Effect on the plasma renin-aldosterone system of lesions to suprachiasmatic nuclei and central serotonin depletion in rats

Renin activity, angiotensin-converting enzyme activity and aldosterone concentration were measured in the plasma of 8 experimental groups of rats: I--sham operated non-treated rats, II--suprachiasmatic nuclei (SCN) lesioned non-treated: III--sham operated + furosemide (4 mg/kg i.p.), IV--SCN lesioned + furosemide, V--shams + 24-hour water deprivation: VI--SCN + 24-hour water deprivation, VII--intact rats + saline: and VIII--intact rats + p-chlorophenylalanine (pCPA, 300 mg/kg, i.p.). No significant changes in basal levels of the three parameters were found after SCN, lesions in comparison with sham operated controls. Furosemide caused a similar increase in all three parameters of both sham and SCN lesioned rats. Similar changes were observed in SCN rats 24 hours after water deprivation and in intact rats 48 hours after serotonin depletion by pCPA: suppressed renin activity together with increased aldosterone concentration. It is concluded that the central serotonergic system and SCN play a similar role in control of the renin-aldosterone system in rats under conditions of negative water-salt balance.     

Effect of serotonin depletion by p-chlorophenylalanine on serum prolactin levels in estrogen-treated ovariectomized rats: insights concerning the serotoninergic, dopaminergic and opioid systems.

The stimulatory effect of serotonin on prolactin secretion is well documented, and the administration of an inhibitor of serotonin synthesis (p-chlorophenylalanine - pCPA) has the expected inhibitory action on prolactin release in most experimental situations. However, there is evidence that in certain physiological or experimental conditions, activation of the serotoninergic system can also determine inhibition of prolactin secretion. The aim of the present study was to investigate the ability of estrogen to modify the effect of pCPA on prolactin secretion and to evaluate the participation of opioid and/or dopaminergic systems in regulating pCPA-induced prolactin secretion in estradiol-treated rats. We observed that pCPA administration (200 mg/kg/day, s.c., 2 days) to ovariectomized (OVX) female rats treated with estradiol benzoate (300 microg/week for 2 weeks, or 50 microg/week for 4 weeks, s.c.) causes a significant increase in serum prolactin, whereas no effect is observed in intact rats or in OVX rats without treatment. Bromocriptine administration completely reversed prolactin values previously increased by estradiol and by pCPA [OVX rats + estradiol = 86.50 ng/ml (68.90-175.02), OVX + estradiol + pCPA = 211.30 ng/ml (142.03-311.00), OVX + estradiol + pCPA + bromocriptine = 29.35 ng/ml (23.01 - 48.74), p<0.05. Naloxone administration partially reduced estrogen-induced high prolactin concentrations, but did not affect prolactin secretion stimulation determined by pCPA. Overall, the data from this report confirm the involvement of the dopaminergic system and, to a lesser degree, of endogenous opioids in prolactin secretion stimulation determined by estradiol. Furthermore, our results suggest that the stimulatory action of pCPA on prolactin secretion in estradiol-treated OVX rats is mediated by serotonin, which may also act indirectly on dopamine neurons.     

Effect on renal function and renin secretion of noradrenaline infused into the renal artery.

Effect of noradrenaline on renal function and renin secretion was studied during infusion into the renal artery of anaesthetized dogs. Experiments were performed with or without alpha or beta receptor blockade. Noradrenaline infusion resulted in a significant elevation of renin secretion associated with marked vasoconstriction. Urine flow rate, the filtered and excreted amounts of sodium were diminished due to the decreased GFR. Alpha receptor blockade suppressed renin secretion in the presence of changes in renal haemodynamics. The simultaneous infusion of noradrenaline enhanced renin release without affecting renal haemodynamics or reducing Na-excretion. Following simultaneous inhibition of alpha and beta receptors renin secretion dropped markedly; there were no further changes in either renin secretion or renal haemodynamics upon the simultaneous administration of noradrenaline. Based on the present findings it is suggested that renin secretion is controlled by both alpha and beta receptors. Beta receptor simulation exerts a direct action, whereas alpha stimulation appears to be mediated in part by indirect mechanisms such as renal haemodynamics.     

Cerebral serotonin and the hypothalamo-hypophyseal-adrenal system of the rat during aging]

The role of brain serotonin (5HT) on the hypothalamus-pituitary-adrenal system (HPAs) under basal condition and after injections of p-chlorophenylalanine (pCPA) and L-5-hydroxytryptophan (L-5HTP) has been studied in 6, 12 and 28 month old male Wistar rats. Four experimental groups were made for each age: control, saline, injected with pCPA (250 mg/kg i.p.) and L-5HTP (200 mg/kg i.p.), the effects being valued 2 hours after L-5HTP administration and 24 hours after pCPA injection. In all groups the plasmatic ACTH, the corticosterone levels as well as the simultaneous changes of the 5TH content tryptophan hydroxylase activity in whole brain were estimated two hours after the L-5HTP injection and 24 hours after that of pCPA. Significant changes are not found in the plasmatic ACTH and corticosterone values with respect to age under basal condition. Nevertheless, the response of HPAs differs with the age after pCPA or L-5HTP injection. The ACTH and corticosterone levels augment by L-5HTP and decrease by pCPA in all age groups, but this corresponding increase or decrease was less marked in the older rats. The 5HT content as tryptophan hydroxylase activity in brain decreased in old animals. pCPA and L-5HTP determine, respectively, high falls and rise of 5TH values, these changes being more intense for pCPA in old rats and for L-5HTP in young and mature animals. The tryptophan hydroxylase activity is decreased by pCPA as L-5HTP injections.(ABSTRACT TRUNCATED AT 250 WORDS)     

Renin-angiotensin system, blood pressure homeostasis and renal function in galactosamine-induced fulminant hepatic failure in the guinea pig

Arterial blood pressure, renal function and plasma concentrations of renin and renin substrate (angiotensinogen) were investigated in guinea pigs subjected to galactosamine-induced (1 g/kg i.v.) liver cell necrosis. Blood pressure declined continuously by 50% during a follow-up period of 72 h which was associated with a decrease in diuresis and natriuresis to 36 and 31%, respectively. Simultaneously, plasma renin concentration increased 30-fold indicating marked reduction of renal perfusion, while plasma renin substrate concentration fell to 6% of the baseline level. There was microscopic evidence of oligemic circulatory renal damage characterized by acute proximal tubular necrosis with concomitant tubular dilatation. Short-term infusion of homologous renin substrate-enriched plasma, derived from nephrectomized animals, was followed by marked increase in mean arterial blood pressure from 34 +/- 9 to 77 +/- 7 mm Hg accompanied by marked diuresis and natriuresis. Renin substrate depletion following galactosamine-induced fulminant liver failure may represent impaired hepatic biosynthesis as well as increased renin substrate consumption due to excessive renin secretion. Angiotensinogen repletion has a beneficial effect on both renal function and blood pressure probably due to marked generation of the potent vasoconstrictor angiotensin II which consequently inhibits renin secretion. These observations strongly support the suggestion that the renin-angiotensin system is of major importance to cardiovascular homeostasis in acute liver failure.     

Complex role of 5-HT in the regulation of TSH secretion in the male rat

The role of 5-hydroxytryptamine (5-HT) in the regulations of TSH secretion was studied in male rats using both peripheral and central administration of the drugs. Basal TSH levels were not modified by moderate doses of 5-HT (subcutaneously) or its precursors or antagonists (intraperitoneally) given 1 h before decapitation. The cold-stimulated TSH secretion was decreased by L-tryptophan (L-TRP, 400 mg/kg i.p.), quipazine (10 mg/kg i.p.) and 5-HT (1 or 5 mg/kg s.c. or i.v.) as well as by p-chlorophenylalanine (pCPA, 20 or more mg/kg i.p.) when the drugs were given 1 h before sampling. pCPA (100-400 mg/kg i.p.) was active 24-48 h after the injection but repetitive administration did not affect TSH levels. 5-HT (5 mg/kg s.c.) was effective also in pinealectomized animals. L-TRP and 5-hydroxytryptophan potentiated the TRH-stimulated TSH secretion when given 1 h before killing. 5-HT (10 microgram/rat) infused into the third ventricle enhanced the cold-stimulated TSH secretion when given 30-45 min before sampling. When injected into the medial basal hypothalamus, 50-HT (1-10 microgram/rat) had no effect on basal or stimulated TSH levels. The results suggest: (1) 5-HT does not play any role in the regulation of basal TSH secretion; (2) in the cold-stimulated TSH secretion 5-HT has a stimulatory action evidently inside the blood-brain barrier and also an inhibitory effect obviously outside this barrier.     

Brain serotonin turnover and plasma prolactin and growth hormone concentrations during changes in osmotic balance in the domestic fowl

Summary Young cockerels injected 24 h earlier with 0.9% saline,para-chorophenylalanine (pCPA, brain serotonin depletor) or alpha-methylpara-tyrosine (AMPT, brain catecholamine depletor) were deprived of access to water for 24 h. Plasma prolactin concentrations were markedly elevated by water deprivation and returned to normal on rehydration. pCPA, but not AMPT, significantly reduced the increase in prolactin. Concentrations of growth hormone were not affected by water deprivation. Brain serotonin concentrations were reduced by treatment with pCPA. Groups of cockerels were maintained under normal conditions or without access to drinking water for 12 h or 24h. Some were injected with the monoamine oxidase inhibitor pargyline, which increased the prolactin and decreased the growth hormone concentration in the plasma of the hydrated birds. The inhibitory effect of pargyline on growth hormone was augmented following water deprivation. Serotonin levels were not significantly affected by water deprivation but turnover (defined as accumulation of serotonin after pargyline treatment) was increased in the hypothalamus but not in remaining tissue. Injecting 30% saline solution intravenously markedly increased plasma prolactin whilst growth hormone concentrations were decreased. Serotonin turnover was increased in the hypothalamus but not in other brain regions. The results show that secretion of prolactin and growth hormone by the pituitary gland during osmotic imbalance in the fowl may be mediated by changes in hypothalamic scrotonin turnover.     

Is the renin-angiotensin system involved in urinary concentration mechanisms?

Renin release elicited by i.v. injection of loop-diuretics was used to study the effects of angiotensin II (AII) on intrarenal hemodynamics. The vasoconstrictive action of intrarenally synthesized AII predominates in the efferent glomerular arteriole. Such a vasoconstrictive effect could affect blood flow in the vasa recta which stem from efferent arterioles of juxtamedullary glomeruli. Renin secretion and renal inner medullary blood flow (tissue clearance of 133Xe) were simultaneously measured before and after frusemide-induced renin release. The relationship between renin secretion and renal inner medullary blood flow was inverse. Changes in renal medullary blood flow may be physiological determinants of medullary osmolality and renal concentration ability. The intrarenal role of AII in urinary concentration recovery after frusemide was examined. Inhibition of renin release by propranolol or AII-blockade (by saralasin or Hoe 409) delayed recovery of urinary osmolality. In the conscious rat, propranolol slowed down recovery of the cortico-papillary gradient for sodium. Its vasoconstrictive action on the efferent glomerular arteriole might enable the renin-angiotensin system to participate in the control of renal excretion of salt and water.     

Pharmacological blockage of serotonin biosynthesis and circadian changes in oxaliplatin toxicity in rats

This study investigates if the serotoninergic system plays a role in chronotoxic effects of the anticancer agent oxaliplatin (l-OHP). Four groups of female rats (120 in total) synchronized with light-dark (12 h:12 h) were treated with: (i) saline, (ii) para-chlorophenylalanine (pCPA, an inhibitor of serotonin biosynthesis: 300 mg/kg/d, i.p. for two consecutive days), (iii) l-OHP (23 mg/kg, i.v.) at three different dosing times, or (iv) both pCPA and l-OHP. The results show pCPA (ii) obliterates the circadian rhythm in plasma ACTH but not in corticosterone or leukocytes, and (iii) l-OHP exerts circadian time-dependent toxic effects (body weight loss, leukopenia, and intestinal lesions) with greatest toxicity coinciding with treatment at the end of the nocturnal activity span (P < 0.05). In rats whose serotonin biosynthesis was blocked (iv), the circadian rhythms in the toxic effects of l-OHP and in ACTH were obliterated, while the rhythms in corticosterone and leukocytes persisted.     

In vitro evidence for a blood-borne renin-releasing factor

The present studies using kidney slices were designed to test whether serotonergic stimulation of renin secretion is mediated via an endocrine signal. Previous in vivo studies have indicated that central serotonergic neurons regulate renin secretion. Administration of the serotonin releaser dl-p-chloroamphetamine-HCl (PCA) to rats causes dose-dependent increases in renin secretion that can be blocked by serotonin depletion with p-chlorophenylalanine (PCPA), injections of 5,7-dihydroxytryptamine into the dorsal raphe nucleus or ablation of the mediobasal hypothalamus. The renin-releasing substance was obtained from nephrectomized male donor rats which were sacrificed 1 hour after receiving an injection of PCA intraperitoneally. Plasma from rats that received saline injections was used as control. The plasma was collected and separated by ultrafiltration into fractions containing solutes with molecular weights between 500-10,000 daltons. The renin-releasing ability of this substance was studied in vitro using rat renal cortical slices. The plasma fraction (M.W. = 500 - 10,000) from rats treated with PCA caused dose-dependent increases in renin release from the kidney slices. Heating of the plasma factor at 100 degrees C for 30 minutes did not reduce the ability of this substance to release renin from the kidney slices. PCA alone (66 X 10(-6)M) did not increase renin release from the kidney slices. These data suggest that stimulation of serotonergic receptors in the brain triggers the release of an endocrine factor that is capable of directly stimulating renin release from the kidneys.     

Pertussis toxin enhances the beta-adrenergic and blocks the alpha 2-adrenergic regulation of renin secretion in renal cortical slices

The adrenergic regulation of renin secretion was studied in renal cortical slices from control and pertussis toxin-treated rats. Pertussis toxin was used to study the role of adenylate cyclase in the control of renin release. It was observed that isoproterenol and epinephrine stimulated renin secretion and that clonidine decreased both basal and isoproterenol-stimulated renin secretion in the control group. Pertussis toxin: a) increased significantly basal renin secretion, b) displaced to the left the concentration-response curve for isoproterenol and epinephrine and magnified the response to epinephrine and c) abolished the inhibitory effect of clonidine on renin secretion. This work confirms our previous results obtained in vivo and suggests a direct effect of pertussis toxin on the cells that secrete renin.     

Involvement of the Serotonergic System in Analgesia Induced by the Influence of Low-Intensity Microwaves on an Antipain Acupuncture Point

In experiments on mice, we studied changes in the level of analgesia induced by irradiation of the antipain acupuncture point (AP) E36 by low-intensity microwaves under conditions of modification of the serotonin level in the brain; this level was modified by injection of 300 mg/kg DL-p-chlorophenylalanine (pCPA). The duration of the nociceptive behavioral reaction (licking the limb) caused by injection of the formalin solution into the foot dorsal surface increased 24, 48, and 72 h after pCPA injection by 99.9, 84.4, and 114.4%, as compared with those in animals subjected to microwave irradiation of the AP E36 with no preliminary pCPA injection. It is concluded that the brain serotonergic system is actively involved in the analgesia effects induced by irradiation of the AP by low-intensity microwaves.     

Effect of the time of administration of 5-hydroxytryptophan on the restoration of circadian stimulation of ACTH secretion in rats treated with p-chlorophenylalanine

In female rats kept under a photoperiod of 12L-12D (50 lux from 07.00-19.00 h) the pharmacological blockade of serotonin synthesis by pCPA (2 X 300 mg/kg i.p.) obliterated the diel ACTH stimulation, which could, however be restored by an additionnal 5-HTP injection (60 mg/kg i.p.), provided that the serotonin precursor was administered at 11.00 h. If injected at 23.00 h the same dosage of 5-HTP failed to elicit any increase in plasma ACTH. The circadian ACTH rhythm appears, therefore to depend upon a daily activation of the serotoninergic system occurring 4 h after the onset of the light phase.     

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.     

Renin secretion in intact dogs following incubation of epinephrine in blood in vivo

Previous experiments have shown that epinephrine-induced renin secretion in vivo apparently is initiated by activation of extrarenal adrenoceptors. However the location of these receptors has not been determined despite considerable search. The present experiments were designed to evaluate the hypothesis that epinephrine-induced renin secretion is initiated by a change in blood composition, independent of the passage of the blood through any organ. Accordingly, the left kidneys of anesthetized dogs were perfused with femoral arterial blood via an extracorporeal circuit. The circuit consisted of large-bore Tygon tubing (157 ml volume) with an infusion port and a mixing chamber near the femoral arterial origin, and a blood sampling and pressure-monitoring site near the renal artery. A roller pump was used to maintain renal perfusion pressure approximately equal to femoral arterial pressure, and renal blood flow was measured with an electromagnetic flowmeter. Transit time (of a dye) in the extracorporeal circuit was approximately 40 seconds. Intravenous infusion of epinephrine at 25 ng X kg-1 X min-1 increased renin secretion significantly. However, infusion of epinephrine into the extracorporeal circuit at a rate of 5 ng X kg-1 X min-1 did not alter renin secretion, even though epinephrine concentration in the renal perfusate was higher than during intravenous infusion. The data do not support the hypothesis that epinephrine-induced renin secretion is initiated by a direct effect of epinephrine on blood composition, independent of the passage of blood through any organ.     

Dantrolene stimulates renin secretion by rat renal cortical slices but fails to block calcium-dependent inhibition.

Calcium (Ca) is an inhibitory second messenger in renin secretion, and it has been proposed that some first messengers, such as angiotensin II (A-II), antidiuretic hormone (ADH), and N6-cyclohexyladenosine (CHA), increase Ca and thereby inhibit renin secretion by mobilizing Ca from intracellular sequestration sites. The present experiments were designed to test this proposal by using dantrolene, an antagonist of intracellular Ca mobilization. Dantrolene stimulated renin secretion by rat renal cortical slices in a concentration dependent manner; at 0.0, 0.1, and 0.5 mM dantrolene, secretory rates were 8.1 +/- 0.6, 9.4 +/- 0.6 (p less than 0.05), and 14.9 +/- 1.2 (p less than 0.0001) GU/g x hr, respectively. These results could be interpreted to mean that Ca mobilization is occurring at a finite rate during the basal state, and that by antagonizing this process, dantrolene lowers intracellular Ca and thereby stimulates renin secretion. However, 0.1 mM dantrolene failed to antagonize the inhibitory effects on renin secretion of A-II, ADH, and CHA, and only CHA-induced inhibition of renin secretion was antagonized by 0.5 mM dantrolene. We conclude that if A-II, ADH, and CHA inhibit renin secretion by mobilizing Ca from an intracellular storage site, then the site is insensitive to dantrolene.     

Renal tissue injury and proliferative response after successive treatments with anticancer platinum derivatives and tobramycin

The administration of anticancer platinum derivatives such as cisplatin, or aminoglycoside antibiotics is frequently associated with tubular necrosis which can eventually lead to acute renal failure. Previously, we have shown that renal tissue injury induced by these drugs elicits a process of tissue repair involving the stimulation of cell proliferation. The present study was undertaken to examine the morphological alterations and the proliferative response resulting from tobramycin administration to animals previously challenged with the platinum derivatives cisplatin and carboplatin. Female Sprague-Dawley rats were treated i.p. with cisplatin (8 mg/kg delivered in four daily injections) or carboplatin (40 mg/kg given in one injection) and sacrificed 21 or 60 days after drug administration. Tobramycin was administered i.p. twice a day at a daily dose of 10 mg/kg over the ten days preceding sacrifice. At 1 h before sacrifice, each animal received i.p. 200 microCi of [3H] thymidine for the measurement of DNA synthesis and cell proliferation (determined by histoautoradiography). Successive treatments with cisplatin and tobramycin appeared to produce an increase in the severity of histopathological alterations such as tubular necrosis and cystic degeneration. Moreover, cisplatin pretreatment dramatically increased the severity of tobramycin-induced lysosomal phospholipidosis. Histopathological alterations were followed by an important proliferative response partly associated with tubular regeneration but also due to fibroblastic proliferation which led to peritubular fibrosis. Surprisingly, the additive effect of cisplatin and tobramycin on renal injury became particularly striking with increasing time intervals between treatments. In contrast, successive treatments with carboplatin and tobramycin did not cause significative changes of the degree of renal injury, compared with either drug given alone.(ABSTRACT TRUNCATED AT 250 WORDS)     

Role of renal nerves in mediating the increased renin secretion during continuous positive-pressure ventilation

The effect of renal denervation on the increase in plasma renin levels during continuous positive-pressure ventilation (CPPV) was studied in anesthetized dogs. Renin secretion was measured in a group of dogs with intact renal nerves and a group which had previously undergone bilateral renal denervation. Renal perfusion pressure was maintained constant throughout the experiment. Renin secretion increased significantly during application of CPPV with a positive and expiratory pressure of 10 cm water in the dogs of the intact group but was not altered in dogs of the denervated group. These results support the conclusion that CPPV increases renin secretion by reflexly altering renal nerve activity.     

Exocrine pancreas under experimental conditions

Summary The in vitro formation of paracrystalline structures after addition of high concentrations of amino acids to the incubation medium was investigated in pancreatic lobules and pancreatic homogenates. It could be shown that even in the homogenate, pCPA induced the formation of paracrystalline structures which exhibited the same ultrastructural arrangement as seen in the in vivo induced paracrystalline inclusions in the RER of the rat pancreas. In correlation with the morphological alterations, the functional consequences to the secretory process, i.e. amylase discharge, discharge of pulse-labeled proteins and incorporation of ³H-leucine into pancreatic proteins, were studied in pancreatic lobules. Two different approaches were used. Firstly, the effect of pCPA-pretreatment of rats and secondly, the effect of higher pCPA concentrations in the incubation medium on the secretory process in untreated pancreatic lobules were studied. A nonparallelism of inhibition of the three different steps of the secretory process depending, with respect to its extent, on time after pCPA-application (4–72 h) and on the concentration of pCPA (1 · 10^-5 to 1 · 10^-2 M) in the incubation medium was found. In addition to specific effects probably due to pCPA and to the paracrystalline inclusions, unspecific alterations, particularly accompanying degenerative processes after in vivo pretreatment, could be differentiated.     

Cyclosporine A inhibits prostaglandin E2 release, and has no effect on renin secretion, from rat renal cortical slices

These experiments were designed to test the hypothesis that cyclosporine A (CSA) inhibits renin secretion and stimulates renal prostaglandin E2 (PGE2) release in vitro. In rat renal cortical slices incubated at 37 degrees C in a buffered and oxygenated physiological saline solution containing 4 mM KCl, CSA concentrations ranging from 1 to 30 microM had no significant effect on renin secretion. Furthermore, partial depolarization of the cells, produced by increasing extracellular KCl concentration to 20 mM, failed to reveal any latent inhibitory or stimulatory effects of CSA on renin secretion. On the other hand, PGE2 release was significantly inhibited by CSA over the same range of concentrations. This inhibitory effect might be explained by the previous findings of others, that CSA inhibits phospholipase A2 activity, thereby decreasing arachidonic acid production, the rate-limiting step in PG synthesis. In conclusion, CSA inhibits PGE2 release but fails to affect renin secretion in vitro. These results suggest that the occasional effects of CSA on renin secretion in intact animals must be attributable to indirect and/or chronic effects.