The effect of hypovolemia on the renal and cardiovascular responses to atrial natriuretic factor (ANF) infusion.

The renal and cardiovascular effects of ANF infusion have been examined in separate series of experiments; in conscious instrumented sheep following either hemorrhage (10 mL/kg body weight) or removal of 500 mL of plasma by ultrafiltration. Renal arterial infusion of hANF (99-126) at 50 micrograms/h increased sodium excretion from 99 +/- 30 to 334 +/- 102 (p less than 0.05) in normal animals, and from 77 +/- 31 to 354 +/- 118 mumol/min in hemorrhaged animals. Similarly in sheep following ultrafiltration, cardiac output and stroke volume were reduced by intravenous infusion of ANF (100 micrograms/h), although these effects were less marked than those observed in normal animals. The rapid modulation of natriuretic responses to ANF observed in volume expanded animals is not seen in this model of acute volume depletion suggesting that the mechanism through which the renal response to ANF is modulated in low sodium or volume states is not simply the reverse of that which produces rapid enhancement of response following blood volume expansion.     

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.     

Diuretic, natriuretic and hypotensive effects of synthetic atrial natriuretic factor in conscious newborn calves

The effects of synthetic Atrial Natriuretic Factor (ANF) on urine flow rate, sodium excretion, potassium excretion and arterial blood pressure were studied in 10-12 days-old female calves. In four female calves fitted with a Foley catheter, an intravenous administration of ANF (Ile-ANF 26; 1.6 micrograms/kg body wt during 30 min) induced an increase (P less than 0.01) in urine flow rate (from 1.8 +/- 0.2 to 12.8 +/- 1.1 ml/min), sodium excretion (from 0.15 +/- 0.02 to 0.81 +/- 0.06 mmol/min) and free water clearance (from 0.13 +/- 0.9 to 5.16 +/- 0.5 ml/min). It had no significant effect on potassium excretion. In four calves chronically-instrumented with a carotid catheter, an intravenous administration of synthetic ANF alone (1.6 micrograms/kg body wt during 30 min) induced a gradual decrease (P less than 0.01) in systolic, diastolic and mean arterial blood pressure (from 112 +/- 4 to 72, from 72 +/- 2 to 61 +/- 1 and from 90 +/- 2 to 65 +/- 2 mmHg respectively, at the end of ANF infusion). An intravenous administration of angiotensin II (AII) (0.5 micrograms/kg body wt during 45 min) induced a significant increase in systolic, diastolic and mean arterial blood pressure which was antagonized by an i.v. bolus injection of ANF (0.125 micrograms/kg body wt). However, during a simultaneous administration of AII (0.3 micrograms/kg body wt during 30 min) and ANF (1.6 micrograms/kg body wt. during 30 min), the atrial peptide did not influence the pressure action of AII. These findings indicate that the conscious newborn calf is sensitive to diuretic, natriuretic and hypotensive effects of synthetic ANF.     

Renal and systemic effects of synthetic atrial natriuretic factor

A synthetic peptide corresponding to a sequence of 26 amino acids contained in endogenous rat atrial natriuretic factor (ANF), was infused into one renal artery of anesthetized dogs for a comprehensive in vivo evaluation of the renal and systemic effects of pure ANF. The results proved conclusively that ANF acted directly on the kidney since urine volume and fractional excretion of sodium, potassium, chloride and calcium were elevated in a dose-related manner in the ANF-treated kidney, but were not significantly affected in the contralateral saline-infused organ. The maximum effects achieved with the synthetic ANF were higher than any reported following intravenous administration of crude extracts of rat atria and were similar to those produced by thiazide diuretics. In four of the five dogs studied, renal vascular resistance fell progressively as doses of ANF were increased. Glomerular filtration rate was not significantly elevated during ANF infusion, but was correlated with sodium excretion rates. Even though mean arterial pressure was progressively reduced, there was no significant change in heart rate and no stimulation of renin secretion. Arterial cyclic GMP concentration was higher in the basal state and rose more rapidly than did renal venous levels, indicating that increases in circulating concentrations of arterial cyclic GMP originated from an extrarenal source. Dose-related elevations in urinary cyclic GMP excretion could be explained by increased cyclic GMP filtration, by enhanced production in tubular cells, or by renal tubular secretion. Especially in the saline-infused kidney, there was a clear dissociation between excretion of cyclic GMP and fractional sodium excretion. We conclude that the synthetic ANF increased electrolyte excretion via a direct renal action which was not solely dependent upon changes in renal vasculature, renin secretion or cyclic GMP levels.     

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.     

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.     

Centrally applied atrial natriuretic factor diminishes bile secretion in the rat.

Little is known about the role of centrally applied peptides in the regulation of bile secretion. We previously reported that the intravenous injection of atrial natriuretic factor (ANF) reduces bile acid dependent flow without affecting portal venous pressure in the rat. In the present work, we studied the effects of centrally applied ANF on bile secretion and the possible pathways involved. Rats were cannulated in the brain lateral ventricle for the administration of 1, 10 and 100 ng/microl ANF. After 1 week, the common bile duct was cannulated and bile samples were collected every 15 min for 60 min after the administration of ANF. The excretion rate of various biliary components was assessed. Bile secretion experiments were also performed after bilateral truncal vagotomy or atropine administration to evaluate the participation of a vagal pathway. In addition, the role of the sympathetic system was addressed by combined administration of propranolol and phentolamine. Centrally applied ANF did not modify blood pressure but diminished bile flow and bile acid output. It also reduced sodium and potassium secretion but did not modify protein or phospholipid excretion. Neither bilateral truncal vagotomy nor atropine administration abolished ANF response. Furthermore, combined administration of adrenergic antagonists did not alter ANF inhibitory effect on bile flow. In conclusion, centrally applied ANF reduced bile acid dependent flow not through a vagal or adrenergic pathway in the rat, suggesting the involvement of a peptidergic pathway.     

The blood pressure and renal responses to SCH 34826, a neutral metalloendopeptidase inhibitor, and C-ANF (4-23) in Doca-salt hypertensive rats.

C-ANF (4-23) and neutral metalloendopeptidase (NEP) inhibitors have been shown to prevent ANF metabolism and lower blood pressure presumably by the accumulation of ANF in the circulation. In the present study, we examined the interaction between C-ANF (4-23) and SCH 34826, an inhibitor of NEP, and ensuing effects on blood pressure, excretion of urine and sodium, and cGMP in the plasma and urine in conscious DOCA-salt hypertensive rats. C-ANF (100 micrograms/kg, iv bolus plus 10 micrograms/kg/min X 30) or SCH 34826 (90 mg/kg, sc) alone caused significant reductions in blood pressure and increases in plasma and urinary excretion of cGMP, a biochemical marker of endogenous ANF activity, at one hour post-drug. C-ANF (4-23) alone elicited a significant diuresis and natriuresis. SCH 34826 also enhanced sodium excretion and tended to increase urine volume. In comparison, the combination of C-ANF (4-23) and SCH 34826 produced a greater reduction in blood pressure and increases in plasma and urinary excretion of cGMP than either agent alone. The combination also caused significant diuresis and natriuresis. It is suggested that the greater blood pressure and renal responses to a combination of SCH 34826 and C-ANF than either agent alone reflect greater accumulation of endogenous ANF due to concomitant inhibition of both receptor-mediated clearance and NEP.     

The effects of intracerebroventricular infusion of atrial natriuretic factor in conscious sheep

The effects of 24-hour intracerebroventricular infusion of human atrial natriuretic factor (ANF) and two related fragments were studied in conscious sheep. ANF (1-28) had no effect on either mean arterial pressure (MAP) or heart rate (HR) when infused at 3 or 10 micrograms/hr, however a small diuresis and an increase in urinary sodium (Na) excretion was observed. The smaller fragment, ANF (5-27) infused at 10 micrograms/hr, increased MAP, HR and body temperature, although the same rate of infusion of ANF (5-28) was without effect. All peptides increased plasma sodium concentration and plasma osmolality. None of the peptides affected plasma ACTH, glucose or renin concentration. ANF (1-28) had no effect on either Na intake or water intake in Na-depleted sheep. These studies suggest that members of the ANF family can influence a number of physiological functions following central administration.     

心钠素对卒中易感型自发性高血压大鼠血浆和脑组织加压素的影响

为研究心钠素(ANF)和精氨酸加压素(AVP)的相互作用在原发性高血压发病中的意义,对卒中易感型自发性高血压大鼠(SHRsp)和对照大鼠(WKY)侧脑室(icv)或静脉(iv)注射人ANF-(99-126)观察其对血浆、下丘脑和垂体AVP含量以及平均动脉压(MAP)和尿量(UV)、尿钠(U_(Na)V)排泌的影响。静脉注射ANF后10min,SHRsp和WKY大鼠的MAP分别下降9.4％和12.2％(P<0.05),UV分别增加9和20倍(P<0.01),U_(Na)V增加16和29倍(P<0.01)。侧脑室注射ANF对两种大鼠的MAP、UV和U_(Na)V排泌均无明显作用。静脉或侧脑室注射ANF均使两种大鼠的血浆AVP水平明显下降,其中SHRsp的血浆AVP浓度下降程度(iv,-58％;icv,-31％)弱于WKY大鼠(iv,-80％;icv,-65％),下丘脑AVP含量在两种大鼠中都明显增加,而垂体AVP含量无明显变化。 结果表明,人ANF-(99-126)有明显的抑制AVP释放和降压、利尿、利纳作用,而SHRsp对这些作用的敏感性都降低,提示SHRsp对ABF的反应减弱可能在自发性高血压大鼠的发病中具有一定的意义。     

Interaction among atrial natriuretic factor (ANF), vasopressin, and renal nerves in terms of renal responses in rats.

The relationship between the renal nerves and vasopressin in terms of the natriuretic and diuretic responses to atrial natriuretic factor (ANF--0.25 microgram/kg/min for 15 min), was investigated in unilaterally denervated anesthetized rats before and after the administration of a vasopressin V2 specific antagonist (AVPX)--(40 micrograms/kg bolus followed by 0.4 microgram/kg/min infusion). Administration of the AVPX or ANF did not alter the arterial pressure. Acute renal denervation or AVPX administration independently produced significant increases in sodium and water excretion. ANF infusion by itself produced a greater increase in urine flow and sodium excretion from the denervated kidney compared to the intact kidney before the administration of AVPX. However, after the administration of AVPX renal responses to ANF from the intact kidneys were enhanced such that they were not significantly different from the denervated kidneys. These results suggest that the full physiological response to ANF may be masked by tonic renal nerve activity or antidiuretic actions of vasopressin. Furthermore, since combined renal denervation and AVPX administration does not produce any greater potentiation of the renal responses to ANF than either of these manipulations alone, it is suggested that they may act via a common mechanism, possibly altering activity in the renal nerves.     

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.     

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.     

Studies on the role of the pituitary in the control of atrial natriuretic factor secretion and sodium excretion

Recent work suggests that hypophysectomized (HYPOX) rats show low levels of atrial natriuretic factor (ANF) and an attenuated diuresis and natriuresis to blood volume expansion. The purpose of this was (i) to examine the effect of various hormone replacements on ANF and renal excretion in HYPOX rats and (ii) to compare the renal responses to exogenous ANF in intact and HYPOX rats. Groups of rats received subcutaneous pellet implant of either dexamethasone (DEX), thyroxine (T4), or a placebo. Approximately 1 week later, they were anesthetized and subjected to a 20% blood volume expansion. DEX rats had a higher mean arterial pressure than placebo-treated rats while both MAP and heart rate were higher in T4 rats. Only the DEX rat showed augmented renal responses to volume expansion while no group showed significant changes in plasma ANF concentration during volume expansion. In a second series, groups of HYPOX rats received renal capsular transplants of either six hemi-pituitaries or six pieces of muscle which markedly raised serum prolactin levels in the hemi-pituitary group. The hemi-pituitary rats showed a greater diuresis and natriuresis during volume expansion than the muscle group and also showed a transient increase in plasma ANF. In addition, groups of either intact or HYPOX rats were anesthetized and received intravenous bolus injections of ANF. Both intact and HYPOX rats showed a very similar diuresis and natriuresis to exogenous ANF. However, potassium excretion was markedly reduced in HYPOX rats. The results show that DEX augments the renal responses to volume expansion by some mechanism which does not involve changes in plasma ANF. Thyroxine increases mean arterial pressure and heart rate in HYPOX rats but does not augment the renal or ANF responses to volume expansion. Chronic elevations in prolactin increase the renal response to volume expansion. Finally, the kidneys of HYPOX rats are capable of increasing sodium and water output in response to large doses of exogenous ANF.     

Effects of atrial natriuretic peptides and furosemide in conscious dogs

Effects of ANF(8-33) and Auriculin A on renal variables were investigated in conscious water-diuretic dogs. The two substances were injected intravenously (1.08 micrograms/kg in 3 min) or ANF(8-33) was infused (0.2 microgram/kg X min in 20 min). The effects were compared to those of an equinatriuretic dose of furosemide (1.0 microgram/kg X min). Injections caused increases in sodium excretion, diuresis, and osmolar clearance. No significant change in exogenous creatine clearance (CCREA) occurred. Infusion of ANF(8-33) decreased blood pressure by 14% (P less than 0.01) and increased sodium excretion by a factor of 10 (P less than 0.01). The natriuresis was a function of increases in diuresis and urinary sodium concentration, the latter by a factor of 6 (P less than 0.01). Diuresis and free-water clearance (CH2O) increased by 60% (P less than 0.01), but urine osmolality did not change significantly. After the infusion a significant decrease in PAH clearance (CPAH) (P less than 0.01) was observed. Filtration fraction (FF) did not change. The furosemide natriuresis appeared later than that of ANF without significant deviations in diuresis, CH2O, CCREA, CPAH, and FF; urine osmolality increased by 35% (P less than 0.01). The effects of ANF(8-33) differ from those of furosemide in several ways. First, the onset of natriuresis is faster, second, the natriuresis is associated by marked increases in diuresis and free-water clearance but not in urine osmolality; and third, natriuresis is followed by a reduction in renal blood flow. The rapid natriuresis of ANF can occur without changes in glomerular filtration rate.     

The blood pressure decrease-induced sympathetic discharge following atrial natriuretic factor administration may offset its natriuretic action

Conscious SHR and WKY rats were infused during 7 days with ANF (Arg 101-Tyr 126), 100 ng/hr/rat, by means of miniosmotic pumps and their basal blood pressure (BP), changes in sodium excretion and urinary catecholamines compared with those at the last day of the infusion. The SHR initial BP of 181 +/- 3 mmHg gradually declined to 137 +/- 5 mmHg. No significant change in blood pressure was observed in the ANF-infused WKY group. However, WKY rats exhibited an increased sodium excretion and urinary dopamine/norepinephrine ratio when compared to sham-infused rats. No such differences were observed in SHR. It is suggested that an ANF-induced withdrawal of the renal sympathetic tone permits the manifestation of its natriuretic action in WKY rats. When, however, a BP decrease predominates, as in SHR, this decrease results in a reflex sympathetic discharge with a renal sympathetic activity over-riding the ANF induced natriuresis seen in WKY rats. Secondary sympathetic responses to the ANF-induced BP decrease have to be thus taken into account when a dissociation between the hypotensive and natriuretic action of ANF is observed in vivo.     

Evidence for a dopaminergic mechanism for the diuretic and natriuretic action of centrally administered atrial natriuretic factor

1. Intracerebroventricular (IVT) administration of rat atrial natriuretic factor (ANF) (99-126) to conscious male hydrated rats induces a dose-dependent increase in urine and sodium excretion. The possible involvement of brain dopaminergic system in the IVT-ANF-induced diuresis and natriuresis was evaluated. 2. Central sympathectomy (6-OHDA, 250 micrograms/5 microliters, IVT; 72 and 48 hr before IVT-ANF) inhibited both the diuretic and the natriuretic action of centrally administered ANF, suggesting that in the brain ANF requires the integrity of central noradrenergic and/or dopaminergic systems function for its actions. 3. Intracerebroventricular injection of haloperidol and intragastric administration of domperidone prevent the diuretic and natriuretic response to centrally administered ANF. 4. Our data suggest a neuromodulatory action of ANF within the brain and demonstrate an interaction of the peptide with brain dopaminergic systems.     

Adenovirus-mediated human prostasin gene delivery is linked to increased aldosterone production and hypertension in rats

Prostasin has been demonstrated to be an activator of epithelial sodium channels in cultured renal and bronchial epithelial cells. In this study, we evaluated the effects of adenovirus-mediated gene transfer of human prostasin on blood pressure regulation and sodium reabsorption in Wistar rats. Expression of human prostasin mRNA was identified in rat adrenal gland, liver, kidney, heart, lung, and aorta, and immunoreactive human prostasin was detected in the circulation and urine of rats receiving prostasin gene transfer. A single injection of adenovirus carrying the prostasin gene caused prolonged increases in blood pressure for 3-4 wk. Blood pressure increase was accompanied by elevated plasma aldosterone levels and reduced plasma renin activity. The increase in blood pressure and plasma aldosterone levels as well as the reduction of plasma renin activity correlated with the expression of human prostasin transgene. Elevated plasma aldosterone levels were detected at 3 days after gene transfer before the development of hypertension, indicating that stimulation of mineralocorticoid production is the primary target of prostasin. Prostasin gene transfer significantly reduced urinary K(+) excretion but increased urinary Na(+) and kallikrein excretion. Elevated renal kallikrein levels promote natriuresis, which may lead to sodium escape and prevent further increases of blood pressure after prostasin gene transfer. In summary, these results suggest that prostasin participates in blood pressure and electrolyte homeostasis by regulating the renin-angiotensin-aldosterone and kallikrein-kinin systems.     

Comparison of the natriuresis and chlorures is associated with glomerular hyperfiltration induced by atrial natriuretic factor or glucagon

The impact on renal sodium chloride reabsorption of an acute increase in glomerular filtration rate (GFR) induced by atrial natriuretic factor (ANF) or glucagon was examined in the conscious rat. These hormones have no direct effect on proximal solute transport and have opposite effects on distal transport. ANF and glucagon increased GFR to a comparable extent (2.0 ± 0.2 to 3.5 ± 0.4 ml/min, p<0.01, and 1.9 ± 0.1 to 3.3 ± 0.1 ml/min, p<0.001, respectively). While most (95–97%) of the increment in filtered sodium chloride was reabsorbed, a small portion (3–5%) escaped tubular reabsorption. Absolute sodium and chloride urinary excretion rates increased similarly in response to each hormone, by two- to three-fold. Slightly imperfect load-dependent sodium chloride reabsorptive response by the nephron, despite opposite direct effects on distal nephron transport, may account for the observed natriuresis and chloruresis associated with the acute glomerular hyperfiltration induced by ANF or glucagon administration.     

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.