Effects of atrial natriuretic factor on renal function and cyclic GMP production

Anesthetized beagle dogs received increasing doses of continuous infusions of a 26-amino-acid synthetic atrial natriuretic factor (ANF). Urinary sodium excretion rose in a dose-dependent manner to a maximum level similar to that seen after hydrochlorothiazide administration. Mean arterial blood pressure decreased, but only modestly, and not in a dose-dependent fashion. Dogs chronically retaining NaCl secondary to constriction of the thoracic inferior vena cava showed only modestly enhanced natriuresis when infused with similar levels of ANF. When ANF was infused directly into the renal artery of anesthetized beagles, a dose-dependent natriuresis and calciuresis were observed with maximal fractional sodium excretion averaging approximately 8%. Although glomerular filtration tended to increase, the average dose-related changes were not significant. Cyclic GMP excretion was increased during intra-renal-arterial infusion of ANF. Excretion of cyclic GMP by both the infused and noninfused kidneys was equal, which suggests that urinary cyclic GMP was not nephrogenous but derived from the elevated circulating levels. These and other data from rats dissociate changes in urinary cyclic GMP excretion and sodium excretion.     

Effects of atrial natriuretic factor on urinary concentration of catecholamines and renin secretion in dogs

This study evaluated the effects of synthetic atrial natriuretic factor (ANF) on renal hemodynamics, urinary excretion of electrolytes, norepinephrine (NE), and dopamine (DA); and renal production of renin in anesthetized dogs. Following a bolus (1 micrograms/kg body weight) and infusion (0.1 microgram/kg/min) for 30 min, there was significant increase in urine flow (220 +/- 41%), glomerular filtration rate (72 +/- 14%), and urinary sodium excretion (170 +/- 34%). There was a decrease in renin secretory rate and the concentration ratio of urine NE to DA following ANF was decreased (p less than 0.05). These data suggest that ANF decreases renal production of NE and renin.     

Renal effects of atrial natriuretic factor in domestic fowl

The renal hemodynamic and tubular effects of ANF were investigated using the Sperber technique in chickens. This technique takes advantage of the unique portal circulation of the avian kidney and permits direct access to the renal peritubular space independent of renal arterial blood flow and glomerular filtration. Infusion of ANF into the avian renal portal system increased urine flow rate and sodium excretion by as much as 300% and 100%, respectively. These changes occurred in the absence of significant alterations in glomerular filtration rate or renal plasma flow. There was no significant difference in urine flow, sodium excretion or glomerular filtration rate between the ANF-infused kidney and the contralateral, non-infused kidney. We conclude that the diuretic and natriuretic effects of ANF do not depend on changes in glomerular filtration rate and that the site of action of ANF is the renal medulla.     

Effect of angiotensin converting enzyme inhibition on renal response to atrial natriuretic factor in rats

Previous studies have shown that atrial natriuretic factor (ANF) inhibits renin secretion whereas cilazapril blocks angiotensin II generation via converting enzyme inhibition. Both agents enhance renal excretory function. The present study was conducted to test whether the renin-angiotension system is involved in the ANF-induced renal effects. ANF was administered to anesthetized normal rats (n = 16) with or without a simultaneous infusion of cilazapril. Single bolus injections of ANF at doses of 2.5 micrograms/kg and 5.0 micrograms/kg significantly decreased mean arterial blood pressure by 6.8 +/- 2.3% and 9.4 +/- 2.2%, respectively. The corresponding increases in glomerular filtration rate were 5.6 +/- 3.7% and 8.4 +/- 2.8%, in absolute sodium excretion were 55.0 +/- 18.5% and 105.2 +/- 39.9%, and in urine flow were 24.8 +/- 9.3% and 35.6 +/- 14.6%. Intravenous infusion of cilazapril (33 micrograms/kg.min) reduced the arterial blood pressure, elevated the glomerular filtration rate and increased sodium and water excretion. The corresponding doses of ANF administration during continuous infusion of cilazapril further decreased blood pressure by 8.3 +/- 1.9% and 10.9 +/- 5.4%, respectively. However, there were no significant changes in the glomerular filtration rate and sodium and water excretion. The failure of ANF to exhibit a renal effect was irrelevant to the lowering blood pressure induced by cilazapril. These results suggest that reduced endogenous angiotensin II generation contributes to the renal, but not the hypotensive, effect of ANF.     

Effect of parathyroid hormone on renin secretion

The ability of parathyroid hormone (PTH) to increase renin secretion was investigated in pentobarbital-anesthetized dogs. An intravenous infusion of bovine PTH 1-34, at the dose of 0.028 microgram/kg-1 min-1 increased renin secretion by 149% (501 +/- 105 to 1249 +/- 309 ng hr-1 min-1); renin secretion returned to control values during the recovery period. In order to determine whether PTH acted directly on the kidney to increase renin secretion, PTH was infused into the right renal artery at doses of 0.0014 to 0.0028 microgram/kg-1 min-1 and renin secretion from the right kidney was compared to that from the left (control) kidney. Renin secretion from the right (PTH-infused) kidney was not greater than control values for that kidney or different from the renin secretory rate of the left (control) kidney. In contrast, the excretion rates of both phosphate and sodium from the right kidney were greater than control values and from the excretion rates of the left kidney. These data suggest that PTH, while acting directly on the kidney to increase phosphate and sodium excretion, does not elevate renin secretion by a direct renal action.     

A stop-flow study of intrarenal effects of atrial natriuretic factor

We performed paired series of stop-flow studies on six mongrel dogs to determine a possible nephron site of action of synthetic atrial natriuretic factor (ANF). The initial free-flow response to intrarenal infusion of 5 micrograms/min of synthetic ANF into mannitol-expanded dogs resulted in an increased urine flow rate (6.81 +/- 0.88 to 9.00 +/- 1.17 ml/min, P less than 0.05) and a 40% increase in sodium excretion (496 +/- 110 to 694 +/- 166 meq/min, P less than 0.025) when compared to paired control periods. Renal blood flow did not change, but the glomerular filtration rate increased 4% (47 +/- 5 to 49 +/- 6 ml/min, P less than 0.05). The filtered load of sodium increased 4% (P less than 0.05), and the fractional sodium excretion increased by 35% (P less than 0.01). Stop-flow experiments showed no difference in tubular sodium concentration or in the fractional sodium-to-inulin ratio at the nadir of sodium concentration, suggesting that no differences existed in distal tubular sodium handling. Further, no apparent differences were detected in collections representing the more proximal portions of the nephron. While we were able to demonstrate marked natriuresis in response to synthetic ANF, no tubular effect was discernible, and the natriuresis obtained appears to be predominantly a function of hemodynamic effects.     

The relationship between sodium excretion and renin secretion by the perfused kidney.

The effect of altered tubular sodium reabsorption on renin secretion (RSR) was examined under conditions in which other factors influencing renin release could be controlled or excluded. To do this, isolated canine kidneys were perfused at constant pressure with blood circulating from donor animals. Volume expansion or hemorrhage of the donor dogs produced large changes in the animal's blood pressure, renal function, sodium excretion (UNaV), and RSR, but were without effect on renal hemodynamics, UNaV, or RSR in the perfused kidney. Hemodilution without volume expansion, resulted in hypotension, decreased UNaV and increased RSR in the donor dogs, and increased UNaV and suppressed RSR in the perfused kidney. These effects of hemodilution in the perfused kidney were partially reversed when plasma protein concentration was restored to control levels with hyperoncotic albumin, and, overall, there was a significant inverse relationship between electrolyte excretion and RSR. These results provide new evidence for the hypothesis that the rate at which sodium is delivered to the macula densa is an important determinant of the rate of renin secretion.     

Role of endogenous ANP on endocrine function investigated with a monoclonal antibody

Substantial volume expansion in conscious rats induces a strong natriuresis, cyclic GMP excretion, increase in cyclic GMP in plasma and kidney tissue, decrease in plasma renin activity and plasma aldosterone concentration. These effects are directly related to an increase in plasma levels of atrial natriuretic peptides. The renal response and the changes in plasma and kidney cyclic GMP, plasma renin activity and aldosterone could be totally blocked by simultaneous administration of monoclonal antibodies directed against ANP. From this study it seems to be clear that the rise in cyclic GMP and the inhibition of the renin-aldosterone system is not a direct effect of volume expansion but is specifically mediated by the released ANP. The great importance of ANP in acute volume expansion made us wonder about the role of ANP in chronic volume expansion and under basal conditions without volume loading. Chronic volume loading was induced pharmacologically by the sodium retaining vasodilatator minoxidil. Under both chronic volume expansion and basal conditions the neutralization of the circulation ANP by antibody administration leads to reduced plasma cyclic GMP levels. No alterations in urinary sodium excretion, plasma renin activity and plasma aldosterone concentration could be observed: In conclusion, the monoclonal antibody directed against ANP is a useful tool for the investigation of the physiological role of endogenous ANP.     

Effects of Bay K 8644 on renal function and renin secretion in anesthetized rats

Our previous study on kidney cortical slices showed that Bay K 8644, a dihydropyridine calcium channel agonist, produced a dose-dependent inhibitory action on the release of renin. The present study was performed to examine the effect of Bay K 8644 on renal function and renin secretion in vivo. When Bay K 8644 was directly infused into the renal artery of anesthetized rats, 2 micrograms/kg/min had no effect on renal blood flow (RBF) and glomerular filtration rate (GFR), but decreased urine flow (UF), urinary sodium excretion (UNaV) and fractional sodium excretion (FENa) by about 30%, 55% and 35%, respectively, thereby suggesting that Bay K 8644 enhanced the tubular reabsorption of water and sodium. When 10 micrograms/kg/min were infused, RBF, GFR, UF, UNaV and FENa decreased to about 95%, 70%, 35%, 35% and 30% of each control value. The administration of Bay K 8644 at 10 micrograms/kg/min did not influence the basal levels of plasma renin activity (PRA) and renin secretion rate (RSR), but did inhibit significantly isoproterenol-induced increasing effects on PRA and RSR. These results indicate that the activation of voltage-dependent calcium channels with Bay K 8644 influences the control of renal function and renin secretion in vivo.     

Effect of felodipine on renal hemodynamics and excretion in the dog

The effects of felodipine on renal hemodynamics and excretion were evaluated in the anesthetized dog. Unilateral renal arterial infusion of felodipine produced ipsilateral increases in the absolute and fractional excretion of sodium and water which were greater than those of potassium; these effects occurred in the absence of changes in mean arterial pressure, renal blood flow, or glomerular filtration rate. There were no significant effects on renal hemodynamic or excretory function in the contralateral kidney. The unilateral renal arterial infusion of isotonic saline or vehicle produced no significant effects on renal hemodynamic or excretory function in either ipsilateral or contralateral kidney. Felodipine, a calcium antagonist with vasodilator antihypertensive properties, in doses which do not affect systemic or renal hemodynamics in the dog, increased urinary flow rate and sodium excretion by decreasing renal tubular water and sodium reabsorption. As a vasodilator antihypertensive agent, felodipine possesses potentially advantageous diuretic and natriuretic properties.     

Long-Term Responses to Loss of Renal Mass: Glomerular Changes: Compensatory Renal Hypertrophy in Dogs: Single Nephron Glomerular Filtration Rate

Kidney weight, length of superficial and juxtamedullary proximal tubules, glomerular diameter, kidney filtration rate and PAH clearance, sodium excretion and intrarenal distribution of filtration (with ¹⁴C-ferrocyanide) were measured in the remaining hypertrophic kidneys of dogs 10 days after unilateral nephrectomy. Whereas kidney weight increased to 75 percent of the original total renal mass, proximal tubule length and mean glomerular diameter remained unchanged. PAH and creatinine clearance, and absolute, but not fractional, sodium excretion, rose significantly. The ratio superficial/juxtamedullary filtration rate remained unchanged, indicating parallel increases of filtration in both cortical regions of hypertrophied kidneys.     

Atrial natriuretic peptide--cyclic GMP coupling and urinary sodium excretion during acute volume expansion in man

The present study examines hormonal and renal responses to acute volume expansion in normal man, with particular emphasis on the atrial natriuretic peptide (ANP)--cyclic GMP coupling. Two liters of isotonic saline were infused into eight normotensive male subjects over a 1-h period. Plasma and urinary measurements were made before, during, and up to 300 min after the start of the saline infusion. With the initial increase in urinary sodium excretion there were increases in plasma ANP and plasma cyclic GMP, which reached maximum levels at 15 min after the end of the saline infusion. Urinary cyclic GMP increased gradually during saline infusion up to approximately 60 min after the end of the infusion. Plasma ANP and plasma and urinary cyclic GMP excretion gradually declined thereafter. By contrast, urinary sodium excretion remained elevated up to the end of the observation period. The saline infusion was associated with marked reductions in plasma renin activity and aldosterone, which persisted up to the end of the study. These results suggest a coupling between the increases in plasma ANP, the production of cyclic GMP, and urinary sodium excretion, in particular during the initial renal response to acute volume expansion. However, other mechanisms including the suppression of the renin--angiotensin--aldosterone system may become increasingly important in the later natriuretic response to acute volume expansion.     

Renal hemodynamic response to intrarenal infusion of calcitonin gene-related peptide in dogs

The renal hemodynamic and excretory effects of intrarenal infusions of synthetic β-human calcitonin gene-related peptide (β-hCGRP) were examined in normal sodium replete dogs (Group 1, n=6), in sodium replete dogs pretreated with indomethacin (Group 2, n=6), and in sodium deplete dogs (Group 3, n=5). In all groups of anesthetized dogs β-hCGRP was infused at 5 and 10 ng·kg⁻¹·min⁻¹ for 50 min periods each. In the sodium replete group, β-hCGRP infusions strikingly increased renal blood flow, but this response was markedly attenuated in the other 2 groups. During β-hCGRP infusions, the clearance of creatinine also increased significantly in the sodium replete and deplete groups, but not in the indomethacin pretreated animals. No consistent changes in urinary sodium excretion or plasma renin activity were observed with β-hCGRP infusions in any of the 3 groups of dogs. These results indicate that β-hCGRP is a potent renal vasodilator and can increase renal blood flow and glomerular filtration. The data also suggest that the renal hemodynamic actions of β-hCGRP are partially mediated by renal prostaglandins, and that the vasodilatory effects of β-hCGRP may be antagonized by high circulating levels of endogenous angiotensin II in sodium-volume depletion. Finally, β-hCGRP does not appear to have significant actions on urinary sodium excretion or plasma renin activity under the experimental conditions of the present study.     

Renal actions of atrial natriuretic peptide on the postischemic kidney

The objective of this study was to evaluate the renal actions of atrial natriuretic peptide (ANP) in the unilateral postischemic kidney of anesthetized dogs with a severe reduction in glomerular filtration rate. The dose of atrial natriuretic peptide (50 ng.kg-1.min-1) we gave did not alter the mean systemic arterial pressure, renal blood flow, and glomerular filtration rate in the normal kidney, as determined in foregoing studies. ANP was infused into the intrarenal artery continuously for 60 min after the release from 45 min of complete renal artery occlusion. In the vehicle-infused group, the glomerular filtration rate fell dramatically (6% of control), the renal blood flow decreased (60% of control), and the mean systemic arterial pressure tended to increase (136% of control). The urine flow rate and urinary excretion of sodium decreased significantly (25 and 25%, respectively) at 30 min after reflow in the postischemic period. Continuous renal artery infusion of ANP resulted in a marked increase in urine flow rate (246% of control) and the urinary excretion of sodium (286% of control). The administration of ANP led to an improvement in renal blood flow (99% of control) and glomerular filtration rate (40% of control), and attenuated the rise in mean systemic arterial pressure (109% of control), compared with findings in the vehicle-infused group. Plasma renin activity and prostaglandin E2 concentration in the renal venous blood were elevated after the release from complete renal artery occlusion in both groups. These results indicate that the vascular effects of ANP on the postischemic kidney were enhanced and that the peptide maintained the natriuretic effect.     

The function of innervated kidneys during stimulation of the carotid chemoreceptors under constant renal perfusion pressure]

The carotid chemoreceptors of narcotized, vagotomized and spontaneously breathing hydropenic cats in hypertonic mannite diuresis were stimulated by perfusion with venous blood penic cats in hypertonic mannite diuresis were stimulated by perfusion with venous blood for 70 min. Elevation of blood pressure at the innervated kidneys was prevented by an automatically controlled balloon located within the aorta. Stimulation of the chemoreceptors intensified respiration and raised the arterial systemic pressure. With the renal arteries at constant pressure, the effective renal plasma flow and the glomerular filtration rate significantly declined. The filtration fraction remained unchanged. The absolute urinary and sodium excretion did not change significantly, whereas the fractional time-volume, fractional sodium excretion, and the fractional osmotic excretion significantly increased. The fractional tubular reabsorption of osmotically free water was significantly enhanced. These reactions subsided during subsequent perfusion of the glomerula carotici with arterial blood. The results suggest that tubular sodium reabsorption is inhibited by stimulation of the carotid chemoreceptors, although re-adjustment of renal perfusion and filtrate volume cannot be excluded.     

The effect of prostaglandin synthetase inhibitors on renal function: studies in normal rats during sodium or water diuresis and in rats with chronic renal insufficiency

The effect of acute infusion of the prostaglandin synthetase inhibitors - meclofenamate or indomethacin - was examined in awake rats. Studies were performed in normal rats undergoing either sodium or water diuresis and in salt-replete rats with chronic renal insufficiency. Prostaglandin synthetase inhibitors had no effect on renal plasma flow, glomerular filtration rate or fractional excretion of sodium in any of the groups. Absolute urinary excretion rates for sodium and potassium decreased only in the normal, salt-replete rats. In contrast, prostaglandin synthetase inhibitors consistently decreased urinary flow and osmolar clearance under all experimental conditions studied. In the normal, salt-replete rats the fall in urine flow was preceded by an increase in urinary excretion of cyclic AMP. These results show that inhibitors of prostaglandin synthesis enhance the ability of the kidney to reabsorb water. This effect may be secondary to increased cyclic AMP generation and to increased urea recirculation resulting in higher urea accumulation in the renal medulla.     

The effect of prostaglandin synthetase inhibitors on renal function: Studies in normal rats during sodium or water diuresis and in rats with chronic renal insufficiency

The effect of acute infusion of the prostaglandin synthetase inhibitors — meclofenamate or indomethacin — was examined in awake rats. Studies were performed in normal rats undergoing either sodium or water diuresis and in salt-replete rats with chronic renal insufficiency. Prostaglandin synthetase inhibitors had no effect on renal plasma flow, glomerular filtration rate or fractional excretion of sodium in any of the groups. Absolute urinary excretion rates for sodium and potassium decreased only in the normal, salt-replete rats. In contrast, prostaglandin synthetase inhibitors consistently decreased urinary flow and osmolar clearance under all experimental conditions studied. In the normal, salt-replete rats the fall in urine flow was preceded by an increase in urinary excretion of cyclic AMP. These results show that inhibitors of prostaglandin synthesis enhance the ability of the kidney to reabsorb water. This effect may be secondary to increased cyclic AMP generation and to increased urea recirculation resulting in higher urea accumulation in the renal medulla.     

Effect of captopril on renal vascular resistance, renin, prostaglandins and kinin in the isolated perfused kidney

Vasodilatory and natriuretic effects of captopril were studied in the isolated hog kidney perfused with modified Krebs-Ringer solution. Renal arterial infusion of captopril caused increases in releases of renin, prostaglandins (PGE2, 6-keto-PGF1 alpha and PGF2 alpha) and kinin, and was accompanied by a decrease in the renal vascular resistance and an increase in urinary sodium excretion. Indomethacin administered with captopril diminished the saluretic effect of captopril and evoked an increase in kinin, but was associated with a marked decrease in prostaglandin and renin releases, while renal vascular resistance remained decreased. Indomethacin alone did not alter vascular resistance and kinin; however, renin and prostaglandin releases were decreased. Aprotinin administered with captopril showed a decrease in releases of prostaglandins, renin and kinin without any change in vascular resistance. These results suggest that increased release of kinin induced by captopril contributes to a reduction in renal vascular resistance. Increased prostaglandin release after captopril administration may be caused by an increase in kinin without direct involvement of captopril in prostaglandin synthesis. Renal prostaglandins may enhance sodium excretion and mediate renin secretion in captopril perfusion.     

Atrial natriuretic factor and renal sodium excretion during ventilation with PEEP in hypervolemic dogs.

Controlled mandatory ventilation with positive end-expiratory pressure (PEEP) reduces renal sodium excretion. To examine whether atrial natriuretic factor (ANF) is involved in the renal response to alterations in end-expiratory pressure in hypervolemic dogs, experiments were performed on anesthetized dogs with increased blood volume. Changing from PEEP to zero end-expiratory pressure (ZEEP) increased sodium excretion by 145 +/- 61 from 310 +/- 61 mumol/min and increased plasma immunoreactive (ir) ANF by 104 +/- 27 from 136 +/- 21 pg/ml. Changing from ZEEP to PEEP reduced sodium excretion by 136 +/- 36 mumol/min and reduced plasma irANF by 98 +/- 22 pg/ml. To examine a possible causal relationship, ANF (6 ng.min-1.kg body wt-1) was infused intravenously during PEEP to raise plasma irANF to the same level as during ZEEP. Sodium excretion increased by 80 +/- 36 from 290 +/- 78 mumol/min as plasma irANF increased by 96 +/- 28 from 148 +/- 28 pg/ml. We conclude that alterations in end-expiratory pressure lead to great changes in plasma irANF and sodium excretion in dogs with increased blood volume. Comparison of the effects of altering end-expiratory pressure and infusing ANF indicates that a substantial part of the changes in sodium excretion during variations in end-expiratory pressure can be attributed to changes in plasma irANF.     

Hormonal interactions and renal function during mechanical ventilation and ANF infusion in humans

To investigate the influence of atrial natriuretic factor (ANF) on renal function during mechanical ventilation (MV), we examined the renal and hormonal responses to synthetic human ANF infusion in eight patients during MV with zero (ZEEP) or 10 cmH2O positive end-expiratory pressure (PEEP). Compared with ZEEP, MV with PEEP was associated with a reduction in diuresis (V) from 208 +/- 51 to 68 +/- 11 ml/h (P less than 0.02), in natriuresis (UNa) from 12.4 +/- 3.3 to 6.2 +/- 2.1 mmol/h (P less than 0.02), and in fractional excretion of sodium (FENa) from 1.07 +/- 0.02), 0.21 to 0.67 +/- 0.17% (P less than 0.02) and with an increase in plasma renin activity (PRA) from 4.83 +/- 1.53 to 7.85 +/- 3.02 ng.ml-1.h-1 (P less than 0.05). Plasma ANF levels markedly decreased during PEEP in four patients but showed only minor changes in the other four patients, and mean plasma ANF levels did not change (163 +/- 33 pg/ml during ZEEP and 126 +/- 30 pg/ml during PEEP). Glomerular filtration rate and renal plasma flow were unchanged. Infusion of ANF (5 ng.kg-1.min-1) during PEEP markedly increased V and UNa by 110 +/- 61 and 107 +/- 26%, respectively, whereas PRA decreased from 7.85 +/- 3.02 to 4.40 +/- 1.5 ng.ml-1.min-1 (P less than 0.05). In response to a 10 ng.kg-1.min-1 ANF infusion, V increased to 338 +/- 79 ml/h during ZEEP but only to 134 +/- 45 ml/h during PEEP (P less than 0.02), whereas UNa increased, respectively, to 23.8 +/- 5.3 and 11.3 +/- 3.3 mmol/h (P less than 0.02).(ABSTRACT TRUNCATED AT 250 WORDS)