Renal responses to atrial natriuretic factor during converting enzyme inhibition

The effect of converting enzyme inhibitor (CEI) on the renal response to atrial natriuretic factor (ANF) was determined in the rat. In the absence of CEI, ANF produced rapid and significant increases in sodium, potassium, calcium, and urine excretions while blood pressure declined transiently. In the presence of CEI, ANF enhanced the excretion of sodium and potassium but not of calcium and urine. The activity of CEI was documented by observing that, in the presence of CEI, the elevation of blood pressure produced by angiotensin I was significantly attenuated. The potentiating effect of CEI on the natriuretic response to ANF supports the hypothesis that converting enzyme may be involved in the metabolism of ANF.     

Renal responses to atrial natriuretic factor in hydrated and hydropenic dogs

Atrial natriuretic factor (ANF 101-126) was compared to the standard diuretics, furosemide and hydrochlorothiazide, and to the vasodilator, acetylcholine in hydrated and dehydrated anesthetized dogs. ANF 101-126 (20 pmole/kg/min, ira) modestly reduced solute-free water clearance in water-loaded dogs and slightly lowered free water reabsorption in dehydrated animals. This pattern of responses most closely resembled those produce by 10 mg/kg, ira of the distally-acting diuretic, hydrochlorothiazide and a natriuretic dose of acetylcholine (2.5 micrograms/kg/min, ira). In contrast, the loop diuretic, furosemide (1 mg/kg, ira) drastically suppressed both free water clearance and reabsorption. ANF 101-126 produced changes in free water handling which were not readily distinguishable from those induced by either hydrochlorothiazide, a distally-acting diuretic, or acetylcholine, a vasodilator.     

Cardiac and hemodynamic responses to synthetic atrial natriuretic factor in rats

To determine the hemodynamic effects of a hypotensive dose of atrial natriuretic factor (ANF), a synthetic peptide containing 26 amino acids of endogenous rat ANF (Arg-Arg-Ser-Ser-Cys-Phe-Gly-Gly-Arg-Ile-Asp-Arg-Ile-Gly-Ala-Gln-Ser-Gly -Leu-Gly-Cys-Asn-Ser-Phe-Arg-Tyr-COOH) was studied in two groups of barbiturate anesthetized rats. In the first experiment, a 20-minute infusion of a hypotensive dose, 95 pmole/min i.v., of the synthetic ANF decreased mean arterial pressure (MAP) by 40 +/- 3 mm Hg from a baseline of 128 +/- 5 mm Hg, and cardiac output (CO) (microsphere method) by 7.8 +/- 1.8 ml/min/100 gm from a baseline of 23.5 +/- 1.3 ml/min/100 gm. Synthetic ANF did not significantly affect the total peripheral resistance (TPR) measured at the end of the 20-minute infusion. Sodium nitroprusside (SNP), infused at an equihypotensive dose of 20 micrograms/kg/min i.v., produced the same hemodynamic profile in seven other animals; in contrast, 0.3 mg/kg i.v. of hydralazine (n = 7) lowered MAP by 56 +/- 6 mm Hg and reduced TPR index by 3.0 +/- 0.6 mm Hg/ml/min/100 gm, but did not change CO. Other than an increase in coronary blood during SNF infusion, there were no significant changes in the distribution of cardiac output. Infusion of the saline vehicle had no significant effects on any of these parameters. The results of the second experiment in anesthetized rats confirmed that hypotensive doses of 40 and 100 pmole/kg/min i.v. lowered CO (dye dilution method) from a baseline of 33 +/- 6 to a minimum of 24 +/- 2 ml/min/100 gm (p less than 0.05) without affecting TPR. In addition, synthetic ANF did not significantly affect heart rate (HR) but it slightly reduced cardiac contractility (dp/dt50). These results suggest that the hypotensive dose of synthetic ANF reduced cardiac output, partially by diminishing stroke volume, and perhaps contractility.     

Attenuated renal responses to atrial natriuretic factor in streptozotocin-induced diabetic rats

To determine whether the renal responses to atrial natriuretic factor (ANF) are altered in the diabetic state, the diuretic and natriuretic responses to ANF (0.25 microgram.kg-1.min-1, i.v.) were measured in streptozotocin (STZ) induced diabetic (DIA) rats. Urine flow and sodium excretion were measured before and after ANF from innervated and denervated kidneys in anesthetized (Inactin 0.1 g/kg, i.p.) control and DIA rats (Sprague-Dawley rats injected with vehicle or STZ 65 mg/kg, i.p., respectively, 2 weeks prior to the experiment). Blood glucose levels were significantly elevated in the DIA group compared with the control group. ANF produced a significantly blunted diuresis and natriuresis in DIA rats compared with control rats. In addition, reducing the hyperglycemia in DIA rats by treatment with insulin (third group) reversed the blunted urine flow and sodium excretion responses to ANF. This study demonstrates that (i) there is a blunted natriuresis and diuresis to ANF in the STZ-induced DIA rats, and (ii) restoring the glucose levels to normal by insulin treatment in the DIA rats normalized the renal responses to ANF.     

Differential stimulation of rat lung particulate guanylate cyclase activity by atrial natriuretic peptide and sodium nitroprusside

The effects of alpha-rat atrial natriuretic peptide (alpha-rANP) and sodium nitroprusside on the activity of rat lung particulate guanylate cyclase were examined. The particulate guanylate cyclase in partially purified rat lung membranes was stimulated by both alpha-rANP and nitroprusside. The effects of alpha-rANP and nitroprusside were, however, not additive. Diamide and N-ethylmaleimide almost completely abolished the nitroprusside-mediated stimulation, while they had only moderate effects on the alpha-rANP-mediated stimulation of the enzyme activity. ATP potentiated the enzyme stimulation by alpha-rANP, whereas it had no effect on the nitroprusside-mediated stimulation. These findings suggest that the stimulation of lung particulate guanylate cyclase activity by alpha-rANP and nitroprusside is mediated by different mechanisms.     

Pulmonary vasodilator responses to vasoactive intestinal peptide in the cat

We investigated the effects of vasoactive intestinal peptide (VIP) in the feline pulmonary vascular bed under conditions of controlled pulmonary blood flow when pulmonary vascular tone was at base-line levels and when vascular resistance was elevated. Under base-line conditions, VIP caused small but significant reductions in lobar arterial pressure without affecting left atrial pressure. Decreases in lobar arterial pressure in response to VIP were greater and were dose related when lobar vascular resistance was increased by intralobar infusion of U 46619, a stable prostaglandin endoperoxide analogue. Acetylcholine and isoproterenol also caused significant decreases in lobar arterial pressure under base-line conditions, and responses to these agents were enhanced when lobar vascular tone was elevated. Moreover, when doses of these agents are expressed in nanomoles, acetylcholine and isoproterenol were more potent than VIP in decreasing lobar arterial pressure. Responses to VIP were longer in duration with a slower onset than were responses to acetylcholine or isoproterenol. Pulmonary vasodilator responses to VIP were unchanged by indomethacin, atropine, or propranolol. The present data demonstrate that VIP has vasodilator activity in the pulmonary vascular bed and that responses are dependent on the existing level of vasoconstrictor tone. These studies indicate that this peptide is less potent than acetylcholine or isoproterenol in dilating the feline pulmonary vascular bed and that responses to VIP are not dependent on a muscarinic or beta-adrenergic mechanism or release of a dilator prostaglandin.     

The responses of atrial natriuretic factor concentrations to acute volume changes in conscious rats

A rapid and sensitive radioimmunoassay has been developed for measurements of atrial natriuretic factor (ANF) in rat plasma. The antiserum, raised to rat ANF (99-126), cross-reacts with rat ANF (103-123), ANF (103-125), ANF (103-126) but not with smaller fragments, human ANF (99-126), angiotensin II, bradykinin or vasopressin. The plasma ANF concentration is 181 +/- 24 pg/ml (N = 24) in the unstressed conscious rats (Charles River CD, male). The ANF immunoreactivity in the plasma extracts was verified by HPLC analysis, which displayed one major immunoreactive peak of ANF corresponding to rat ANF (99-126) and some smaller fragments. Intravenous injection of saline elevated circulating ANF, whereas acute volume depletion by hemorrhage, water deprivation and furosemide diuresis greatly lowered plasma ANF. The prompt response of plasma ANF levels to acute changes in volume status is consistent with the proposed role of ANF as a volume-regulatory hormone.     

Photoacoustic imaging of in vivo hemodynamic responses to sodium nitroprusside

The in vivo hemodynamic impact of sodium nitroprusside (SNP), a widely used antihypertensive agent, has not been well studied. Here, we applied functional optical-resolution photoacoustic microscopy (OR-PAM) to study the hemodynamic responses to SNP in mice in vivo. As expected, after the application of SNP, the systemic blood pressure (BP) was reduced by 53%. The OR-PAM results show that SNP induced an arterial vasodilation of 24% and 23% in the brain and skin, respectively. A weaker venous vasodilation of 9% and 5% was also observed in the brain and skin, respectively. The results show two different types of blood oxygenation response. In mice with decreased blood oxygenation, the arterial and venous oxygenation was respectively reduced by 6% and 13% in the brain, as well as by 7% and 18% in the skin. In mice with increased blood oxygenation, arterial and venous oxygenation was raised by 4% and 22% in the brain, as well as by 1% and 9% in the skin. We observed venous change clearly lagged the arterial change in the skin, but not in the brain. Our results collectively show a correlation among SNP induced changes in systemic BP, vessel size and blood oxygenation.     

Antisera to atrial natriuretic factor reduces urinary sodium excretion and increases plasma renin activity in rats

Although the presence of atrial natriuretic factor in the blood has been demonstrated by radioimmunoassay, its biological activity and physiological significance has not been elucidated. Using specific antiserum against atrial natriuretic factor, we investigated the effect of passive immunization in rats. A significant reduction of urine output and urinary sodium excretion lasted for about 30 min after intravenous administration of antiserum. The effects were more pronounced in rats pretreated with deoxycorticosterone acetate and saline. Plasma renin activity was increased after the administration of antiserum. No significant effects on the urinary sodium excretion was observed following injection of normal rabbit serum. The results of this study provide evidence indicating that endogenous atrial natriuretic factor plays an important role in the regulation of urinary water and sodium excretion and plasma renin activity.     

Blood-brain barrier and atrial natriuretic factor

In brain, binding sites for atrial natriuretic factor (ANF) have been characterized in areas such as circumventricular organs that lack the tight capillary endothelial junctions of the blood-brain barrier and therefore are exposed to circulating peptides. Since atrial natriuretic factor acts directly on vascular endothelium and has been proposed to be actively involved in blood pressure regulation and fluid homeostasis, it is interesting to know whether ANF receptors exist on brain capillaries that constitute the blood-brain barrier and participate in the constant fluid exchange between blood and brain. The present paper reports recent evidence of the presence of ANF receptors located on the structure. It assesses the specific binding of 125I-labelled ANF on bovine brain microvessel preparations and its coupling with a guanylate cyclase system. The potential physiological role of ANF on brain microcirculation and blood-brain barrier functions is discussed.     

Renal hemodynamic and natriuretic effects of atrial natriuretic factor

In this article we review the renal hemodynamic and excretory actions of atrial natriuretic factor (ANF) and consider some of the mechanisms of its vascular and natriuretic effects. ANF leads to a marked, sustained, and parallel increase in whole-organ and superficial single-nephron glomerular filtration rate (GFR) while mean blood pressure is decreased and renal blood flow (RBF) is unchanged or even decreased. The increase in GFR is caused by an efferent arteriolar vasoconstriction or by a combination of afferent vasodilation and efferent vasoconstriction. ANF also leads to a decrease in the hypertonicity of the innermedullary interstitium. Together with the increase in GFR, this phenomenon accounts wholly or in great part for the ANF-induced natriuresis. The overall renal vascular effects of ANF are complex and may tentatively be conceptualized as a behavior of a functional partial agonist: slight vasoconstriction in vasodilated kidneys, no sustained effects on the vascular resistance in normal kidneys, and vasodilation in vasoconstricted kidneys. The vasoconstrictor effect of ANF may be direct or indirect and depends on extracellular calcium whereas the antagonist effect likely results from alterations in intracellular calcium homeostasis. The data raise the perspective that ANF is not only a powerful natriuretic substance but has the potential of being an important modulator of GFR and RBF in intact animals.     

Effects of atrial natriuretic factor,nitroprusside and acetylcholine on cGMP immunostaining in the isolated perfused rat kidney

Summary In the present study the localization of the cGMP production in response to the vasodilators acetylcholine (ACh) and sodium nitroprusside (SNP) and to atrial natriuretic factor (ANF) was studied in the isolated perfused rat kidney using cGMP immunocytochemistry. After ACh (0.3 M) infusion increased cGMP immunoreactivity was found in kidney interlobar and segmental arteries and in glomeruli. SNP (1 M) and ANF (0.01 M) elevated cGMP staining in the same elements of the kidney as ACh. In the glomeruli ACh and SNP stimulated cGMP production in mesangial cells whereas ANF stimulated cGMP production in epithelial cells (podocytes). However, SNP at higher doses (10 M) stimulated cGMP production not only in glomeruli, but also in interstitial cells throughout the cortex. In addition SNP and ANF increased cGMP production in the medulla.     

Effect of atrial natriuretic factor on central angiotensin II-induced responses in rats

The effect of intracerebroventricular (ICV) injection of atrial natriuretic factor (ANF) on drinking and pressor responses induced by centrally administered angiotensin II (AII) was examined in the rat. The ICV injection of ANF attenuated water intake induced by AII or 48-hr water deprivation. In contrast, ANF did not affect AII-induced pressor responses. The ICV injection of ANF did not cause recognizable change in blood pressure in spontaneously hypertensive rats or Wistar-Kyoto rats. These results suggested that ANF in the brain is involved in the central control of water intake. Brain ANF may be considered as a selective antagonist of the dipsogenic effect of AII but not its pressor effect.     

Effect of sodium ion on atrial natriuretic factor release from rat hypothalamic fragments

The effects of Na ion and choline chloride on the release of atrial natriuretic factor (ANF) and growth hormone-releasing factor (GHRF) from rat hypothalamic fragments including the organum vasculosum of the lamina terminalis (OVLT) were examined in vitro. Although the release of ANF was stimulated by Na ion, choline chloride, and glucose in concentration-dependent manners, the release was more sensitive to a change in concentration of Na ion than to those of choline chloride and glucose. On the other hand, the change in Na ion concentration did not affect the release of GHRF. It can be therefore proposed that Na ion is the first candidate controlling ANF release from the brain tissue and that ANF in the hypothalamus and/or OVLT may play some role in the regulation of the Na ion and water balance in the central nervous system.     

Effects of atrial natriuretic factor, nitroprusside and acetylcholine on cGMP immunostaining in the isolated perfused rat kidney.

In the present study the localization of the cGMP production in response to the vasodilators acetylcholine (ACh) and sodium nitroprusside (SNP) and to atrial natriuretic factor (ANF) was studied in the isolated perfused rat kidney using cGMP immunocytochemistry. After ACh (0.3 microM) infusion increased cGMP immunoreactivity was found in kidney interlobar and segmental arteries and in glomeruli. SNP (1 microM) and ANF (0.01 microM) elevated cGMP staining in the same elements of the kidney as ACh. In the glomeruli ACh and SNP stimulated cGMP production in mesangial cells whereas ANF stimulated cGMP production in mesangial cells whereas ANF stimulated cGMP production in epithelial cells (podocytes). However, SNP at higher doses (10 microM) stimulated cGMP production not only in glomeruli, but also in interstitial cells throughout the cortex. In addition SNP and ANF increased cGMP production in the medulla.     

The physiology of atrial natriuretic factor

Following the discovery of the natriuretic effect of atrial extract, our laboratory attempted to dissect the possible physiological role of atrial natriuretic factor. Initial micropuncture experiments demonstrated that the reduction of tubular sodium reabsorption was localized in the medullary collecting duct, a nephron site in which sodium transport was known to be inhibited after acute hypervolemia. Partial removal of the endogenous source of atrial natriuretic factor was associated with a reduced renal response to hypervolemia, confirming that the factor is causally involved in acute sodium balance. In vitro incubation of atrial tissue was used to investigate mechanisms of release of atrial natriuretic factor. It was found that agonists known to activate the intracellular polyphosphoinositide system in other tissues were effective in releasing natriuretic activity from the atria into the incubation medium. To determine whether atrial natriuretic factor might play a role in hypertension, atrial natriuretic content was measured in spontaneously hypertensive rats and their normotensive controls. Hypertension was associated with increased content. Since the renal response to exogenous factor was not impaired in these animals, we suggested that the increased content might play a compensatory role. Our early studies thus indicated that atrial natriuretic factor was a previously unrecognized hormone involved in cardiovascular regulation.     

Effect of sodium intake on fasting and postprandial levels of atrial natriuretic factor in humans

The effect of chronic dietary sodium intake on fasting and postprandial plasma atrial natriuretic factor (ANF) levels was examined in 2 studies of normal humans. In Study I, 3 separate groups of normals (n = 8 for each) received diets of either low (L), normal (N) or high (H) daily sodium intake for 7 days. Twenty-four h urines for sodium were obtained on days 6 and 7. Urine sodium excretion for each group was (L) 13.1 +/- 3.7, (N) 150.1 +/- 19.4 and (H) 271.3 +/- 33.6 mEq/day. On the completion of day 7, fasting plasma ANF showed no change with alteration in sodium intake. In contrast, when blood samples were obtained postprandially, significant increases in plasma ANF were observed in the group maintained on high sodium diet. In Study II, a continuous group of normals (n = 8) received the 3 sodium controlled diets for 7 days sequentially (L/N/H). No significant changes in fasting levels of ANF were detected between L/N/H sodium diets. In conclusion, these studies show that the maintenance of sodium balance during chronic changes in sodium intake can occur despite no significant increase in plasma ANF under normal steady state conditions. However, plasma ANF is significantly elevated during chronic high sodium intake, when measured postprandially.     

Radioreceptor assay for atrial natriuretic factor

Interest in accurate measurement of atrial natriuretic factor (ANF) in biological fluids and various tissues has been stimulated by recent data indicating the possible role of ANF in the homeostasis of salt and water. The presence of high-affinity binding sites for ANF in rat glomeruli has allowed us to develop a rapid, sensitive, and simple radioreceptor assay (RRA). A saturable high-affinity binding site on the membranes of rat glomeruli has been characterized by a dissociation constant of 33 pM and binding capacity of 396 fmol/mg protein. Rat plasma extracts or atrial homogenates or standards were incubated with radioiodinated ANF and a preparation of rat glomerular membranes. The receptor-bound and free radioactivity were separated by filtration on Whatman GF/C paper after 1 h incubation at room temperature. The sensitivity of the RRA was 2.08 fmol. The effective concentration of standard ANF that displaced 50% of labeled receptor-bound ANF (EC50) was 43.3 +/- 2.6 fmol/ml (n = 7). Both intra- and interassay coefficients of variation were smaller than 11%. This RRA assay has been compared with radioimmunoassay (RIA). High correlations for 19 plasma extracts and 34 atrial homogenates (r = 0.973 and r = 0.954, respectively) tested by RRA and RIA were obtained. This good correlation between the two methods suggests that the immunoreactive material found in rat plasma and atrial homogenates also displays biological activity.     

Hemodynamic and plasma atrial natriuretic factor responses to cardiac volume loading in young versus older normotensive humans.

To assess the effects of age on responsiveness of atrial natriuretic factor (ANF) release, and the possible contribution of cardiac sympathetic activity, in young (n = 8) and older normotensives (n = 7), the effects of cardiac volume load on plasma ANF, central venous pressure, and general hemodynamics were evaluated. Studies were performed after pretreatment with placebo or 80 mg propranolol. Cardiac volume loading increased central venous pressure by 3-5 mmHg (1 mmHg = 133.3 Pa); beta-blockade did not affect this response. Cardiac volume load caused significant increases in heart rate (10-15 beats/min) and cardiac index (by 0.7-0.8 L.min-1.m-2) and decreases in plasma catecholamines. Propranolol attenuated the increases in heart rate and cardiac index. These hemodynamic responses did not differ significantly between the two groups of subjects. Cardiac volume load significantly increased plasma ANF, by 87 +/- 21 pg/mL in the young normotensives and by 212 +/- 33 pg/mL in the older normotensives (p < 0.01, young vs. older). beta-Blockade did not affect this different response. Our results show that the plasma ANF response to volume loading is potentiated by aging. Although differences in atrial stretch cannot be excluded, this effect may relate to the decrease in clearance of plasma ANF occurring with aging.