction, nor urinary sodium excretion were significantly altered acutely by any of the 3 drugs. Minoxidil and hydralazine did not differ in their neurohumoral effects: Both agents produced an increase in plasma norepinephrine concentration (p < 0.003) and plasma renin activity (p < 0.04), but no change in plasma epinephrine or aldosterone concentrations. After 1 week of double-blind therapy, fluid retention was a greater problem with minoxidil than with hydralazine. Thus, minoxidil behaves primarily as an arterial vasodilator in CHF, fluid retention is a severe adverse effect, and the greater degree of fluid retention with minoxidil than hydralazine is not attributable to differing acute effects on total renal blood flow or function, or differing effects on the renin-angiotensin-aldosterone or sympathetic nervous systems.     

Effect of nicardipine treatment upon cardiac hypertrophy in spontaneously hypertensive rats: a morphometric and ultrastructural study.

OBJECTIVE: The present study was designed to investigate the effect of nicardipine administration upon systolic blood pressure (SBP) and cardiac hypertrophy in spontaneously hypertensive rats (SHR). DESIGN: SBP, heart: and left ventricle: body weight ratios, the cross-sectional area of cardiocytes, and the ultrastructure of the left ventricle were evaluated. METHODS: Ten-week old male SHR and age-matched normotensive Wistar-Kyoto rats were studied for 12 weeks. One group of SHR was treated for 12 weeks with a daily oral dose of 1 mg/kg nicardipine and another group with 1 mg/kg hydralazine; Wistar-Kyoto rats were used as a normotensive control group. Light and electron microscope techniques associated with image analysis and morphometry were used. RESULTS: Nicardipine administration normalized SBP values and significantly reduced the heart: and left ventricle: body weight ratios. Moreover, administration reduced the cross-sectional area of cardiocytes by approximately 38% in subendocardium and by 24% in subepicardium. Hydralazine administration significantly reduced SBP values but had no effect upon heart: or left ventricle: body weight ratios or the cross-sectional area of cardiocytes. Electron microscopy showed that nicardipine treatment was able to reduce the hypertension-dependent changes in cardiac ultrastructure consisting of alternations to intercalated discs and line Z morphology as well as in the decrease of the mitochondria: myofibrils ratio. CONCLUSIONS: The above data indicate that nicardipine administration is able to reduce SBP and to counter the development of structural and ultrastructural changes in cardiac morphology which represent a common complication of arterial hypertension.     

Reduced left ventricular hypertrophy following long-term water deprivation in the young spontaneously hypertensive rat

Biochemical and physical parameters of cardiac hypertrophy accompanying hypertension were studied in water deprived versus non-deprived immature spontaneously hypertensive rats (SHR) and their normotensive progenitor strain, Wistar Kyoto (WKY). A 23.5 hour/day water deprivation schedule was maintained from 5 to 13 weeks of age in 23 SHR and 8 WKY rats to compare the non-deprived animals (16 SHR and 8 WKY controls). Water deprived SHR had lower left ventricular weight, lower total protein and hydroxyproline and the same total DNA as the non-deprived SHR. DNA concentration was higher in the deprived SHR than in the non-deprived SHR. No differences were found among the four groups in right ventricular weight or DNA concentration. Left to right ventricular weight ratio was significantly lower and left to right ventricular DNA concentration ratio significantly higher in the deprived SHR relative to non-deprived SHR. These data indicate that the water deprived SHR, which was less hypertensive than the non-deprived SHR, had less hypertrophy of their left ventricles. While water deprivation lowered mean arterial pressure in the WKY, also, there was no effect on left ventricular weight or biochemical indices of left ventricular cell size and cell number.     

Cilnidipine improves spontaneously hypertensive rat coronary hemodynamics without altering cardiovascular mass and collagen

OBJECTIVE : The present study was designed to determine the effects of prolonged treatment with cilnidipine, a novel dihydropyridine calcium antagonist which blocks both L-type and N-type calcium channels, on systemic, regional and coronary hemodynamics, cardiovascular mass and collagen content in normotensive Wistar-Kyoto (WKY) and spontaneously hypertensive (SHR) rats. METHODS : Male 23-week-old WKY and SHR rats were divided into two groups for each strain. One group received cilnidipine (10 mg/kg per day), whereas their respective controls were given no therapy. Systemic and regional hemodynamics (radionuclide-labeled microspheres), left and right ventricular and aortic mass, and hydroxyproline concentration were determined after 12 weeks treatment. RESULTS : The data demonstrated that cilnidipine neither affected systemic hemodynamics nor cardiovascular mass and collagen content in WKY rats. The same treatment in the SHR reduced arterial pressure and total peripheral resistance without changes in heart rate and cardiac index. Ventricular and aortic mass indices as well as ventricular collagen content remained unchanged. There were no differences in organ blood flows between two SHR groups, whereas renal, liver and left ventricular coronary vascular resistances were reduced by cilnidipine. After dipyridamole infusion left ventricular minimal coronary vascular resistance decreased further in cilnidipine-treated SHR as compared with control SHR rats. CONCLUSION : These data suggest that cilnidipine, an L- and N- type calcium channel antagonist, exerted beneficial effects on coronary hemodynamics without altering cardiovascular mass or collagen content in SHR.     

Antihypertensive effect of felodipine associated with persistent sympathetic activation and minimal regression of left ventricular hypertrophy.

Twenty patients whose systemic hypertension was not controlled with chronic beta-blocker therapy were studied to evaluate the acute (first dose), short-term (4 weeks) and chronic (6 to 12 months) effects of the calcium antagonist felodipine on blood pressure (BP), left ventricular (LV) anatomy and function and on plasma norepinephrine. The first dose of felodipine rapidly reduced total peripheral resistance and BP, associated with significant increases in heart rate, cardiac output and plasma norepinephrine. During chronic therapy, at the end of the dosing interval (12 hours), significant decreases in BP persisted with minimal changes in the other variables. However, even after 1 year of therapy BP after dosing again rapidly decreased associated with 50 to 100% increases in plasma norepinephrine and small increases in heart rate and cardiac output. Despite the marked decreases in systolic BP, LV wall thickness and mass showed only small decreases (LV mass -- 17 +/- 7 g/m2 after 1 year) and significant LV hypertrophy persisted after 1 year. Both average systolic BP and plasma norepinephrine were significant determinants of LV mass over the duration of the study. It is concluded that during chronic treatment with the twice-daily tablet formulation of felodipine, major daily fluctuations in BP persist associated with persisting sympathetic hyperactivity. The latter may play a role in the modest regression of LV hypertrophy despite 30 to 40 mm Hg decreases in systolic BP for 1 year.     

Changes in hemodynamics with advancing age in conscious spontaneously hypertensive rats

The changes of hemodynamics were measured in spontaneously hypertensive rats (SHR) of increasing ages. Male SHR and Wistar rats of the Kyoto strain (WKY) at 4, 12, 24 and 48 weeks of age were used. The right jugular vein and the left femoral artery were cannulated and a thermistor was placed in the ascending aorta. After 24-hour rest, heart rate (HR), mean arterial pressure (MAP) and cardiac output (CO) were measured. The ratio of left ventricular weight (LVMI) of 4 week-old SHR had already increased significantly when compared to WKY. The HR in 4-week-old SHR was significantly higher than WKY. The increased HR in young SHR indicates the hypersensitivity of the sympathetic nervous system. Increased CO in 4 week-old SHR was due to high HR. The ratio of heart work to left ventricular mass (HW/LVM) of SHR at all age groups was not different from that of WKY, although the ratio of heart work to body weight (HWI) had a tendency to rise in SHR as compared to that in WKY. Our conclusion is that the development of LVM adapts to HW.     

Differential development of vascular and cardiac hypertrophy in genetic hypertension. Relation to sympathetic function

We compared blood pressure, hindquarter vascular resistance properties, left ventricular weight, and norepinephrine kinetics, in spontaneously hypertensive rats (SHR) and weight-matched normotensive Wistar-Kyoto (WKY) rats at 4, 9, 14, 20, 30, and 50 weeks of age. At 4 weeks, systolic and mean blood pressure measurements were the same in both strains, but the vascular resistance of the fully dilated hindquarter bed was significantly higher in SHR than in WKY rats, with a much larger difference during maximum constriction. Plots of resistance at maximum dilatation and at maximum constriction against body weight suggest that a component of the increase in vascular muscle mass in SHR occurred in the neonatal period preceding hypertension followed by a later component related to the rise in blood pressure. By contrast, left ventricular hypertrophy was minimal at 4 weeks and most of its development paralleled the rise in blood pressure. Sympathetic activity, assessed by norepinephrine fractional rate constant, was higher in SHR than in WKY rats in the left ventricle and kidney through most of the period between 4 and 50 weeks, but was similar in both strains in the muscle bed. This pattern of sympathetic activity will accentuate hypertension once cardiac and vascular hypertrophy are fully established. In all regions, norepinephrine tissue concentration was higher in young SHR and could potentiate the trophic effects of growth factors in early vascular hypertrophy. We suggest that the initial (primary) component of vascular hypertrophy precedes the rise in blood pressure and may be critical in the pathogenesis of hypertension. Possible reasons for the short delay in the rise in blood pressure in young SHR, once the vascular "amplifier" has been established, include high vascularity, immaturity of smooth muscle, and delay in the development of left ventricular hypertrophy.     

Cardiovascular and sympathetic responses to chronic arachidonate in SHR and WKY rats

In rats between the ages of 4 and 12 or 14 weeks, repeated daily subcutaneous administration of arachidonate (AA) at a dose of 50 or 200 mg/kg significantly retarded the development of hypertension in spontaneously hypertensive rats (SHR) but did not alter the normal age-related increase in blood pressures (BP) of normotensive (WKY) rats. Heart rates (HR) and plasma levels of norepinephrine (NE), but not epinephrine, were lower in AA-treated SHR than in saline-treated animals. AA-treated SHR and WKY gained less weight than the saline-treated controls. In pithed AA-treated SHR, stimulation of the sympathetic outflow (50 V, for 1 minute at 0.3 or 3.0 Hz) and intravenous administration of NE (0.3 or 3.0 g/kg) evoked smaller pressor responses than in saline-treated controls, but the stimulation-evoked increases in plasma catecholamines were unchanged by AA treatment. These results indicated that, in SHR, chronic AA treatment reduces BP by mechanisms that do not directly affect NE release from sympathetic nerves. There appears to be both reduced central nervous system activation of the sympathetic outflow and diminished responses to peripheral sympathetic stimulation and exogeneous NE which may be secondary to the reduced vascular hypertrophy that usually accompanies the development of high BP in SHR.     

Atrial Natriuretic Factor Release During Volume Expansion in the Spontaneously Hypertensive Rat - Effect of Long-Term Hydralazine Treatment

We tested the ability of spontaneously hypertensive rats (SHR) to release atrial natriuretic factor (ANF) during acute volume loading and its relationship to right and left atrial pressures. The effect of decreasing cardiac afterload by hypotensive treatment was also investigated. Fourteen to 15-week-old SHR and Wistar-Kyoto (WKY) rats were treated with hydralazine (12 mg/kg.day p.o.) for a period of 4 weeks. Untreated rats served as controls. The systolic blood pressure (BP) of SHR decreased to normotensive levels and cardiac hypertrophy was also reduced. Isotonic, iso-oncotic volume expansion (VE) was performed 3 times as 10% increments and at 15-min intervals. Despite greater changes in left-ventricular end-diastolic pressures (LVEDP) and to a lesser extent in central venous pressure (CVP) in SHR controls, the increases in plasma ANF (N-terminal concentrations) induced by VE were of a similar magnitude in both SHR and WKY control rats. The LVEDP and ANF C-terminal elevations were of a lower magnitude in treated SHR. Auricular ANF concentrations, measured at the end of VE, were lower in the left and higher in the right atrium in SHR versus WKY. It is concluded that despite a lower distensibility of their left atrium, ANF release is not impaired in SHR upon a VE. This adequate ANF release is obtained through higher increases in atrial pressures.     

Regulation of ventricular atrial natriuretic peptide release in hypertrophied rat myocardium. Effects of exercise

Left ventricular hypertrophy is characterized by stimulation of ventricular synthesis of atrial natriuretic peptide (ANP). This study was designed to test the hypothesis that the increased ventricular ANP levels participate in the release of ANP into the circulation. Swimming was used as a physiologic model to induce ANP release from the heart, and atrial and ventricular levels of immunoreactive ANP (IR-ANP) and ANP messenger RNA (mRNA) were measured simultaneously in the spontaneously hypertensive (SHR) and Wistar-Kyoto (WKY) rats at rest and after swimming. IR-ANP concentration in the left ventricle of 1-year-old SHR with severe left ventricular hypertrophy was increased in association with the augmentation of ANP mRNA levels, whereas right ventricular levels of ANP were reduced in SHR compared with normotensive controls. A 30-minute exercise in hypertensive and in normotensive rats resulted in marked increases in mean arterial pressure, heart rate, plasma catecholamine levels, blood lactate levels, and plasma IR-ANP concentration. The increased ANP secretion was associated with a decrease in left (34-39%) and right (24%) ventricular concentration of IR-ANP; transmurally, this depletion of ventricular IR-ANP was greatest (28%) in the endocardial layer of the left ventricle of SHR. No significant differences were noted in total atrial and left or right auricular IR-ANP concentration between SHR and WKY rats or between the resting and swimming rats. When studied in vitro with an isolated, perfused heart preparation, the hypertrophic ventricular tissue after atrialectomy secreted more ANP into the perfusate than did control hearts; in SHR, ventricles contributed 28% of the total ANP release to perfusate, and in normotensive control rats, ventricles contributed 8%. These studies show that stimulated release of ANP is associated with depletion of endocardial left ventricular stores. The amount of ANP released in vitro and in vivo correlated with the degree of hypertrophy of the ventricle. Finally, the phorbol ester, known to increase ANP secretion from intact perfused hearts, had only a limited effect on ANP release after atrialectomy, suggesting that the secretion of ANP from ventricular cells may be mainly of the constitutive type.     

Comparative effects of angiotensin converting enzyme inhibition (perindopril) or diuretic therapy on cardiac hypertrophy and sympathetic activity following myocardial infarction in rats

The long-term effects of perindopril or chlorothiazide therapy were studied in rats after the induction of myocardial infarction by coronary artery ligation. Rats with infarction developed marked cardiomegaly, indicating the presence of chronic left ventricular dysfunction. The ratio of the norepinephrine metabolite, 3,4-dihydroxyphenylethylene glycol (DHPG) to norepinephrine (NE) was elevated in the right ventricle of rats with infarction, suggesting a chronic increase in cardiac sympathetic activity. Perindopril therapy commenced either immediately following infarction or 4 weeks following infarction reduced DHPG/NE ratios toward normal levels, and prevented or reversed cardiac hypertrophy. In contrast, chlorothiazide therapy significantly reduced DHPG/NE ratios but did not decrease cardiac hypertrophy. Perindopril reverses or prevents cardiac hypertrophy and chronic cardiac sympathetic hyperactivity following myocardial infarction, while chlorothiazide reduces cardiac sympathetic activity without influencing cardiomegaly.     

Effect on atrial natriuretic peptides of chronic treatment with alpha-methyldopa and hydralazine in spontaneously hypertensive rats

The present study was designed to examine the effect of antihypertensive therapy on plasma and atrial concentration of atrial natriuretic peptides (ANP) in spontaneously hypertensive rats (SHR) by using alpha-methyldopa and hydralazine. Methyldopa and hydralazine treatment reduced blood pressure (P less than .05, P less than .05, respectively); however, ventricular weight was reduced by methyldopa (P less than .05) but not by hydralazine. Plasma ANP concentration in untreated SHR was higher than that observed in Wistar-Kyoto rats (WKY). Methyldopa treatment decreased plasma ANP concentration, but hydralazine treatment did not. Moreover, plasma ANP concentration and ventricular weight were positively correlated in untreated and treated SHR. The left atrial ANP concentration in untreated SHR was lower than that observed in WKY. Methyldopa treatment increased left atrial ANP concentration, but hydralazine treatment did not. These results suggest that the ANP release from the left atrium is chronically stimulated in adult SHR, and that a decrease in plasma ANP concentration by methyldopa treatment is, in part, associated with the decline of ANP release from the heart due to the reductions of blood pressure and cardiac hypertrophy.     

Changes in cardiovascular mass, left ventricular pumping ability and aortic distensibility after calcium antagonists in Wistar-Kyoto and spontaneously hypertensive rats.

OBJECTIVES: To determine the effects of different dihydropyridine calcium antagonists on cardiovascular mass and function in normotensive Wistar-Kyoto (WKY) rats and spontaneously hypertensive rats (SHR). METHODS: The rats were treated daily for 3 weeks with nitrendipine (20 mg/kg), nifedipine (30 mg/kg), nisoldipine (6 mg/kg) or their vehicles. At the conclusion of that period left ventricular pumping ability and aortic distensibility were determined, and the aortic, cardiac and left and right ventricular masses. RESULTS: Each drug reduced arterial pressure in both rat strains; each decreased left ventricular mass in SHR but not in WKY rats. All three agents increased right ventricular mass in WKY rats; only nisoldipine did so in SHR. Each compound improved left ventricular pumping ability in WKY rats, maintaining function even when pressure was abruptly increased to pretreatment levels. In contrast, although all three calcium antagonists improved cardiac performance in SHR at the pharmacologically reduced pressures, pumping ability was not maintained when pressure was increased to pretreatment levels in nisoldipine-treated SHR. All three agents improved aortic distensibility in both strains, but only in SHR was reduced aortic mass demonstrated. CONCLUSIONS: These data not only continue to demonstrate a functional/structural dissociation associated with antihypertensive therapy, but also suggest subtle functional and structural effects that differ even within the same class of calcium antagonists.