Maria Jose F. Camargo

Effects of auriculin (atrial natriuretic factor) on blood pressure, renal function, and the renin-aldosterone system in dogs

Auriculin is a potent vasoactive and natriuretic peptide that was recently isolated and purified from rat atrial tissue. Since this peptide could be of great importance for renal, cardiovascular, and volume homeostasis, its functional properties have been characterized in dogs. The effects of synthetic auriculin on renal function, mean blood pressure, plasma renin activity, renin secretory rate, and plasma aldosterone levels were determined. Auriculin was administered intravenously as a prime (1.0 microgram/kg body weight) and constant infusion (0.1 microgram per minute/kg body weight for one hour) to five anesthetized dogs. In addition, two conscious dogs were used to verify some of the results obtained in anesthetized dogs. Auriculin decreased mean blood pressure from 134 +/- 5 to 122 +/- 4 mm Hg (p less than 0.05, paired t test) and increased glomerular filtration rate (25.5 +/- 2.7 to 32.4 +/- 4.1 ml per minute per kidney, p less than 0.05), diuresis (0.21 +/- 0.03 to 1.06 +/- 0.14 ml per minute per kidney, p less than 0.05), natriuresis (38 +/- 0.6 to 187 +/- 35 mueq per minute per kidney, p less than 0.05), and kaliuresis (14.8 +/- 1.6 to 35.7 +/- 6.3 mueq per minute per kidney, p less than 0.05). These effects were sustained throughout the infusion of auriculin and were entirely reversible. Renal plasma flow increased transiently for one to two minutes, and then returned to or below control levels. Urine osmolality decreased by 40 percent (p less than 0.05) whereas free water clearance remained unchanged (p less than 0.05). Auriculin reversibly decreased plasma renin activity (11.6 +/- 2.3 to 3.6 +/- 1.2 ng/ml per hour, p less than 0.05), renin secretory rate (895 +/- 313 to 255 +/- 28 ng per hour per minute, p less than 0.05), and plasma aldosterone levels (8.4 +/- 1.6 to 3.6 +/- 0.7 ng/dl, p less than 0.05), whereas plasma cortisol levels remained unchanged. These results demonstrate that auriculin has a unique combination of functional properties, increasing glomerular filtration rate, diuresis, and natriuresis, without a sustained increase in total renal blood flow, and lowering blood pressure, plasma renin levels, renin secretory rate, and plasma aldosterone levels. These properties suggest an important potential role for atrial natriuretic peptides in the regulation of renal function, extracellular volume, and blood pressure.

Relation of plasma renin to end organ damage and to protection of K+ feeding in stroke-prone hypertensive rats.

We studied the effects of regular diet (0.35% NaCl/1.1% potassium), high sodium diet (4% NaCl/0.75% potassium), or high sodium and high potassium diet (4% NaCl/2.11% potassium) on blood pressure, plasma renin activity, renal and cerebrovascular lesions, and incidence of stroke and mortality in male stroke-prone spontaneously hypertensive rats (SHRSP). In the first 4 weeks, the rise in blood pressure was higher in high NaCl than in high NaCl/high potassium or regular diet groups. However, by 8 and 12 weeks, the blood pressure in all three groups was similar. After 4 weeks of diet, plasma renin activity was similar in the three groups (3.4 +/- 0.8, 4.1 +/- 0.9, and 5.2 +/- 1.6 ng/ml/hr, in high NaCl, high NaCl/high potassium, and regular diet groups, respectively) and were not related to sodium excretion. After 8 weeks, plasma renin activity was significantly increased only in the high NaCl group (13.7 +/- 3.7 ng/ml/hr), and by 12 weeks plasma renin activity was significantly higher in the high NaCl group (25.3 +/- 3.6 ng/ml/hr) than in the high NaCl/high potassium (11.1 +/- 2.9 ng/ml/hr) or in the regular diet (7.8 +/- 4.6 ng/ml/hr) groups. Moderate to severe renal vascular lesions were first detected in the high NaCl group by 8 weeks of diet. At 12 weeks, renal vascular damage index (RVDI), estimated histologically, was significantly higher in the high NaCl group (RVDI = 79 +/- 14) than in the high NaCl/high potassium (RVDI = 40 +/- 11) and regular diet (RVDI = 7.8 +/- 4.6) groups.(ABSTRACT TRUNCATED AT 250 WORDS)

Angiotensin II receptor antagonist delays renal damage and stroke in salt-loaded Dahl salt-sensitive rats.

OBJECTIVE To study the effects of blockade of the renin-angiotensin system upon the development of hypertension, end-organ damage and mortality in Dahl salt-sensitive (DSS) rats using an angiotensin II receptor antagonist, losartan. DESIGN AND METHODS DSS rats (n = 186) were fed 8% NaCl from 6 to 16 weeks of age. One group received losartan whilst the control group was untreated. Changes in blood pressure and plasma renin activity (PRA), as well as renal and cerebrovascular damage and survival were assessed during the study. RESULTS Losartan blunted the blood pressure rise only transiently. Salt loading suppressed PRA in both groups until week 4 and thereafter it rose more markedly in the treated group. With no treatment renal lesions were first detected at 2 weeks, and strokes at 6 weeks. However, losartan transiently decreased the incidence and delayed the progression of renal damage and cerebrovascular lesions (strokes) and increased survival. PRA correlated with renal damage and the incidence of strokes in both groups. Blood pressure only partially affected survival, but did not correlate with stroke incidence. CONCLUSIONS These results indicate that whereas the rise in blood pressure is dependent upon sodium loading, morbidity and mortality in salt-loaded DSS rats are associated with activation of the renin-angiotensin system and are only partially related to blood pressure.

Cardiovascular effects of atrial natriuretic factor in anesthetized and conscious dogs.

Atrial natriuretic factor lowers blood pressure in normotensive and hypertensive animal models. The present study examined the mechanism of the blood pressure-lowering effect in 10 normotensive dogs. Four awake dogs previously instrumented with electromagnetic flow probes for measurement of cardiac output and catheters for systemic hemodynamic and cardiac dynamic measurements were studied. After a 30-minute control period, a 3 micrograms/kg bolus followed by 0.3 micrograms/min/kg of a 24-residue synthetic atrial natriuretic factor was infused for 30 minutes, followed by a 1-hour recovery period. Mean arterial pressure fell significantly during infusion (control, 125 +/- 4; infusion, 108 +/- 5; recovery, 125 +/- 9 mm Hg; p less than 0.05) and was accompanied by a slight but significant bradycardia (control, 144 +/- 7; infusion, 134 +/- 5; recovery, 145 +/- 7 beats/min; p less than 0.05). Significant reductions in cardiac output (control, 2.66 +/- 0.60; infusion, 2.18 +/- 0.60; recovery, 2.74 +/- 0.60 L/min; p less than 0.05), stroke volume (control, 18.4 +/- 3.9; infusion, 16.0 +/- 4.2; recovery, 19.0 +/- 3.7 ml/beat; p less than 0.05), and maximum increase in rate of change of left ventricular systolic pressure (control, 2475 +/- 200; infusion, 2088 +/- 216; recovery, 2487 +/- 243 mm Hg/sec; p less than 0.05) were also observed during infusion. No significant changes in total peripheral resistance or central venous pressure were noted, although the latter tended to fall during infusion. A similar pattern was observed in six pentobarbital-anesthetized dogs, except that infusion of atrial natriuretic factor did not induce bradycardia.(ABSTRACT TRUNCATED AT 250 WORDS)

Control of blood pressure and end-organ damage in maturing salt-loaded stroke-prone spontaneously hypertensive rats by oral angiotensin II receptor blockade

Objective: To study the effects of renin-angiotensin system blockade by a novel non-peptide angiotensin II receptor antagonist, losartan, on development of hypertension and acceleration of end-organ damage in salt-loaded stroke-prone spontaneously hypertensive rats (SHRSP). Design and methods: One hundred and eighty-one male SHRSP were fed a 4% sodium diet from 6 to 18 weeks of age. Seventy-eight SHRSP were treated orally with losartan, 30 mg/kg per day. One hundred and three rats constituted untreated controls. Blood pressure, plasma renin activity (PRA), renal function and end-organ damage were monitored during the transition to malignant hypertension. Results: Losartan prevented a blood pressure rise during the first 4 weeks of salt loading. Thereafter, blood pressure rose slowly in losartan-treated rats; however, at each time-point studied blood pressure was significantly lower in losartan-treated rats than in control rats. Losartan treatment increased PRA during the first 4 weeks, but this effect was not sustained. Thereafter, PRA decreased to control (week 0) levels. In contrast, 2 weeks after high-sodium feeding started, untreated SHRSP failed to suppress PRA appropriately; thereafter, PRA rose significantly. Losartan affected renal pathophysiology by blunting the decline in glomerular filtration rate, controlling proteinuria and preventing or delaying the appearance of malignant nephrosclerosis. Losartan treatment significantly increased survival and completely prevented cerebrovascular infarcts. Conclusions: The results indicate that angiotensin II blockade markedly reduces both hypertension and end-organ damage in chronically salt-loaded SHRSP and that the renin—angiotensin system may play an important role in the development of hypertensive cardiovascular disease in SHRSP.

Plasma and Renal Prorenin/Renin, Renin mRNA, and Blood Pressure in Dahl Salt-Sensitive and Salt-Resistant Rats

We measured plasma prorenin and renin levels, renal renin mRNA, renal anti-renin and anti-prorenin-prosequence immunoreactivity, and blood pressure in maturing Brookhaven Dahl salt-sensitive (Dahl S) and salt-resistant (Dahl R) rats during 14 days of low (0%), medium (0.4%), or high 4%) NaCl diets. Blood pressure was higher in Dahl S rats and did not increase with high NaCl. Seven-week-old Dahl R rats had twofold and sixfold higher levels of plasma prorenin and renal prosequence immunoreactivity, respectively, which by 9 weeks were the same as in Dahl S rats. The anti-renin antiserum, BR1-5, was found to detect prorenin better than renin; Dahl S rats had suppressed renal anti-renin immunoreactivity relative to Dahl-R rats. Dahl R rats were unresponsive to high NaCl, whereas in Dahl S rats, plasma renin and renal prosequence immunoreactivity fell by 90% (P < .01), renal anti-renin immunoreactivity and renal renin MRNA fell by 35% (P < .05 for both), and plasma prorenin fell by 30% (P = NS). NaCl depletion increased prorenin/renin parameters similarly in both strains. There were direct relationships among all of the prorenin/renin parameters. Between low and high salt diets in Dahl S rats, plasma renin increased 20-fold, plasma total renin (renin plus prorenin) and renal renin mRNA both increased threefold, and plasma prorenin increased twofold. The results indicate that under steady-state conditions, plasma and renal renin/prorenin parameters change concordantly and that plasma total renin (renin plus prorenin) reflects changes in renal renin mRNA. The lower blood pressure of Dahl R rats is associated with later maturation-related declines in plasma and renal prorenin. Suppression of plasma renin may delay the salt-induced blood pressure rise in Dahl S rats. Finally, the renin system and blood pressure of Dahl R rats have remarkable disregard for a high salt diet.

In vivo left ventricular anatomy in rats with two-kidney, one clip and one-kidney, one clip renovascular hypertension

Objectives To evaluate differences in left ventricular structural changes related to different hemodynamic patterns. Design One-kidney, one clip (1K1C; volume-dependent hypertension) rats were two-kidney, one clip (2K1C; high-resistance hypertension) to determine whether these two types of Goldblatt rats showed different types of left ventricular adaptation. Methods M-mode echocardiography was used to study 28 2K1C and 19 1K1C Wistar rats 8 weeks after surgery and 55 age-matched control animals. Results Systolic blood pressure was equally high in the two models; the 1K1C rats had a larger left ventricular chamber and normal plasma renin activity (PRA), whereas in the 2K1C rats PRA was increased and the left ventricular chamber was normal. The atrial natriuretic factor was significantly increased only in the 2K1C rats and was related to PRA. The left ventricular mass index was increased in both models, but more in the 1K1C than the 2K1C rats Conclusions In both models the degree of left ventricular hypertrophy was associated with the interacting effects of the hemodynamic component superimposed on the primary hemodynamic pattern (i.e. blood pressure as an expression of pressure overload in the primarily volume-dependent 1K1C rats and the left ventricular chamber size as an expression of volume overload in the high-resistance 2K1C rats). The interaction between pressure and volume increased the left ventricular wall thickness in both models, with additional chamber enlargement in the 1K1C rats. In these rats, the increase in left ventricular mass was more pronounced due to the greater volume load on the heart.

Renal vasoconstrictive effect of kinins mediated by B1-kinin receptors

The nature of the renal vascular actions of kinins, their dependence on prostaglandins and B1-kinin receptor responses were studied in functioning isolated perfused rat kidneys (IK). Lysylbradykinin (LBK), 0.28 and 0.7 microM, transiently decreased and then markedly increased the renal vascular resistance (RVR) in a sustained manner. Bradykinin (BK) at the same doses also had a transient vasorelaxant but not a sustained vasoconstrictive effect. The inactivation of LBK and BK by the IK did not account for the transient nature of their vasorelaxant effect. Indomethacin (5 microM) markedly blunted LBK-induced decrease but not increase in RVR. The B1-kinin receptor agonist desArg9-BK (0.4-1.0 microM) did not decrease RVR but, as LBK, markedly increased RVR in a dose-related manner. The B1-kinin receptor antagonist [Leu8]desArg9-BK had no effect on its own but inhibited the desArg9-BK-induced vasoconstriction in a stoichiometric manner. This antagonist at 4.0 microM also completely abolished the vasoconstrictive effect of 0.7 microM LBK, whereas it potentiated and prolonged its vasorelaxant effect. The results demonstrate that kinins, particularly LBK, have bimodal effects on the renal vascular resistance of the isolated perfused rat kidney. The vasorelaxant effect is at least partly mediated by prostaglandins whereas the vasoconstrictive effect of LBK and/or its renal metabolites has the typical character of a B1-kinin receptor response. It is postulated that B1-kinin receptor responses may be of importance in the generation and/or maintenance of renal vasoconstriction in disease states which lead to renal failure.

Reduction of atrial natriuretic factor circulating levels by endogenous sympathetic activation in hypertensive patients.

The effects of endogenous activation of sympathetic nervous system on systemic and regional hemodynamics and on plasma levels of atrial natriuretic factor (ANF) were studied in subjects with essential hypertension. Stimulation of sympathetic nervous system was reflex-induced by a selective deactivation of carotid baroreceptors obtained by increasing external neck-tissue pressure (NTP) by means of a neck chamber. The effects of graded levels (+30, +45, and +60 mm Hg) and one single and sustained level (+45 mm Hg for 15 min) of NTP were studied. As expected, NTP caused reflex increases in blood pressure, heart rate, and forearm vascular resistance, whereas atrial pressures did not change significantly and cardiac output tended to increase. In the studies based on graded levels of NTP, immunoreactive ANF (irANF) progressively fell (from 31.7 +/- 10 to 13.3 +/- 4 fmol/ml; p less than .05) and the changes in irANF were significantly correlated with those observed in FVR (r = -.671, p less than .001). Both hemodynamic and irANF changes were prevented by adrenergic blockade (phentolamine + propranolol). During +45 mm Hg NTP for 15 min, the levels of irANF fell both in the pulmonary artery and in the inferior vena cava. The irANF arteriovenous difference also fell during this maneuver. These data show that, in hypertensive patients, factors other than atrial wall tension may influence ANF release. They also show that endogenous sympathetic activation may reduce ANF release.

Role of increased glomerular filtration rate in atrial natriuretic factor-induced natriuresis in the rat

One of the major renal hemodynamic actions of atrial natriuretic factor (ANF) is to increase glomerular filtration rate (GFR). To assess the role of this effect on ANF-induced natriuresis (UNaV), diuresis (V) and kaliuresis (UKV) we performed late clamp experiments in six rats. After control periods (C), synthetic ANF (auriculin A) was infused i.v. (2 micrograms X min-1/kg body wt) throughout the experiment (150 min). After pre-clamp periods, the perfusion pressure of the left kidney (LK) was reduced to 75-80 mmHg. The right kidney (RK) served as a time control. In LK, before the late clamp, ANF increased (p less than 0.01) GFR from 1.5 +/- 0.1 to 1.8 +/- 0.1 ml/min, V from 17 +/- 5 to 53 +/- 5 microliters/min, and UNaV from 2.1 +/- 0.6 to 10.0 +/- 0.9 microEq/min. Almost identical increases occurred in the RK. The late clamp returned all parameters in LK to C values (p greater than 0.05): GFR to 1.4 +/- 0.1 ml/min, V to 6.3 +/- 1.2 microliter/min, and UNaV to 1.0 +/- 0.3 microEq/min. The late clamp also reversed the ANF-induced increase in UKV. In the RK, GFR (1.8 +/- 0.1 ml/min), V (38 +/- 4 microliter/min) and UNaV (7.8 +/- 0.8 microEq/min) remained elevated (p less than 0.01 vs. C) to the end of the experiment. These data demonstrate that upon return of GFR to control levels, the ANF-induced diuresis, natriuresis and kaliuresis is abolished. The results support our previous view that the increase in GFR together with a decrease in inner-medullary hypertonicity account wholly or in great part for the natriuretic action of ANF.