Plasma renin activity, active and inactive renin concentrations, and their responses to beta 1-adrenoceptor blockade with metoprolol in hyperthyroidism

Plasma renin activity (PRA), plasma renin concentration (PRC), inactive renin concentration (IRC) and total renin concentration (TRC) were measured in 31 normal controls and in 8 patients with hyperthyroidism. TRC was determined as angiotensin I generated with sheep renin substrate after an acid activation of plasma. The angiotensin I of non-acidified plasma was expressed as PRC. IRC was calculated as TRC minus PRC. The mean values for PRA, PRC, IRC and TRC were significantly (P less than 0.05 to P less than 0.01) higher in the hyperthyroid patients than in the normal or euthyroid controls. The administration of a beta 1-adrenergic blocker, metoprolol (120 mg/day for 14 days), produced a significant (P less than 0.05 to P less than 0.01) fall in levels of T4, PRA and TRC, and reduced the active renin ratio calculated from PRC/TRC significantly (P less than 0.025), as compared to the pretreatment values. Our observations support the idea that the higher PRA in hyperthyroidism is due to an increased secretion of renin. Furthermore, the results may indicate that the conversion of inactive to active renin is accelerated in hyperthyroidism, possibly by an increased sympathetic activity.     

Role of pineal gland in kidney-adrenal homeostasis

The effects of pineal gland on kidney-adrenal axis have been studied in male rats. Rats were pinealectomized and exposed to a photoperiod of 12 h light: 12 h dark. Plasma renin activity (PRA), corticosterone and corticotropin (ACTH) levels were measured at 10, 20 and 35 days postpinealectomy. Pinealectomy increased corticosterone and ACTH levels and decreased PRA in all age groups. A significant negative correlation was found between corticosterone and PRA, which suggest that changes in PRA were due to changes in circulating corticosterone, via feedback mechanism on renin secretion. On the other hand, melatonin administration prevents these effects of pinealectomy. It is suggested that the lack of this pineal indol is responsible for the pinealectomy-induced alterations in male rats.     

Differential sympathetic and angiotensinergic responses in rats submitted to low- or high-salt diet

The present study was designed to evaluate, in Wistar rats, the effect of high- or low-salt diet on the hemodynamic parameters and on the renal and lumbar sympathetic nerve activity. The renal gene expression of the renin angiotensin system components was also evaluated, aiming to find some correlation between salt intake, sodium homeostasis and blood pressure increase. Male Wistar rats received low (0.06% Na, TD 92141-Harlan Teklad), a normal (0.5% Na, TD 92140), or a high-salt diet (3.12% Na, TD 92142) from weaning to adulthood. Hemodynamic parameters such as cardiac output and total peripheral resistance, and the renal and lumbar sympathetic nerve activity were determined (n=45). Plasma renin activity, plasma and renal content of angiotensin (ANG) I and II, and the renal mRNA expression of angiotensinogen, renin, AT1 and AT2 receptors were also measured (n=24). Compared to normal- and low-salt diet-, high-salt-treated rats were hypertensive and developed an increase (P<0.05) in total peripheral resistance and lumbar sympathetic nerve activity. A decrease in renal renin and angiotensinogen-mRNAs and in plasma ANG II and plasma renin activity was also found in salt overloaded animals. The renal sympathetic nerve activity was higher (P<0.05) in low- compared to high-salt-treated rats, and was associated with an increase (P<0.05) in renal ANG I and II and with a decrease (P<0.05) in AT2 renal mRNA. Plasma ANG I and II and plasma renin activity were higher in low- than in normal-salt rats. Our results show that increased blood pressure is associated with increases in lumbar sympathetic nerve activity and total peripheral resistance in high-salt-treated rats. However, in low-salt-treated rats an increase in the renal sympathetic nerve was correlated with an increase in the renal content of ANG I and II and with a decrease in AT2 renal mRNA. These changes are probably in favor of the antinatriuretic response and the sodium homeostasis in the low-salt group.     

Hypertension in L-NAME-treated diabetic rats depends on an intact sympathetic nervous system

We demonstrated previously that induction of diabetes in rats that were treated chronically with the nitric oxide synthase inhibitor N(G)-nitro-L-arginine methyl ester (L-NAME) causes a severe, progressive increase in mean arterial pressure. This study tested the role of the sympathetic nervous system in that response. Rats were instrumented with chronic artery and vein catheters and assigned randomly to four diabetic groups pretreated with vehicle (D), L-NAME (D+L), the alpha(1)- and beta-adrenergic receptor antagonists terazosin and propranolol (D+B), or L-NAME, terazosin, and propranolol (D+LB). After baseline measurements were taken, rats were pretreated; 6 days later, streptozotocin was administered and 3 wk of diabetes ensued. D+L rats had a marked, progressive increase in arterial pressure that by day 20 was approximately 60 mmHg greater than in D rats. The pressor response to L-NAME was significantly attenuated in diabetic rats cotreated with adrenergic blockers. During week 1 of diabetes, plasma renin activity (PRA) increased and then returned to control levels in D rats. PRA increased progressively in D+L rats, and chronic adrenergic receptor blockade restored the biphasic renin response in D+LB rats. These results suggest that the sympathetic nervous system may be involved in the hypertensive response to onset of diabetes in L-NAME-treated rats, possibly through control of renin secretion.     

Responsiveness of plasma aldosterone to angiotensin II in patients with diabetes mellitus

Aldosterone responsiveness to angiotensin II (A II) was evaluated in 65 diabetic patients with and without various diabetic complications versus 38 age-matched non-diabetic subjects. Plasma aldosterone (PA), together with plasma renin activity (PRA), was low and responded poorly to furosemide (80 mg, orally) plus upright posture (4 hours) stimulation in diabetic patients. When the PA response to stimulation relative to PRA response was estimated from the ratio of PA increase to PRA increase after stimulation (delta PA/delta PRA), the 38 non-diabetic subjects had ratios more than 3.0. Of the 65 diabetic patients, 48 had normal delta PA/delta PRA ratios (more than 3.0) and 17 had low delta PA/delta PRA ratios (less than 2.9). Graded A II infusions (1, 2, and 4 ng/kg/min each for 30 min) were performed under a low sodium intake (sodium, 120 mEq/day) in 25 of the 65 diabetic patients, whose delta PA/delta PRA ratios were normal in 15 and low in 10, and in 16 non-diabetic subjects. The PA responses to the graded A II infusions in the normal delta PA/delta PRA diabetic patients were similar to those in the non-diabetic subjects. However, the PA responses to the graded A II infusions in the low delta PA/delta PRA diabetic patients were significantly lower. It is concluded that, although the majority of diabetic patients have normal aldosterone responsiveness to A II, some diabetic patients have blunted aldosterone responsiveness to A II probably attributable to the abnormality of the adrenal cortex in addition to the impaired renin secretion.     

Role of the pituitary in the effects of tonin on adrenal secretion of the rat

Chronically catheterized conscious rats were infused intravenously with tonin at 2.4 and 12 micrograms x kg-1 x min-1 for 2 h. Plasma aldosterone concentration (PAC) at the end of the experiment was 11.2 +/- 2.4 ng% in controls, 8.5 +/- 2.8 ng% in rats infused with tonin at the lower rate, and 26.2 +/- 3.6 ng% (p less than 0.01 vs. controls) in rats infused at the higher rate. Plasma corticosterone (PC) was significantly higher (p less than 0.05) in the group infused at the high rate while plasma renin activity (PRA) was significantly reduced in this group of rats. Plasma angiotensin II (AII) concentration was similar in all three groups. PAC was elevated after tonin infusion in the presence of AII blockade. PAC in conscious sodium-depleted rats infused with tonin was not significantly changed, but PRA was significantly reduced (p less than 0.01). In chronically hypophysectomized rats, PAC remained unchanged by tonin infusion. The failure of tonin to stimulate aldosterone in hypophysectomized animals indicates a role of a pituitary hormone (probably ACTH) in the effect of tonin on adrenal secretion.     

Plasma renin activity in diabetic patients.

Plasma renin activity (PRA) in 40 diabetic patients and 42 healthy controls was investigated using the method of Pickens in modification of Serebrovskaja et al. (1967). PRA was slightly lower in the whole group of diabetes but the difference was not significant. The subgroup of 20 maturity-onset diabetics had significantly lower PRA in comparison with 22 controls of similar age, while PRA in juvenile diabetics did not differ significantly from matched controls. In patients without clinical signs and symptoms of microangiopathy PRA was as high as in the controls. In diabetics with microangiopathy PRA was significantly lower. PRA was also lower in patients with longer duration of the disease. The stimulation of juxtaglomerular apparatus with sodium free diet and diuretic drugs resulted in an increase of PRA both in controls and diabetics. This suggests a functional depression of PRA in diabetic patients. In diabetics with ketoacidosis PRA was higher than in control subjects and decreased after disappearance of ketoacidosis. A high level was recorded in a patient with hyperosmolar coma and a very low level in a patient with polyneuropathy and severe orthostatic hypotension. The possible mechanisms involved in the changes of PRA in diabetic patients are discussed.     

Changes in activity of the renin-angiotensin system of the rat by induction of acute inflammation

Angiotensinogen is the precursor of biologically active peptide angiotensin II and its hepatic synthesis is increased by the induction of acute inflammation. Studies were carried out to know whether the rise in plasma angiotensinogen is actually involved in the activity of the renin-angiotensin system during acute inflammation. The plasma level of angiotensinogen in rats was increased to 2.5 times the normal level 16 h after the induction of acute inflammation by administration of lipopolysaccharide (LPS). The plasma renin concentration (PRC) was decreased to about 40% of the normal level concomitantly with a reduction of plasma renin activity (PRA) at 4 h after LPS administration. In contrast, 16 h after LPS injection, when plasma angiotensinogen showed a high level and PRC had recovered to the normal range, PRA was increased to 1.7 times the normal level. These results indicate that acute inflammation induced by LPS causes a biphasic change in the generation of angiotensin I, i.e., an early decrease depending upon the reduction of PRC and later increase depending upon elevation of the angiotensinogen concentration.     

Postnatal development of renin-angiotensin system in rats

The changes occurring in several components of the rat renin-angiotensin system (RAS) were studied for the brief postnatal period, between the fourth and tenth week of life. The parameters were: plasma renin activity (PRA), plasma renin concentration (PRC), plasma renin substrate (PRS) and the plasma angiotensin II concentration (AII). A gradual decrease in PRA with age was noticed. Between the fourth and the eighth weeks of life, this was attributed to a corresponding decline in both PRC and PRS. However, between the eighth and tenth weeks, no changes in PRA could be detected, but PRC and PRS increased, perhaps as a consequence of the changes in renal function and the AII increase observed. In this second period, simultaneously with the RAS changes described, there was reduced sodium chloride excretion as the glomerular filtration rate (GFR) stabilized. The data presented suggest that this postnatal period is critical, in rats, for the maturation of the RAS component control mechanisms; they appear to be closely related to the development of the renal function.     

Effect of the catecholestrogen 2-hydroxyestradiol on the renin-angiotensin system in the rat

The effects of the catecholestrogen 2-hydroxyestradiol (250 and 500 micrograms/day, each for 7 days) on plasma renin substrate (PRS), activity (PRA) and concentration (PRC) were studied in male rats as compared with those of estradiol (250 micrograms/day, for 7 days) and vehicle alone (for 7 days). Pre-treatment levels of PRS, PRA, PRC and the PRA/PRC ratio were similar in four groups. After vehicle treatment, PRS, PRA, PRC and the PRA/PRC ratio remained unchanged. Estradiol treatment, however, produced an increase in PRS, an increase in PRA but no change in PRC. The PRA/PRC ratio after estradiol treatment was high. On the other hand, 2-hydroxyestradiol treatment caused no increase in PRS at a daily dose of 250 micrograms and a slight but significant increase in PRS at a daily dose of 500 micrograms. This treatment also produced increases in PRA as well as PRC at the two daily doses. These increases in PRA and PRC tended to be higher at a daily dose of 500 micrograms than at a daily dose of 250 micrograms. The PRA/PRC ratios after 2-hydroxyestradiol treatment were unaltered at the two daily doses. It is concluded that, while 2-hydroxyestradiol is less active in increasing PRS than estradiol, the compound is capable of increasing PRC.     

Serotoninergic stimulation of aldosterone secretion in vivo: role of the hypothalamo-pituitary adrenal axis.

The control of aldosterone secretion in vivo by serotonin was studied in conscious rats. Serial blood samples were taken from indwelling arterial cannulae before and after i.p. administration of 1 ml (4 g/l) 5-hydroxytryptophan (5-HTP), the precursor of serotonin (5-HT), or saline, and analysed for 5-HTP, serotonin, 5-hydroxyindoleacetic acid, plasma renin activity (PRA), corticosterone, aldosterone, sodium and potassium concentration. The relative contribution of the hypothalamo-pituitary adrenal axis was investigated in animals pretreated with the synthetic glucocorticoid dexamethasone. 5-HTP caused a significant increase in all parameters within 45 min except for plasma sodium and potassium. Saline administration showed no significant effect. Dexamethasone pretreatment significantly impaired the corticosterone and aldosterone response to 5-HTP, although the aldosterone response was merely attenuated. No other parameter was affected by dexamethasone pretreatment. The results show that administration of 5-HTP, which increases serum serotonin levels, stimulates PRA, corticosterone and aldosterone secretion. Dexamethasone pretreatment inhibits the aldosterone response, though not completely, suggesting that the stimulatory action of 5-HTP involves the release of ACTH, which stimulates corticosterone and aldosterone secretion by the adrenal cortex. The failure of dexamethasone to block the aldosterone response completely, suggests the involvement of other mechanisms such as the renin-angiotensin system or a direct action of serotonin on the adrenal zona glomerulosa.     

肾脏和肾神经在应激、钠盐所致高血压中的作用

本工作采用电生理、生化、放免、电镜等方法,探讨了慢性应激和盐致高血压大鼠交感神经系统和肾脏功能的改变。实验在雄性ＳＤ大鼠上进行。结果表明：（１）高盐大鼠肾血浆流量（ＲＰＦ）和尿钠排泄明显增加,而应激大鼠ＲＰＦ显著下降。（２）电镜显示高盐大鼠近曲和远曲小管上皮细胞及线粒体变大,应激则使细胞萎缩、线粒体变小。（３）高盐大鼠肾皮质ＮａＫＡＴＰ酶活性下降,应激可使其恢复。（４）频谱分析显示应激大鼠低频波动（０２～０９Ｈｚ）明显增加。（５）应激导致大鼠肾素活性（ＰＲＡ）及血管紧张素Ⅱ（ＡＮＧⅡ）水平升高,并能使高盐大鼠低ＰＲＡ和ＡＮＧⅡ水平升高。（６）大鼠去除双侧肾神经后,应激无法造成血压升高、ＲＰＦ下降和ＰＲＡ、ＡＮＧⅡ上升。上述结果提示：肾交感神经系统兴奋性增加介导的肾脏机制,可能在应激和／或盐致高血压发病过程中具有重要作用。     

Effect of the method of blood extraction on plasma levels of renin in the Wistar rat

To investigate the influence of blood extraction conditions on the renin-angiotensin system in rats, plasma renin activity (PRA) and plasma renin concentration (PRC) were measured in blood samples obtained by different methods. PRA and PRC in samples obtained by chronic catheterization, cardiac puncture without anesthesia, and decapitation immediately following light ether anesthesia were not significantly different from those obtained by simple decapitation (control group). In contrast, PRA and PRC in samples obtained by cardiac puncture and cavernous sinus puncture after light ether anesthesia were significantly (p less than 0.01) higher than those obtained in the control group. There was a significant direct correlationship between PRA and PRC in all samples studied (r = 0.87, p less than 0.001). The present results suggest that light ether anesthesia increases renin levels, except when blood samples are taken by decapitation, and that chronic catheterization and cardiac puncture are the choice blood extraction methods to evaluate the renin-angiotensin system in rats.     

Role of the renal nerve in glucocorticoid hypertension

The present study was designed to investigate the involvement of the renal nerve in glucocorticoid hypertension and to assess the role of the renin-angiotensin system in dexamethasone-induced hypertension. The elevated blood pressure in dexamethasone treated rats showing a significant increase in plasma renin concentration (PRC) and activity (PRA) was attenuated dose-dependently by the angiotensin I converting enzyme (ACE) inhibition. Bilateral renal denervation caused a partial decrease in the elevated blood pressure, abolished the increased PRC and PRA, and reduced the dose-dependent decrease in blood pressure with ACE inhibition in dexamethasone treated rats. Although the reduction in body weight and increases in urine volume, urinary sodium excretion and hematocrit were clearly seen following dexamethasone administration, dexamethasone-treated renal denervated rats showed the same degree of change in any of the variables as dexamethasone-treated sham-operated rats. Thus, our results indicate that the stimulation of the renin-angiotensin system through the activation of the renal nerve may be partially responsible for the dexamethasone-induced high blood pressure and, therefore, bilateral renal denervation reduces, partially but significantly, the elevated blood pressure, suggesting that the attenuation of oversecretion of renin contributes to the lowering of the blood pressure.     

Hypertension,Increased Aldosterone Secretion and Low Plasma Renin Activity Relieved by Dexamethasone

A father and son are described with a condition characterized by benign hypertension, potassium deficiency, increased aldosterone secretion rate (ASR), raised plasma volume and suppressed plasma renin activity (PRA). There were intermittent elevations of urine 17-ketosteroids and 17-hydroxycorticoids (17-OHCS) but no increase in urine THS, normal circadian rhythm of plasma 17-OHCS, and normal urine 17-OHCS response to dexamethasone and intravenous ACTH. Plasma ACTH and corticosterone secretion were not elevated. Pregnanetriol excretion was normal but urine pregnanediol was increased. At operation on the father no adrenal tumour was found; the excised left adrenal weighed 7 g. and showed nodular cortical hyperplasia; juxtaglomerular cells showed only occasional granules. Following operation hypertension persisted and ASR was half the preoperative value. All abnormalities in father and son were relieved by dexamethasone (DM) 2 mg. daily. The condition recurred following cessation of DM but was relieved by a second course of treatment. No such response to DM was seen in a normal subject or in a patient with Conn''s syndrome. For a number of reasons it is suggested that patients with hypertension, increased ASR and low PRA be given a trial of dexamethasone treatment before undergoing adrenal surgery.     

Parathyroid hormone-related protein stimulates plasma renin activity via its anorexic effects on sodium chloride intake

Parathyroid hormone-related protein (PTHrP) increases renin release from isolated perfused kidneys and may act as an autacoid regulator of renin secretion, but its effects on renin in vivo are unknown. In vivo, PTHrP causes hypercalcemia and anorexia, which may affect renin. We hypothesized that chronically elevated PTHrP would increase plasma renin activity (PRA) indirectly via its anorexic effects, reducing sodium chloride (NaCl) intake and causing NaCl restriction. We infused male Sprague-Dawley rats with the vehicle (control) or 125 μg PTHrP/day (PTHrP) via subcutaneous osmotic minipumps for 5 days. To replenish NaCl consumption, a third group of PTHrP-infused rats received 0.3% NaCl (PTHrP + NaCl) in their drinking water. PTHrP increased PRA from a median control value of 3.68 to 18.4 ng Ang I·ml(-1)·h(-1) (P < 0.05), whereas the median PTHrP + NaCl PRA value was normal (7.82 ng Ang I·ml(-1)·h(-1), P < 0.05 vs. PTHrP). Plasma Ca(2+) (median control: 10.2 mg/dl; PTHrP: 13.7 mg/dl; PTHrP + NaCl: 14.1 mg/dl; P < 0.05) and PTHrP (median control: 0.03 ng/ml; PTHrP: 0.12 ng/ml; PTHrP + NaCl: 0.15 ng/ml; P < 0.05) were elevated in PTHrP- and PTHrP + NaCl-treated rats. Body weights and caloric consumption were lower in PTHrP- and PTHrP + NaCl-treated rats. NaCl consumption was lower in PTHrP-treated rats (mean Na(+): 28.5 ± 4.1 mg/day; mean Cl(-): 47.8 mg/day) compared with controls (Na(+): 67.3 ± 2.7 mg/day; Cl(-): 112.8 ± 4.6 mg/day; P < 0.05). NaCl consumption was comparable with control in the PTHrP + NaCl group; 0.3% NaCl in the drinking water had no effect on PRA in normal rats. Thus, our data support the hypothesis that PTHrP increases PRA via its anorexic effects, reducing NaCl intake and causing NaCl restriction.     

Influence of adrenergic nervous and prostaglandin systems on hydralazine-induced renin release

The role of the beta-adrenergic nervous and prostaglandin systems in vasodilator-induced activation of the renin-angiotensin system was studied in conscious rats. The plasma renin activity (PRA) response to intravenous hydralazine (0.25, 0.5 and 1 mg/kg body wt.) was compared to the PRA response following administration of similar doses of hydralazine to rats pretreated with either indomethacin (3 mg/kg body wt. i.v.) or indomethacin and propranolol (1 mg/kg body wt. i.v.). PRA increased significantly above control levels after each of the hydralazine doses. In rats pretreated with indomethacin, PRA did not increase with the 0.25 mg/kg dose of hydralazine; increased significantly with the 0.5 mg/kg dose but remained significantly lower than the PRA response in the absence of indomethacin; and increased with the 1 mg/kg dose to a level not significantly different from PRA in rats receiving only hydralazine. When rats were pretreated with indomethacin and propranolol, PRA did not increase significantly in response to either the 0.25 or 0.5 mg/kg doses of hydralazine. Although a statistically significant increase in PRA was noted with the 1 mg/kg dose of hydralazine, the level of PRA achieved was very low and only 15% of that observed with the other two treatment regimens (i.e., hydralazine alone or indomethacin and hydralazine). These results demonstrate that vasodilator-induced renin release is only partially mediated via the prostaglandin system, that the degree of this control is related to the intensity of vasodilator stimulus and that renin release following administration of hydralazine can be attributed almost entirely to activation of the beta-adrenergic nervous and prostaglandin systems.     

Maternal high-sodium intake alters the responsiveness of the renin-angiotensin system in adult offspring

AimsThe goal of the current study was to evaluate the impact of maternal sodium intake during gestation on the systemic and renal renin–angiotensin–aldosterone-system (RAAS) of the adult offspring.Main methodsFemale Wistar rats were fed high- (HSD-8.0% NaCl) or normal-sodium diets (NSD-1.3% NaCl) from 8 weeks of age until the delivery of their first litter. After birth, the offspring received NSD. Tail-cuff blood pressure (TcBP) was measured in the offspring between 6 and 12 weeks of age. At 12 weeks of age, the offspring were subjected to either one week of HSD or low sodium diet (LSD-0.16% NaCl) feeding to evaluate RAAS responsiveness or to acute saline overload to examine sodium excretory function. Plasma (PRA) and renal renin content (RRC), serum aldosterone (ALDO) levels, and renal cortical and medullary renin mRNA expression levels were evaluated at the end of the study.Key findingsTcBP was higher among dams fed HSD, but no TcBP differences were observed among the offspring. Male offspring, however, exhibited increased TcBP after one week of HSD feeding, and this effect was independent of maternal diet. Increased RAAS responsiveness to the HSD and LSD was also observed in male offspring. The baseline levels of PRA, ALDO, and cortical and medullary renin gene expression were lower but the RRC levels were higher among HSD-fed male offspring (HSDoff). Conversely, female HSDoff showed reduced sodium excretion 4 h after saline overload compared with female NSDoff.SignificanceHigh maternal sodium intake is associated with gender-specific changes in RAAS responsiveness among adult offspring.     

The hypophyseal-adrenal axis in the protein-calorie malnourished rat

Male rats were fed an 8% low protein diet for 30 consecutive days beginning at 20 days of age. On day 50, the effect of the diet was evaluated on the hypophyseal-adrenal axis and the observations compared with those noted in age-matched controls fed a standard laboratory diet. The malnourished animals had significantly larger adrenal gland weights, relative to body size, and higher levels of serum corticosterone. Additionally, the number of ACTH-secreting cells in the pituitary glands of these rats was 63.8% greater than that present in the controls. These results suggest that ACTH secretion and adrenocortical physiology are stimulated under conditions of experimentally induced protein-calorie malnutrition.     

Direct measurement of immunoreactive renin during changes of posture in man.

For several years, it has been possible to determine renin by a direct RIA. In the present study, plasma active renin concentration (PRC) was related to plasma renin activity (PRA) and aldosterone as a function of a standardized posture test. Using PRC, our target was to define the shortest necessary test duration. The three parameters were examined in 10 healthy male subjects (22-34 years old). Salt balance was determined in 24-hour urine, and plasma potassium and sodium were measured. Volunteers were hospitalized for 1 night, and at 8 a.m. the next morning they were subjected to the following postural changes: 3 h active orthostasis and 3 h recumbency. Frequent blood samples were taken. Orthostasis induced a significant rise in PRC, PRA and aldosterone already after 15 min. PRC and PRA reached a maximum level after 90 min of orthostasis and remained relatively stable, while aldosterone reached its highest level already after 30 min and then gradually decreased. Significant correlations were found between PRA and PRC (p < 0.001), between PRC and aldosterone (p < 0.001), and between PRA and aldosterone (p < 0.001). The PRC/PRA ratio changed during the course of the test, especially in supine subjects. When subjects returned to the supine position, all the parameters measured began a continual decrease. There were no significant changes in serum potassium and sodium levels throughout the duration of the test.(ABSTRACT TRUNCATED AT 250 WORDS)