Renal hemodynamic response to galanin: importance of elevated plasma glucose

Although recent data point to a possible indirect role for galanin in modulating renal blood flow (RBF) and fluid homeostasis in experimental animals, there have been no systematic studies exploring the possible direct effects of the peptide on the mammalian kidney. We ascertained the RBF, glomerular filtration rate (GFR) and plasma glucose responses to direct intrarenal infusion of three progressively increasing doses of synthetic galanin in anesthetized dogs. A 50 ng/kg per min dose (n = 6) failed to affect RBF, GFR or arterial plasma glucose (APG). Yet, a 100 ng/kg per min dose elevated RBF and GFR by 13 and 14%, respectively, while concomitantly increasing APG by 38%. At 200 ng/kg per min, galanin elevated RBF and GFR by 32 and 33%, respectively, while elevating APG by 57%. Intrarenal infusion of glucose (12.5 mg/kg per min; n = 6), reproducing the percentage rise in glucose (62%) elicited by the highest dose of galanin, elevated RBF and GFR by 20 and 23%, respectively. These data indicate that the elevated plasma glucose level, stimulated by galanin infusion, may account for about 63 and 70% of the RBF and GFR responses, respectively, elicited by galanin infusion at the 200 ng dose. The factors mediating the remaining renal hyperemia and hyperfiltration await resolution.     

Central mu opioids mediate differential control of urine flow rate and urinary sodium excretion in conscious rats

Central administration of the selective mu opioid agonist, dermorphin, produces a concurrent diuretic and antinatriuretic response in conscious rats. To determine whether central mu opioids differentially affect the renal excretion of water and sodium, we examined changes in renal function produced by intracerebroventricular (i.c.v.) administration of dermorphin during continuous intravenous (i.v.) infusion of a synthetic ADH analogue in conscious Sprague-Dawley rats. During ADH infusion the typical diuresis produced by i.c.v. dermorphin was abolished although the antinatriuresis remained intact. Alone, I.v. ADH produced a decrease in urine flow rate without significantly altering urinary sodium excretion. In other studies, the effects of i.c.v. dermorphin were examined on the renal responses produced by i.v. infusion of a V₂-ADH receptor antagonist. In these studies the magnitude of the V₂ antagonist-induced diuresis was not altered by i.c.v. dermorphin but the increase in urinary sodium excretion produced by this antagonist was converted to an antinatriuresis. Central dermorphin did not alter heart rate or mean arterial pressure in either study. These findings suggest that the effects of central dermorphin on renal sodium and water handling are mediated by separate mechanisms; the effects on water involving changes in circulating ADH levels and the effects on sodium independent of the action of this hormone.     

The central and renal hemodynamic effects of amino acid infusion in the study of renal reserve in the baboon

Normal human renal function is characterized by a large renal reserve. Recruitment of this reserve is a compensatory and pathological response to renal injury. This study was designed to assess the renal reserve and central hemodynamics of young female baboons and, in doing so, the appropriateness of the use of these animals in a model of human renal disease. Eight female baboons completed the protocol. PAH and inulin clearances were measured before and after an amino acid infusion. Central hemodynamics were measured with arterial and pulmonary artery catheters. Effective renal plasma flow and glomerular filtration rate increased by 42% after amino acid infusion (P = .025). Expansion of renal function was not consistent among individual baboons; two of the eight animals did not demonstrate renal reserve. Central hemodynamics were unaffected by the protocol.     

Prolonged Ethanol Ingestion Increases Renal AQP2 and AQP3 Expression in Adult Ratsand in Their Offspring

This study evaluates the effect of prolonged ethanol ingestion on the renal ability to concentrate urine. Suckling Wistar rats born to mothers given ethanol before and during gestation and suckling periods (ethanol-exposed offspring) were used and the results were compared with those obtained from offspring of dams given diets containing no ethanol. Comparisons were also made between progenitors with or without prolonged ethanol ingestion. Body and kidney weights; arginine-vasopressin (AVP) and aldosterone plasma levels; plasma, urine and renal papillary osmolality; urine outflow; kidney AQP2, AQP3 and AQP4 expression and diencephalon AVP mRNA expression were determined. As compared with control offspring, the ethanol-exposed offspring present i) lower body and kidney weights; ii) lower urine outflow; iii) higher renal AQP2 and AQP3 mRNA; iv) higher renal AQP2 protein content and v) higher urine and renal papillary osmolality. These changes were also observed in the ethanol-treated progenitors, although they were of smaller magnitude. Plasma osmolality, renal AQP4 mRNA, AVP plasma levels and diencephalon AVP mRNA expression were not affected by the ethanol treatment. Plasma levels of aldosterone were only significantly increased in the ethanol-exposed suckling rats. It is concluded that maternal ethanol ingestion before and during gestation and suckling periods affects the renal function of the offspring, up-regulating renal AQP2 expression by an AVP-independent mechanism. Ethanol-treated progenitors manifest similar renal changes, although of lesser magnitude than the offspring.     

Impact of L-NAME on the cardiopulmonary reflex in cardiac hypertrophy

There is evidence that in cardiac failure, there is defective baroreceptor reflex control of sympathetic nerve activity. Often, cardiac failure is preceded by a state of cardiac hypertrophy in which there may be enhanced performance of the heart. This study investigated whether in two different models of cardiac hypertrophy, there was an increased contribution of nitric oxide (NO) to the low-pressure baroreceptor regulation of renal sympathetic nerve activity (RSNA) and nerve-dependent excretory function. Administration of a volume load, 0.25* body wt/min saline for 30 min, in normal rats decreased RSNA by 40* and increased urine flow by some 9-fold. Following nitro-L-arginine methyl ester (L-NAME) administration, 10 μg·kg(-1)·min(-1) for 60 min, which had no effect on blood pressure, heart rate, or RSNA, the volume load-induced renal sympathoinhibitory and excretory responses were markedly enhanced. In cardiac hypertrophy states induced by 2 wk of isoprenaline/caffeine or 1 wk thyroxine administration, the volume challenge failed to suppress RSNA, and there were blunted increases in urine flow in the innervated kidneys, but following L-NAME infusion, the volume load decreased RSNA by 30-40* and increased urine flow by some 20-fold in the innervated kidneys, roughly to the same extent as observed in normal rats. These findings suggest that the blunted renal sympathoinhibition and nerve-dependent diuresis to the volume load in cardiac hypertrophy are related to a heightened production or activity of NO within either the afferent or central arms of the reflex.     

Relaxin-induced changes in renal sodium excretion in the anesthetized male rat

Pregnancy is associated with profound changes in renal hemodynamics and electrolyte handling. Relaxin, a hormone secreted by the corpus luteum, has been shown to induce pregnancy-like increases in renal blood flow and glomerular filtration rate (GFR) and alter osmoregulation in nonpregnant female and male rats. However, its effects on renal electrolyte handling are unknown. Accordingly, the influence of short (2 h)- and long-term (7 day) infusion of relaxin on renal function was determined in the male rat. Short term infusion of recombinant human relaxin (rhRLX) at 4 microg.h(-1).100 g body wt(-1) induced a significant increase in effective renal blood flow (ERBF) within 45 min, which peaked at 2 h of infusion (vehicle, n = 6, 2.1 +/- 0.4 vs. rhRLX, n = 7, 8.1 +/- 1.1 ml.min(-1).100 g body wt(-1), P < 0.01). GFR and urinary excretion of electrolytes were unaffected. After a 7-day infusion of rhRLX at 4 microg/h, ERBF (1.4 +/- 0.2 vs. 2.5 +/- 0.4 ml.min(-1).100 g body wt(-1), P < 0.05), urine flow rate (3.1 +/- 0.3 vs. 4.3 +/- 0.4 microl.min(-1).100 g body wt(-1), P < 0.05) and urinary sodium excretion (0.8 +/- 0.1 vs. 1.2 +/- 0.1 micromol.min(-1).100 g body wt(-1), P < 0.05) were significantly higher; plasma osmolality and sodium concentrations were lower in rhRLX-treated rats. These data show that long-term relaxin infusion induces a natriuresis and diuresis in the male rat. The mechanisms involved are unclear, but they do not involve changes in plasma aldosterone or atrial natriuretic peptide concentrations.     

The effects of intracerebroventricular administration of biologically active peptides in conscious sheep

The present study records the physiological effects of 24-hour intracerebroventricular infusion of a variety of biologically active peptides in conscious sheep. A number of peptides including AVP and TRH produced increases in mean arterial pressure, heart rate and body temperature. There was an overall positive correlation between peptide-induced changes in body temperature and changes in either mean arterial pressure or heart rate. TRH and β-endorphin had marked effects on behaviour and several peptides reduced food and water intake. Several peptides increased urinary sodium excretion, however, few peptides changed plasma electrolyte concentrations. TRH produced small effects on plasma ACTH and plasma glucose concentrations. The peptides in this study produced physiological changes which were probably mediated by their actions on the central nervous system.     

Central effects of atrial natriuretic peptide on plasma catecholamines, vasopressin, renin and beta-endorphin and on renal excretory functions in the dog

Atrial natriuretic peptide (ANP) has been identified in the central nervous system and its participation in regulation of various regulatory brain functions has been postulated. To elucidate whether central ANP influences endocrine systems related to blood pressure regulation and renal excretory functions, effects of infusion of ANP at a rate of 120 ng.min-1 into the third cerebral ventricle on plasma level of epinephrine (E), norepinephrine (NE), renin, vasopressin and beta-endorphin as well as on excretion of urine, sodium, potassium (UKV) solutes and free water (CH2O) were investigated in conscious dogs. Significant decrease of plasma E from 77.6 +/- 7.0 to 62.1 +/- 4.8 pg.ml-1 and of NE from 345.5 +/- 20.7 to 286.4 +/- 15.0 pg.ml-1 was found at the end of 30 min lasting ANP infusion. Significant elevation of PRA and UKV and a decrease in CH2O were found 60 min after ANP infusion. No significant changes in other variables were found. In time control experiments plasma hormones concentration and renal excretory functions were not significantly influenced. The results suggest that central ANP may affect the sympatho-adrenal outflow.     

Plasma galanin, vasopressin, and oxytocin in patients with Addison's disease.

Galanin is colocalized with adrenocorticotrophin (ACTH) in the human pituitary and with corticotrophin releasing hormone, arginine, vasopressin, and oxytocin in the hypothalamus. Galanin, vasopressin, and oxytocin influence the secretion of pituitary ACTH. The aim of this study was to investigate if the endogenous stimulation of ACTH release in Addison's disease was reflected in plasma galanin, vasopressin, and oxytocin. ACTH, galanin, vasopressin, and oxytocin were measured in plasma from 14 patients with Addison's disease, one patient with Nelson's syndrome, and 14 healthy controls. Eight patients had elevated plasma ACTH whereas six patients and all controls had ACTH levels within the reference-range. There was no difference in galanin or vasopressin between patients and controls or between samples with low or high ACTH concentrations. In contrast, oxytocin was higher in patients with elevated plasma ACTH compared to patients and controls with normal or low ACTH. No relation was found between galanin or oxytocin and age or sex. A tendency towards lower vasopressin with increasing age was found among the men (p=0.057). The highest ACTH and galanin levels were found in the patient with Nelson's syndrome. In conclusion, increased plasma ACTH was not reflected in elevated plasma galanin or vasopressin. In contrast, elevated ACTH levels were accompanied by higher oxytocin levels.     

The effect of atrial natriuretic peptide on acid-base balance in rats with chronic renal failure

We explored the effects of 12-hour infusion of atrial natriuretic peptide (alpha-rANP:rat, 1-28) on arterial acid-base balance, using 5/6 nephrectomized rats with chronic renal failure. Before the infusion, nephrectomized rats had a higher mean arterial blood pressure, greater urine volume, and lower creatinine clearance than the normal controls, but they did not show a significant difference in arterial hydrogen ion concentration (pH), plasma bicarbonate concentration (HCO3-), partial pressure of carbon dioxide (PCO2), plasma base excess (BE), or plasma ANP concentration. alpha-rANP infusion produced a continuous blood pressure reduction in both nephrectomized and control rats. Urine volume and urinary sodium and potassium excretion tended to increase at 2-hour infusion, but not at 12-hour infusion. In the controls alpha-rANP significantly increased pH from 7.47 to 7.50, and decreased PCO2 by 14%. In contrast, in nephrectomized rats alpha-rANP significantly decreased pH from 7.48 to 7.44, HCO3- by 13%, and BE from -0.07 to -3.22 meq/l. Rats with chronic renal failure had greater reduction in HCO3- than the controls (p less than 0.05). There was no difference in plasma ANP level between the two groups. Thus, it is indicated that the long-term infusion of alpha-rANP reduces pH in rats with chronic renal failure, thereby adversely affecting the acid-base balance.     

Atrial natriuretic factor inhibits vasopressin secretion in conscious sheep

To test the hypothesis that atrial natriuretic factor (ANF) has a centrally mediated action on body fluid homeostasis, the effects of intracerebroventricularly (ICV) infused ANF on plasma vasopressin (AVP) concentration and urinary water and electrolyte excretion were investigated in euhydrated and water-deprived conscious sheep. ICV ANF decreased plasma AVP concentration and increased urinary free water excretion in euhydrated sheep, with excretion of Na and K unaltered. However, ICV ANF did not affect urinary volume, free water clearance, or excretion of Na and K in dehydrated animals, although plasma AVP concentration was significantly decreased. The relationship between urine volume and plasma AVP concentration was fitted by a power curve: urine volume = 0.79 X [AVP]-0.71; urine volume changes very little as a function of AVP concentration at the higher ranges. Intravenous infusion of the same amount of ANF was without effect on plasma AVP concentration or urinary excretion in both euhydrated and dehydrated animals. Mean arterial pressure was unchanged throughout all experiments. These results are consistent with the hypothesis that central ANF inhibits AVP secretion.     

Plasma prolactin responses to acute changes in central blood volume in man

The present study examined the relationship between plasma prolactin (PRL) and central blood volume (CBV) in man. 6 adult males lay in a lower body pressure box at a thermoneutral ambient temperature (27 degrees C) on three occasions. On each occasion a 70-min control period was followed by a 20-min exposure to a lower body pressure of either 0 mm Hg, -20 (lower body negative pressure; LBNP), or +10 mm Hg (lower body positive pressure; LBPP), followed by a 60-min recovery period. Blood was drawn and urine collected at 30-min intervals. Blood pressure and heart rate were monitored at 30-min intervals during control and recovery periods and at 10-min intervals during lower body pressure exposure. Neither 0 mm Hg, LBNP, nor LBPP altered plasma osmolality, sodium, or potassium levels. Increasing CBV by LBPP increased systemic blood pressure (p less than 0.01) but had no effect on heart rate, plasma PRL, or urine osmolality. LBNP, in contrast, increased heart rate (p less than 0.05). Half of the subjects undergoing LBNP developed presyncopal symptoms, characteristic of a vasovagal reaction which includes precipitous hypotension. Subjects developing these symptoms tended to exhibit an increase in plasma PRL and an increase in urine osmolality. Asymptomatic subjects demonstrated no change in plasma PRL or urine osmolality. In addition, subjects exhibiting a PRL response to LBNP had a higher control period plasma PRL baseline (231%) than did asymptomatic subjects. These data suggest that while plasma PRL levels are not sensitive to nonhypotensive changes in CBV, they do respond to hypotensive decreases in CBV and/or its associated nausea.(ABSTRACT TRUNCATED AT 250 WORDS)     

Renal function during bovine neurotensin infusion in man

The peptide hormone neurotensin (NT) is found mainly in gut endocrine cells of the ileum, but has also been identified as a putative neurotransmitter in the central and peripheral nervous systems. It may have a dual role as a circulating gastrointestinal hormone and peripheral neurotransmitter. Its predominant effects are to reduce oesophageal sphincter tone, inhibit gastric secretion and emptying and inhibit intestinal motility, but stimulate intestinal and pancreatic exocrine secretion; NT-like immunoreactivity has been found in kidney and therefore NT may influence renal function. When infused i.v. in rabbits it causes antinatriuresis. We have studied its renal effects in 11 healthy males by i.v. infusion under conditions of altered dietary sodium. Postprandial circulating neurotensin levels were reproduced by infusion. There were no consistent systemic or renal haemodynamic effects. Plasma electrolytes and renin did not change. Only renal chloride excretion changed significantly, falling by ca. 30%, and recovering after infusion. There is no evidence for a specific renal tubular chloride transport mechanism, but coupled cotransport, Na+:K+:2CI-, may be hormonally regulated. NT might stimulate this process and contribute to the renal response to changes in dietary composition, especially sodium intake.     

Renal effects of long-term leptin infusion and preventive role of losartan treatment in rats

BACKGROUND: Leptin has direct and indirect effects on renal pathophysiological characteristics. In the present study, the effects of long-term leptin infusion on the renal hemodynamics, renal excretory functions, and the expression of transforming growth factor-beta (TGF-beta), plasma endothelin-1 (ET-1) levels, and preventive effects of the angiotensin II type 1 receptor antagonist, losartan, on these renal changes were evaluated. METHODS: The study was performed by using forty Wistar albino rats. On day 0, osmotic mini-pumps filled with leptin or placebo were intraperitoneally placed under sterile conditions. The rats in Group L (Leptin group, n=15) and Group LL (Leptin-losartan group, n=15) were given recombinant murine leptin at a rate of 250 ng per hour for 28 days. Control rats (Group C, n=10) were administered placebo at the same infusion rate. The rats in Group LL were also administered losartan (10 mg kg(-1) d(-1)) perorally for 28 days. On day 28, the rats were placed in metabolic cages, and the food and water intakes were determined, and the urine was collected for 24 h. At the end of the study, systolic blood pressure (SBP), diastolic blood pressure (DBP) were determined directly from the left femoral artery, and renal blood flow (RBF) was recorded indirectly using a laser Doppler flow module. RESULTS: Leptin infusion did not produce any changes in systemic arterial blood pressures and urinary flow rate. The rates of creatinine (Cr), sodium (Na), and protein excretions of the animals infused leptin were significantly increased. The urinary Cr and Na excretions were decreased, while the urinary protein excretion was normalized with the losartan treatment. The rats infused leptin had also higher circulating ET-1 levels. ET-1 levels were also reversed to the normal values with the losartan treatment. Renal TGF-beta1 expression was determined immunohistochemically, and it was more prominent in the renal tubules from the rats treated with leptin. The losartan treatment had no effect on renal TGF-beta1 expression. CONCLUSIONS: Our results indicate that pathophysiological increases in plasma leptin concentrations cause enhanced renal Na, Cr and protein excretions, and high circulating ET-1 levels. Na and Cr excretions were decreased, while proteinuria and plasma ET-1 levels were normalized by losartan treatment, suggesting that renin-angiotensin system activation may have a role in leptin induced renal changes. TGF-beta1 may have an important role in leptin induced nephropathy.     

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.     

Changes of proteins induced by anticoagulants can be more sensitively detected in urine than in plasma

The most fundamental property of biomarkers is change. But changes are hard to maintain in plasma since it is strictly controlled by homeostatic mechanisms of the body. There is no homeostatic mechanism for urine. Besides, urine is partly a filtration of blood, and systematic information can be reflected in urine. We hypothesize that change of blood can be reflected in urine more sensitively. Here we introduce the interference into the blood by two anticoagulants heparin or argatroban. Plasma and urine proteins were profiled by LC-MS/MS and then validated by Western blot in totally six SD female rats before and after the drug treatments. In argatroban treated group, with exactly the same experimental procedure and the same cutoff value for both plasma and urine proteins, 62 proteins changed in urine, only one of which changed in plasma. In heparin treated group, 27 proteins changed in urine but only three other proteins changed in plasma. Both LC-MS/MS and Western blot analyses demonstrated drug-induced increases in transferrin and hemopexin levels in urine but not in plasma. Our data indicates that urine may serve as a source for more sensitive detection of protein biomarkers than plasma.     

Influence of Medetomidine on Acid-base Balance and Urine Excretion in Goats

Seven goats were given medetomidine 5 μg/kg as an iv bolus injection. Venous blood samples were taken repeatedly and urine was collected continuously via a catheter up to 7h after the injection. Medetomidine caused deep clinical sedation. Base excess, pH and PCO2 in venous blood rose after medetomidine administration. There were no significant changes in plasma concentrations of sodium, calcium, magnesium, creatinine or osmolality, whereas potassium and bicarbonate concentrations increased, and phosphate and chloride decreased. Medetomidine increased plasma glucose concentration, and in 4 of 7 goats glucose could also be detected in urine. Medetomidine did not influence urine flow rate, free water clearance, bicarbonate and phosphate excretion or pH, but renal chloride, sodium, potassium, calcium, magnesium and creatinine excretion were reduced. The results suggest that the metabolic alkalosis recorded after medetomidine administration is not caused by increased renal acid excretion.     

Changes in human plasma catecholamines and dopamine-beta-hydroxylase produced by prostaglandin F2 alpha

Clinical research was conducted into the possible interrelationships between prostaglandin (PG) F2alpha and the human sympathetic nervous system. The study also permitted comparison of the relative sensitivity of 2 indicators of sympatho-adrenal activity: 1) the determination of circulating catecholamines, epinephrine and norepinephrine; and 2) analysis of plasma dopamine-8-hydroxylase activity. Intravenous PGF2alpha infusion was administered to college students 12-18 weeks pregnant to produce abortion; the results were compared to results from nonpregnant controls. Circulating norepinephrine but not plasma epinephrine or dopamine-8-hydroxylase levels were increased in response to the PG. There was no correlation between plasma epinephrine and plasma norepinephrine levels. Plasma dopamine-8-hydroxylase activity was found not to be significantly changed by pregnancy, administration of the analgesic and antiemetic, or the PG infusion. In fact, central venous dopamine-8-hydroxylase activity did not differ significantly from that of arterial blood. The PG did not affect cardiac output or maximal expiratory flow rate. It is suggested that the nausea and diarrhea accompanying PGF2alpha infusion may put stress on the sympathetic nervous activity causing the observed increase in plasma norepinephrine concentration. Since no changes in blood pressure, heart rate, central venous pressure, or cardiac output were observed, it is unlikely that PGF2alpha causes even slight impairment of sympathetic nervous system activity.     

Cooperative effects of galanin and leptin on alleviation of insulin resistance in adipose tissue of diabetic rats

It was reported that either orexigenic neuropeptide galanin or anorexigenic hormone leptin caught benefit insulin sensitivity through increasing the translocation of glucose transporter 4 (GLUT4) in patients with diabetes. To date, it is unknown whether galanin can potentiate the effect of leptin on alleviation of insulin resistance. Therefore, in the current study we sought to assess the combined effect of central leptin and galanin on insulin resistance in the adipose tissues of type 2 diabetic rats. Galanin and leptin were injected into the intracerebroventricle of the diabetic rats, respectively, or cooperatively once a day for 2 weeks. Then, several indexes of insulin resistance were examined. The results showed that glucose infusion rates in the hyperinsulinaemic‐euglycaemic clamp test, plasma adiponectin content and GLUT4 translocation, as well as Akt phosphorylation in fat cells, were higher, not GLUT4 protein and GLUT4 mRNA expression, but HOMA index was lower in the galanin + leptin group than either one of them. Furthermore, treatment with MK‐2206, an Akt inhibitor, blocked the combined effects of galanin + leptin on alleviation of insulin resistance. These results suggest that galanin can improve the leptin‐induced mitigative effects on insulin resistance in the fat cells, and those provided new insights into the potential tactics for prevention and remedy of insulin resistance.     

Body fluids and plasma atrial peptide after its chronic infusion in hypertensive rats

To determine the role of body fluid volume in the chronic hypotensive effect of atrial natriuretic factor (ANF), spontaneously hypertensive (SHR) and Wistar-Kyoto (WKY) rats were infused with the peptide (Arg 101-Tyr 126) at a rate of 100 ng/h/rat for 5 days. Blood pressure (BP) was decreased from 176 +/- 4 to 133 +/- 3 mmHg in the SHR group 4 days after ANF infusion was initiated, whereas no changes were observed in ANF-infused WKY animals. Starting 5 days after the infusion began, body fluid measurements revealed no differences in plasma, blood and extracellular fluid volumes or in interstitial spaces. BP and plasma ANF concentrations were determined in another set of experiments before, during and after chronic ANF infusion. BP declined from 169 +/- 3 to 133 +/- 5 mmHg in SHR 5 days after the infusion commenced, but returned to basal values by day 10 or 11. Plasma ANF was significantly higher in SHR than in WKY rats throughout the observation period. However, there were no discernible changes in this parameter in ANF-infused SHR compared to non-infused SHR. A 3-fold rise in plasma ANF was noted in infused WKY rats at day 3 only. It is concluded that the chronic hypotensive effect of ANF in hypertensive animals is not related to changes in either body fluid volume or distribution. Moreover, the finding that chronic ANF infusion reduces BP in SHR without altering its plasma levels suggests a rapid ANF turnover.