大鼠脑胆碱能系统对血量扩张引起利尿与尿钠排泄...

The role of brain cholinergic system on diuresis and natriuresis induced by volume expansion was studied in conscious rats. In a series of experiments, the diuretic, natriuretic and kaliuretic responses induced by volume expansion were compared in three groups of conscious rats pretreated respectively with intracerebroventricular (icv) injection of artificial cerebrospinal fluid (ACSF), atropine and hexamethonium. The natriuretic, kaliuretic and diuretic responses induced by volume expansion were much less in the animals with icv injection of atropine than in the control group with injection of ACSF (P less than 0.01). While the group pretreated with icv injection of hexamethonium showed no significant decrease in these responses of volume expansion than that of the control (P greater than 0.05). Volume expansion produced no change in insulin and PAH clearance in both the atropine and the ACSF group. Thus the atropine suppressed diuresis, natriuresis and kaliuresis are independent of changes in GFR and RPF. It is inferred from the results of the present investigation that volume expansion induced diuresis and natriuresis appear to be due to inhibition of water and sodium reabsorption in the renal tubules and regulated by certain brain cholinergic system.     

Thiazolidinediones and the renal and hormonal response to water immersion-induced volume expansion in type 2 diabetes mellitus

Thiazolidinediones cause sodium retention and edema by a direct effect on the kidneys. The aim of this study was to use the technique of head-out water immersion to investigate the effects of rosiglitazone on sodium and volume homeostasis in subjects with type 2 diabetes mellitus. The volume expansion response to water immersion was compared with the response on a non-immersion control day in 12 nondiabetic male subjects and 8 diet-controlled male type 2 diabetic subjects with hourly blood and urine sampling over a 4-h period. This was repeated after both groups had taken 4 mg of rosiglitazone daily for 7 days. Immersion produced a natriuresis in both groups (P < 0.001). An impairment of this natriuresis was seen in the diabetic subjects (P = 0.006). However, when rosiglitazone was taken, there was no significant difference in immersion-induced natriuresis compared with nondiabetic controls (P = 0.2). There was an immersion-induced rise in atrial natriuretic peptide (ANP) and urinary cyclic guanosine monophosphate (cGMP), in the healthy subjects (ANP P = 0.001, cGMP P = 0.043), which was not seen in the diabetic subjects (ANP P = 0.51, cGMP P = 0.74). Rosiglitazone restored the immersion-induced increase in cGMP excretion and rise of ANP in the diabetic group (ANP P = 0.048, cGMP P = 0.009). This study confirms that type 2 diabetic subjects have an impaired natriuretic response to acute volume expansion, which appears to be enhanced rather than diminished by rosiglitazone. This may be related to its effects in increasing natriuretic peptides and restoring the impaired cGMP excretion to volume expansion.     

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.     

Exaggerated natriuresis in experimental hypertension

The exaggerated natriuretic response to intravenous isotonic saline volume expansion in conscious spontaneous hypertensive rats (SHR), compared to normotensive Wistar-Kyoto rats (WKY), is associated with an exaggerated inhibition of renal nerve activity. Following bilateral renal denervation, the natriuresis was significantly attenuated in SHR but unaffected in WKY. Thus, the exaggerated natriuretic response to intravenous isotonic saline in SHR is dependent on their enhanced inhibition of renal nerve activity. Conscious Dahl salt-sensitive rats, on either low or high salt diet, did not exhibit an exaggerated natriuretic response to intravenous isotonic saline volume expansion which may be explained by their known impairment of cardiopulmonary baroreceptor reflex mediated suppression of efferent sympathetic nerve activity during intravenous volume expansion. Conscious hypertensive DOCA-NaCl rats exhibited an exaggerated natriuretic response to oral but not to intravenous isotonic saline volume expansion, suggesting differences in gastrointestinal absorption of isotonic saline. It is concluded that enhanced inhibition of efferent renal sympathetic nerve activity via cardiopulmonary baroreceptor reflex activation contributes to the exaggerated natriuretic response to intravenous isotonic saline volume expansion in certain models of experimental hypertension.     

大鼠脑胆碱能系统对血量扩张引起利尿与尿钠排泄的作用

本工作在清醒大鼠侧脑室注射胆碱能药物,观察脑胆碱能系统对血量扩张引起利尿与尿钠排泄的作用。侧脑室注射人工脑脊液后进行血量扩张引起尿流量、排钠量和排钾量显著增加(P<0.01)。侧脑室注射胆碱能 M 受体阻断剂阿托品后,血量扩张引起尿流量、排钠量和排钾量增加的效应比注射人工脑脊液组的均显著减弱(P<0.01);而侧脑室注射胆碱能 N 受体阻断剂六烃季胺后,血量扩张引起尿流量、排钠量和排钾量增加的效应与注射人工脑脊液组的相比无显著差异(P>0.05)。侧脑室注射人工脑脊液或阿托品大鼠的肾小球滤过率(GFR)与肾血浆流量(RPF)在血量扩张后均无显著变化(P>0.05)。上述结果表明:大鼠脑胆碱能M 受体参与血量扩张引起利尿与尿钠排泄反应的调节。脑 M 受体的这种作用不是通过改变GFR 和 RPF,而可能是通过未明神经液递机制直接影响肾小管对水钠的重吸收。     

Effects of rat atrial extract on sodium transport and blood pressure in the rat

Atrial cardiocytes contain specific atrial granules ( SAGs ) which are the storage site of atrial natriuretic factor (ANF). The purpose of the present study was to determine whether ANF produces natriuresis by inhibiting Na+-K+ pump activity and whether this factor is similar to the humoral sodium transport inhibiting factor ( HSTIF ) previously demonstrated in acutely volume expanded animals and humans as well as in experimental and human essential hypertension. Our results indicate that, in contrast to the HSTIF , ANF does not inhibit membrane Na+,K+-ATPase, vascular smooth muscle cell Na+-K+ pump activity, or sodium transport in the toad bladder. Intravenous infusion of ANF in the bilaterally nephrectomized, hexamethonium-treated rat produces only a small transient pressor response, probably due to potentiation of endogenous norepinephrine. These findings strongly suggest that the ANF is not the same as the HSTIF detected on acute volume expansion and in some forms of hypertension. They also suggest that the diuretic and natriuretic effects of ANF are due to mechanism(s) other than blood pressure elevation and inhibition of Na+-K+ pump activity.     

Role of transmitters in mediating hypothalamic control of electrolyte excretion.

Changes in urinary volume and electrolyte excretion were monitored after the injection of cholinergic and monoaminergic drugs into the third cerebral ventricle of conscious male rats made diuretic by an intravenous infusion of 5% dextrose. A natriuretic and kaliuretic response was induced by the intraventricular injection of norephrine (NE) or carbachol, whereas dopamine (DA) had no effect. The beta-receptor stimulator isoproterenol (ISO) induced an antinatriuretic and antikaliuretic effect. Intraventricular injection of the alpha-adrenergic blocker phentolamine abolished the natriuretic response to NE and carbachol and to intraventricular hypertonic saline (HS). By contrast, the beta-adrenergic blocker propranolol induced a natriuresis and kaliuresis when injected alone and an additive effect when its injection was followed by NE or HS. Propranolol potentiated the natriuretic response to carbachol. Cholinergic blockade with atropine diminished the response to NE and blocked the natriuretic response to HS. It is suggested that sodium receptors in the ventricular wall can modify renal sodium excretion via a stimulatory pathway involving cholinergic and alpha-adrenergic receptors and can inhibit sodium excretion via a tonically active beta-receptor pathway.     

Effects of atrial appendectomy on circulating atrial natriuretic factor during volume expansion in the rat

This study examined the changes in the circulating level of endogenous atrial natriuretic factor during diuresis and natriuresis produced by acute volume expansion in anesthetized rats with either bilateral atrial appendectomy (n = 9) or sham operation (n = 9). Following control measurements in the sham-operated rats, 1% body weight volume expansion with isotonic saline produced an increment in urinary sodium excretion of over 4 mueq/min (P less than 0.05) while urine volume increased by more than 20 microliter/min (P less than 0.05). These responses were associated with a significant increase in immunoreactive plasma atrial natriuretic factor from a baseline value of 82 +/- 10 pg/ml to a level of 120 +/- 14 pg/ml (P less than 0.05). In contrast, in the group of rats with bilateral atrial appendectomy an identical degree of volume expansion increased urinary sodium excretion and urine volume by only 0.61 mueq/min (P less than 0.05) and 3.07 microliter/min (P less than 0.05), respectively. In this group, immunoreactive plasma atrial natriuretic factor remained statistically unchanged from a control value of 70 +/- 12 pg/ml to a level of 82 +/- 16 pg/ml (P greater than 0.05). Comparison of the two groups indicates that the natriuresis, diuresis, and plasma atrial natriuretic factor levels during volume expansion were significantly reduced in the rats with bilateral atrial appendectomy. No differences in mean arterial pressure and heart rate were observed between the two groups. These data demonstrate that removal of both atrial appendages in the rat attenuated the release of atrial natriuretic factor during volume expansion; and this effect, in turn, was associated with a reduction in the natriuretic and diuretic responses.     

Volume expansion natriuresis during servo control of systemic blood pressure in conscious dogs

The importance of arterial blood pressure (BP) and ANG II for the renal natriuretic response (NaEx) to volume expansion (3.5% body wt) was investigated during converting enzyme blockade (enalaprilate, 2 mg/kg). In separate experiments, BP was clamped either 30 mm Hg above or a few millimeters mercury below baseline by servo-controlled infusion of ANG II or sodium nitroprusside, respectively, so that volume expansion did not change BP. Enalapril decreased BP by 8 mm Hg. Without clamping, volume expansion returned BP to that of preenalapril control and increased NaEx 10-fold (40+/-10 to 377+/-69 micromol/min). During high pressure clamping (133+/-2 mm Hg), peak NaEx after volume expansion was 6% of control experiments. During low pressure clamping, NaEx was 68% of control experiments (45+/-15 to 256+/-64 micromol/min). The results show that 1) in absence of ANG II, volume expansion elicited pronounced natriuresis without increases in BP beyond baseline, 2) in the presence of hypertensive amounts of ANG II, the volume expansion-induced natriuresis was almost eliminated, and 3) nitroprusside prevented the increase in BP but not sodium excretion during volume expansion. ANG II appears to dominate the control of NaEx; however, when absent, volume expansion may still induce marked natriuresis even at constant BP, possibly via nitric oxide-mediated mechanisms.     

Interaction of lead acetate with atrial natriuretic factor in rats

Lead exposure alters cardiovascular function and has been implicated in the etiology of hypertension. Therefore it was of interest to study the short term effect of lead treatment on atrial natriuretic factor (ANF), a hormone which produces vascular smooth muscle relaxation and natriuresis. Male Sprague Dawley rats were randomly divided into 5 groups containing 4 animals each and injected intraperitoneally with normal saline (control), 0.01, 0.1, 0.5 or 1.0 mg/kg of body weight with lead acetate solution twice a day for 7 days, and then maintained for a period of 30 days. During this period water consumption and urine volume were measured daily. At the end of the 30 day period, immunoreactive levels of ANF in hypothalamus, atria and plasma were measured by radioimmunoassay. Lead treatment did not alter water consumption, but significantly decreased urine output. At all doses, lead produced a decrease in hypothalamic content of ANF and slightly increased atrial levels. The content of ANF in plasma was decreased. The changes in ANF content indicate that lead interacts with the hormonal regulation of the cardiovascular system and these observations may relate to the cardiovascular toxicity of this heavy metal.     

Cyclical edema in a patient with hypothalamic disorders and chronic glomerulonephritis: arginine vasopressin-dependent atrial natriuretic hormone release.

A 28-year-old woman had hypothalamic disorders (amenorrhea, obesity, psychiatric abnormalities, polydipsia and fever) and chronic glomerulonephritis. She also suffered from general edema associated with cyclical oliguria and polyuria. Her body weight and plasma osmolality increased during the oliguria phase lasting 2 to 8 days and decreased after paroxysmal polyuria accompanied by the natriuresis. These episodes occurred repeatedly, regardless of the treatment with or without diuretics. The release of arginine vasopressin in response to increased plasma osmolality was exaggerated, but changes in plasma volume did not affect arginine vasopressin release. Plasma atrial natriuretic hormone increased in response to a rise in plasma arginine vasopressin and plasma volume during the oliguria phase, thereby resulting in the diuresis and natriuresis. The renin-angiotensin-aldosterone system was secondarily activated by body fluid depletion and diuretics, and this might play an additive role in general swelling. Plasma gonadal hormones did not change to explain the edema. The mechanism of this cyclical edema remains unknown, but it is likely that hypothalamic dysfunction related to psychiatric abnormalities may exaggerate arginine vasopressin release, and enhanced renal sympathetic activity may cause retention of Na and water, and the increase in atrial natriuretic hormone release responding to the plasma volume expansion may bring about the diuresis and natriuresis.     

Role of renal nerves and vasopressin in renal responses to acute volume expansion in rats.

This study was to determine whether the presence or absence of renal nerves and vasopressin altered the diuretic and natriuretic responses to acute volume expansion. Two forms of volume expansion were used: (i) inflation of a small balloon in the veno-atrial junction and (ii) an infusion of isotonic saline at a rate of 1 ml/min for a period of 15 min, approximately 7% of body weight. Balloon inflation produced a significant diuresis from both the intact and denervated kidneys but only produced a significant natriuresis from the intact kidney. Volume expansion (infusion of saline) produced a significant diuresis and natriuresis from both intact and denervated kidneys. Blocking the V2 receptor for vasopressin with a V2-specific receptor blocker d(CH2)5[D-Ile2,Val4]AVP (40 micrograms/kg bolus dose followed by infusion of 4 micrograms/kg/min) did not alter the diuretic and natriuretic responses to volume expansion. However, the absence of renal nerves or the absence of actions of vasopressin produced a significant reduction in the capacity of the kidneys to increase the relative amount of diuresis or natriuresis, thus losing the control over output; i.e., absence of renal nerves only allowed 12-fold increase in diuresis to volume expansion compared with 25-fold in the intact state and absence of vasopressin only allowed 4.6-fold increase in diuresis to volume expansion compared with 25-fold in the intact state. Examining the "volume reflex" in terms of a control system trying to regulate fluid balance, the presence of either renal nerves or actions of vasopressin allows the volume regulating system a greater range in which to control the diuresis and natriuresis (making it possible to fine tune the output to much greater extent).     

Association of calcium and sodium handling in the rabbit nephron. A micropuncture study.

Two-phase recollection micropuncture experiments were performed on female New Zealand rabbits to investigate the effect of flow rate (volume-expansion) compared to reabsorptive rate (furosemide) on calcium and sodium handling along the nephron. Group 1 (n = 6) rabbits represented nonvolume-expanded animals. Each experiment was conducted with a control phase followed by a second phase of furosemide administration (1 mg/kg/min). Group 2 rabbits (n = 6) were initially volume-expanded to 3% body weight with modified Ringers. The fractional excretion of sodium and calcium in the control phase of group I and II was 3 +/- 1 and 22 +/- 6% and 4 +/- 1 and 26 +/- 2%, respectively. Fractional excretion of sodium, calcium and magnesium rose after furosemide administration. The effect of volume expansion on sodium, calcium and magnesium remaining in the proximal tubule was relatively modest and not affected by furosemide. Our distal micropuncture data reveal that volume expansion has a greater inhibitory effect on fluid reabsorption at a site beyond the proximal micropuncture site (group 1, 9 +/- 2%, group 2,22 +/- 2%). After furosemide infusion, the amount of electrolytes remaining rose similarly in both groups; however, additional sodium and calcium reabsorption did not occur in the volume-expanded group in the final segment of the nephron. These results indicate that calcium reabsorption by the cortical terminal segment of the rabbits is passive similar to that suggested by the in vitro perfused study since no additional calcium reabsorption is seen in the volume-expanded rabbit.     

在大鼠牵拉心房和急性扩张血容量所致的肾效应

在28只麻醉大鼠,观察了牵拉心房和急性扩容时的肾效应。用5—7g的砝码牵拉大鼠右心房30min(n=6)时,尿量、尿钠和尿钾分别增加98％、127％和59％;牵拉左心房(n=4)所致的肾效应与牵拉右心房的基本相同。切断双侧迷走神经后,牵拉右心房的肾效应无明显改变。在切断迷走神经的大鼠,观察了双线结扎右心耳对急性扩容后肾效应的影响。急性扩容在假手术大鼠引起明显的利尿、钠尿和钾尿效应(P<0.01);而结扎右心耳的大鼠,钠尿效应约为假手术大鼠的一半,但尿量和尿钾排泄量与假手术组无明显异差。上述肾效应不受切断迷走神经的影响,因此不是通过容量感受性反射引起的。根据以上结果,我们推测,牵拉心房或急性扩容引起的尿量、尿铜和尿钾的增多,可能是心房钠尿因子释放增多所致,而结扎右心耳则导致释放入血流的心房钠尿因子减少。     

Bilateral acute heart atrial auriectomy reduced diuresis and natriuresis following hypertonic sodium load in anaesthetized dogs

Anaesthetized dogs were deprived of a portion of the atrial natriuretic factor producing tissue by bilateral acute heart atrial auriectomy. Their ability to respond by diuresis and natriuresis either to the expansion of extracellular fluid volume with isotonic saline (3% b.w.) or to hyperosmolality induced by hypertonic saline loading (0.13% b.w. of 20% NaCl solution) was subsequently reduced by about 50%. It is thus suggested that atrial natriuretic system may also play a role in osmoregulation by taking part in the promotion of renal sodium excretion.     

Time course of onset and decay of humoral natriuretic activity in the rat.

The natriuretic mechanism.tic activity shown in earlier cross-circulation experiments to develop in the blood of rats undergoing sustained vascular expansion has been further characterized. Following whole blood infusion and urine reinfusion of the donor rat, a cross-circulated isovolaemic partner exhibits a natriuresis of gradual onset, requiring 60-80 min to reach a peak (0.04-3.24 muequiv./min per gram kidney weight). The gradual feature of recipient natriuresis was unchanged by infusing the donor rat 1 h prior to cross-circulation. Once developed, the recipient natriuresis was sustained when fluid depletion by the renal response was prevented, but was reversible with a half-life of about 30 min on interruption of the cross-circulation; reconnection of cross-circulation promptly restored recipient natriuresis. No significant natriuresis (0.04-0.16 muequiv/min per gram kidney weight) occurred in the recipients if the donors in comparable cross-circulations were not infused. These findings confirm that a natriuretic activity develops in the blood as a consequence of vascular expansion, and reveal that the activity has a slowly developing and reversible action on the renal natriure     

Role of the paraventricular nucleus in renal excretory responses to acute volume expansion: role of nitric oxide

Acute volume expansion (VE) produces a suppression of renal sympathetic nerve discharge (RSND) resulting in diuresis and natriuresis. Recently, we have demonstrated that the endogenous nitric oxide (NO) system within the paraventricular nucleus (PVN) produces a decrease in RSND. We hypothesized that endogenous NO in the PVN is involved in the suppression of RSND leading to diuretic and natriuretic responses to acute VE. To test this hypothesis, we first measured the VE-induced increase in renal sodium excretion and urine flow with and without blockade of NO, with microinjection of NG-monomethyl-L-arginine (L-NMMA; 200 pmol in 200 nl), within the PVN of Inactin-anesthetized male Sprague-Dawley rats. Acute VE produced significant increases in urine flow and sodium excretion, which were diminished in rats treated with L-NMMA within the PVN. This effect of NO blockade within the PVN on VE-induced diuresis and natriuresis was abolished by renal denervation. Consistent with these data, acute VE induced a decrease in RSND (52% of the baseline level), which was significantly blunted by prior administration of L-NMMA into the PVN (28% of the baseline level) induced by a comparable level of acute VE. Using the push-pull perfusion technique, we found that acute VE induced a significant increase in NOx concentration in the perfusate from the PVN region. Taken together, these results suggest that acute VE induces an increase in NO production within the PVN that leads to renal sympathoinhibition, resulting in diuresis and natriuresis. We conclude that NO within the PVN plays an important role in regulation of sodium and water excretions in the volume reflex via modulating renal sympathetic outflow.     

Involvement of the adrenal glands in the action of the atrial natriuretic factor

Adrenalectomized, medullectomized and sham operated rats were treated with either a chronic infusion or a bolus injection of the synthetic atrial natriuretic factor (ANF). ANF did not enhance natriuresis and diuresis in sham operated conscious animals during chronic infusion, but it had a potent action when injected as a bolus into anesthetized rats. The absence of the whole adrenal glands, but not adrenal medulla profoundly modified the renal response to ANF: a) following chronic administration of ANF, the baseline natriuresis paradoxically decreased in adrenalectomized rats, and b) in response to a bolus injection of ANF the natriuretic and diuretic actions of the peptide were attenuated in these animals. The medullectomy-induced decreased natriuresis and dopamine excretion were corrected by ANF infusion. Furthermore, ANF suppressed the compensatory increase of norepinephrine excretion secondary to adrenalectomy. The data suggest that the presence of the adrenal cortex is necessary for the natriuretic and diuretic actions of ANF. The decrease in urinary DA excretion may reflect diminished dopaminergic activity and contribute to the post-medullectomy antinatriuresis, a phenomenon which can be corrected by ANF infusion. ANF may also have a depressing activity on the increased sympathetic tone.     

Comparison among the effects of oral,intraperitoneal and intravenous fluid-loading on kidney function and drinking in goats

The effects of hyperhydration, induced by oral loading via a stomach tube (41 of 0.9% NaCl within 2–3 min), intra-peritoneal and intra-jugular infusions (41 of 0.9% NaCl solution at a rate of 21 hr⁻¹) in normally hydrated goats, on fluid retention, plasma expansion, kidney function and drinking response were compared. Higher fluid retention (67 and 65% vs. 40% at 3 hr after the termination of the infusion, P < 0.01), attenuated diuretic (P < 0.01) and natriuretic (P < 0.01) responses and lower expansion of plasma volume (P < 0.05) were recorded in the orally and intra-peritoneally treated goats in comparison with the intra-jugularly treated animals. Portal expansion apparently induces acceleration of saliva secretion which recycles water to the gut. Recycling of water to the gut reduced excessive expansion of plasma fluid and load on the kidney. Retention of water in the rumen satiated the urge to drink in the orally and intra-peritoneally treated goats for at least 24 hr. The intra-jugularly treated goats consumed a significant amount of water (11), which was approximately half of their normal requirement. Under arid conditions, these responses are appropriate to the animals' regular exposure to severe dehydration and rapid rehydration.     

The renal excretory activity of atrial natriuretic factor is independent of renal prostaglandins in humans.

Since renal prostaglandins may contribute to natriuresis induced by endogenous atrial natriuretic factor (ANF), acute volume expansion (AVL), a known stimulus of ANF and prostaglandins, was induced in 8 healthy women in order to test whether the consequent sodium and water diuresis is altered by prostaglandin inhibition. AVL (i.v. infusion of a 2 liter 5% glucose solution in 1 h) was infused after placebo and after inhibition of prostaglandins with diclofenac (200 mg/day orally for 4 days), in a double blind randomized cross-over fashion. Urinary eicosanoids (PGE2, PGF2 alpha, 6-ketoPGF1 alpha, TXB2--RIA), plasma ANF (RIA) and urinary electrolytes were determined before, during and after AVL under both placebo and diclofenac regimes. During placebo, AVL induced sustained increases in plasma ANF (174% at peak, p less than 0.001 ANOVA), excretion of the four eicosanoids (149%-1172%, p less than 0.005-0.001), urinary volume (UV, 815%, p less than 0.001), natriuresis (UNa, 98%, p less than 0.005) and in kaliuresis (UK, 90%, p less than 0.001). Cyclooxygenase inhibition resulted in a reduction of over 70% in both baseline values and AVL-induced increase of eicosanoids. It did not alter either baseline levels or AVL-stimulated ANF, UV, UNa and UK in relation to placebo. The present results suggest that the diuretic and natriuretic activity of ANF is not mediated by renal PGs in humans.