Effect of reserpine on 5-hydroxytryptophan (5HTP)-immunoreactive neurons in the rat brain

By immunohistochemistry of rat brain in conjunction with a specific antibody against 5-hydroxytryptophan (5HTP), we examined immunoreactivity to 5HTP in neurons, from which 5-hydroxytryptamine (5HT; serotonin) was depleted by reserpine treatment. The distribution patterns of 5HTP-positive neurons overlapped with those of 5HT neurons. Treatment with reserpine (5 mg/kg, 90 min before death) caused a complete suppression of 5HT-positive staining, but 5HTP-immunostaining remained in perikarya of the nuclei raphe dorsalis, centralis superior and obscurus. Treatment with reserpine (25 mg/kg, 90 min before death) suppressed the 5HTP-immunoreaction in certain perikarya (e.g. of the nucleus raphe dorsalis) and fibres; however, 5HTP-immunostaining remained in perikarya of the nuclei centralis superior and raphe obscurus. This suggests that these neurons synthesize more 5HTP by a process which appears to be stimulated by reserpine.     

Serotonin Synthesis Rate Measured in Living Dog Brain by Positron Emission Tomography

In vivo measurements by positron emission tomography of the brain serotonin synthesis rates in the normal dog, in the dog with increased plasma tryptophan concentration, and in the dog under different arterial oxygen tensions are described. The method described here permits repeated measurements in the same brain for the first time. An increase in the plasma tryptophan concentration from 16.6 to 191.5 and then to 381 microM resulted in close to a linear increase in the brain serotonin synthesis rate. When PaO2 was raised from 76 +/- 2 to 106 +/- 1 mm Hg, the rate of serotonin synthesis in the dog brain increased from 39 +/- 8 to 54 +/- 10 pmol g-1 min-1. The estimates of the Michaelis-Menten constants, Kappm and Vmax, for the transport of tryptophan through the blood-brain barrier are 303 +/- 54 microM and 63 +/- 10 nmol g-1 min-1, respectively.     

Substance P increases rat aortic albumin permeability.

We tested the hypothesis that exogenous substance P (SP) could enhance rat aortic permeability to plasma albumin. Fluorescein-labeled bovine serum albumin was used as the tracer. In vivo normalized albumin mass transfer rates (x10(-8) cm/sec) were 9.16 +/- 1.73, 14.20 +/- 2.76 (P less than 0.05) and 20.31 +/- 3.31 (P less than 0.001) for groups infused i.v. with 0.01 N acetic acid vehicle, 7.4 pmol and 0.74 pmol SP/kg/min for 5 min, respectively. No significant differences from the control group were found in rats receiving 150 pmol, 74 pmol nor 74 fmol SP/kg/min for 5 min. The results indicate that aortic permeability dynamics for plasma albumin can be enhanced by pmol levels of the tachykinin SP.     

Increasing blood oxygen increases an index of 5-HT synthesis in human brain as measured using alpha-[(11)C]methyl-L-tryptophan and positron emission tomography

The main objective of this investigation was to test the hypothesis that brain serotonin (5-HT) synthesis, as measured by trapping of alpha-[(11)C]methyl-L-tryptophan (alpha-MTrp) using positron emission tomography (PET), can be modulated by changes in blood oxygen. The study involved six healthy participants (three male and three female), who breathed a 15% or 60% oxygen mixture starting 15 min before the injection of tracer and continuing during the entire acquisition period. Participants were injected with up to 12m Ci of alpha-MTrp. Two sets of PET images were acquired while the participants were breathing each of the oxygen mixtures and, after reconstruction, all images were converted into brain functional images illustrating the brain trapping constant K(*) (microL/g/min). The K(*) values were obtained for 12 regions of interest outlined on the magnetic resonance images. The K(*) values obtained at high and low blood oxygen content were compared by paired statistics using Tukey's post hoc correction. As there were no difference in plasma tryptophan concentrations, these K(*) values are directly related to regional 5-HT synthesis. The results showed highly significant increases (50% on average) in brain serotonin synthesis (K(*) values) at high (mean value of 223+/-41 mmHg) relative to low (mean value 77.1+/-7.7 mmHg) blood oxygen levels. This suggests that tryptophan hydroxylase is not saturated with oxygen in the living human brain and that increases in blood oxygen can elevate brain serotonin synthesis.     

Determination of the Lumped Constant for the α-Methyltryptophan Method of Estimating the Rate of Serotonin Synthesis

Abstract: The lumped constant (LC) for the α-methyl-l -tryptophan method to convert the brain's uptake of labeled α-methyl-l -tryptophan into the regional rate of serotonin synthesis was estimated. The method involved independently estimating the unidirectional uptake constant of the tracer (α-[¹⁴C]methyl-l -tryptophan) to the tissue and the tracee (tryptophan) (with the addition of a radioactive compound) and calculating their ratio. The LC was estimated from logarithmically transformed data. Similar experiments were performed using rats treated with the drug probenecid, which blocks the efflux of 5-hydroxyindoleacetic acid (a metabolite of serotonin) from the brain. The experiments using probenecid, corrected for the difference in the levels of plasma free tryptophan (increased in probenecid-treated rats) relative to control experiments, gave an average LC for the rat brain of 0.46 ± 0.14 (mean ± SD). This value was not significantly different from the one obtained in controls (0.43 ± 0.13). In addition, the LC was also calculated using unidirectional uptake constants in the probenecid-treated rats for α-methyl-l -tryptophan and l -tryptophan. This LC value was 0.39 ± 0.10. There was no significant difference between these three LC values. Thus, an average ± SD LC of 0.42 ± 0.07 for 28 brain structures investigated in this study was obtained. Statistically the LC obtained in different structures had a variability that could be accounted for by errors in measurements alone. In other words, dispersion in the LC values could be fully accounted for by chance alone. Data confirmed that the LC value did not change when the rate of serotonin synthesis was increased by probenecid treatment. We also showed that the rate of 5-hydroxyindoleacetic acid accumulation in probenecid-treated rats was 58 pmol g^?1 min^?1 (rat brain), which is about twice as much as reported by others for a normal rat. This difference could also be accounted for by the increase in the plasma level of free tryptophan in probenecid-treated rats.     

Immunohistochemical demonstration of the distribution of serotonin neurons in the brainstem of the rat and cat

The morphological characteristics and distribution of the somata of serotonin-containing neurons in the brainstem of rats and cats were studied by use of the peroxidase-anti peroxidase (PAP) immunohistochemical method employing highly specific antibodies to serotonin. Antibodies were raised in rabbits against an antigen prepared by coupling serotonin to bovine thyroglobulin and using formaldehyde as the coupling reagent. The distribution pattern of serotonin neurons observed in the present material is essentially in agreement with that described by other investigators who used the Falck-Hillarp method. In addition, this immunohistochemical technique revealed serotonin-containing perikarya in the following regions: 1) the periaqueductal gray, especially lateral to the nucleus raphe dorsalis, 2) the nucleus interpeduncularis, 3) the nucleus parabrachialis ventralis and dorsalis, 4) the field of the lemniscus lateralis, and 5) the reticular formation of the pons and medulla oblongata. The described immunohistochemical procedure makes it possible to study central serotonin neurons in detail without pharmacological pretreatment. The wide distribution of serotonin neurons demonstrated in this study should be considered when interpreting experiments dealing with the serotonin system.     

Neuropeptides and monoamines in the carp (Cyprinus carpio) pretectum: An immunocytochemical study

The distribution of neurotensin, neurokinin A, dynorphin A, galanin, somatostatin-28 (1-12), neuropeptide Y, vasoactive intestinal polypeptide, gastrin-releasing peptide, gamma-melanocyte stimulating hormone, alpha-neo-endorphin, angiotensin H, cholecystokinin-8, serotonin and tyrosine hydroxylase has been studied in the pretectal nuclei of the Cyprinus carpio: nuclei pretectalis superficialis parvicellularis and magnocellularis, pretectalis centralis, pretectalis, and pretectalis periventricularis dorsalis and ventralis using an indirect immunoperoxidase technique. We have found neuropeptide Y and serotonin immunoreactive fibres in all pretectal nuclei, whereas gastrin-releasing peptide immunoreactive fibres were visualized in the nuclei pretectalis superficialis parvicellularis and magnocellularis, pretectalis centralis. pretectalis and pretectalis periventricularis dorsalis; neurokinin A immunoreactive fibres in the nuclei pretectalis superficialis parvicellularis and magnocellularis and pretectalis periventricularis dorsalis; galanin immunoreactive fibres in the nuclei pretectalis superficialis parvicellularis, pretectalis centralis and pretectalis periventricularis dorsalis; and neurotensin immunoreactive fibres in the nucleus pretectalis periventricularis dorsalis. Additionally, immunoreactive cell bodies containing neuropeptide Y were observed in the nuclei pretectalis superficialis parvicellularis and pretectalis periventricularis dorsalis, and serotonin and tyrosine hydroxylase cell bodies were found in the nuclei pretectalis periventricularis dorsalis and ventralis respectively. The presence of the neuroactive substances found in the carp pretectal nuclei suggest that they might be involved in the regulation of certain functions within the visual system.     

Extra-adipocyte leptin release in human obesity and its relation to sympathoadrenal function

The link between the human sympathoadrenalmedullary system and the adipocyte hormone leptin is controversial. We measured total and regional norepinephrine spillover, epinephrine secretion rate, and extra-adipocyte leptin release in 22 lean [body mass index (BMI) < 26] and 20 obese (BMI > 28) normotensive men who underwent arterial and central venous catheterization. Because plasma clearance of leptin is primarily by renal removal, for men at steady state we could estimate whole body leptin release to plasma from renal plasma leptin extraction. Whole body leptin release was 1,950 +/- 643 (means +/- SE) ng/min in obese men and 382 +/- 124 ng/min in lean men (P < 0.05). Total and renal norepinephrine spillover rates correlated directly with whole body leptin secretion rate. Leptin is released from multiple nonadipocyte sites, which we tested by use of simultaneous arteriovenous blood sampling. We found a surprisingly large contribution of brain leptin release to the plasma leptin pool, 529 +/- 175 ng/min (> 40% whole body leptin release), with greater leptin release in obese than in lean men, 935 +/- 321 vs. 160 +/- 59 ng/min (P = 0.045). In parallel with leptin measurements, we also quantified brain serotonin turnover and jugular overflow of neuropeptide Y (NPY). Brain serotonin turnover was higher in obese than in lean men, 227 +/- 112 vs. 21 +/- 14 ng/min (P = 0.019), as was overflow of NPY from the brain, 12.9 +/- 1.4 vs. 5.3 +/- 2.2 ng/min (P = 0.042). These results suggest that leptin is released within the brain and at an increased rate in obese humans, in whom activation of brain serotonergic and NPY mechanisms also exists.     

Evidence for the localization of 5HT1A binding sites on serotonin containing neurons in the raphe dorsalis and raphe centralis nuclei of the rat brain

Precise anatomical distribution of 5HT1 binding sites has been investigated in the nuclei raphe dorsalis, raphe centralis and locus caeruleus of the rat brain. An original pattern of distribution was observed in the raphe nuclei, closely correlated to the already known distribution of 5HT containing elements. This pattern, more pronounced when 5HT1A sites were labelled, completely disappeared after lesioning by 5, 7DHT indicating the presence of this subtype of 5HT1 binding sites on 5HT containing neurons. It is postulated that these 5HT1A sites correspond in these raphe nuclei to 5HT autoreceptors.     

Perturbation of Rat Brain Serotonergic Systems Results in an Inverse Relation Between Substance P and Serotonin Concentrations Measured in Discrete Nuclei

Since substance P (SP) has been demonstrated to coexist with serotonin (5-HT) in the same population of neurons in the descending raphe system, we have studied the possibility of interactions between these neurotransmitters in other brain areas. Brain nuclei were punched from frozen 300-micron slices of rat brain and extracted with 0.1 M HCIO4 or 2 M acetic acid prior to assay, respectively, of 5-HT content by HPLC with electrochemical detection or SP content by specific radioimmunoassay. Ten days after injection of rats with the 5-HT neurotoxin P-chloroamphetamine (PCA, 10 mg/kg, B.W., i.p.) or 3 days after 5-HT synthesis blockade with p-chlorophenylalanine (PCPA, 300 mg/kg, B.W., i.p.), the 5-HT content of all brain nuclei studied was reduced by means of, respectively, 50% and 81%. In PCA-treated animals, the SP content of the periaqueductal grey matter was significantly increased; PCPA treatment caused, in addition, large increases in the SP content of five other brain nuclei. Blockade of 5-HT receptors by methysergide (15 mg/kg for 5 days) did not significantly change 5-HT levels or turnover, but resulted in 50-200% increases in the SP content of 10 of the 28 brain nuclei studied. Significant decreases in the SP content of numerous areas were seen following treatments (pargyline 30 mg/kg, alone or in combination with 5-hydroxytryptophan, 60 mg/kg) that simultaneously increased 5-HT levels. These results illustrate the modulation of distinct SP-containing systems of the rat brain by perturbation of central serotoninergic pathways and indicate a reciprocal relationship between the SP and 5-HT concentrations of numerous brain nuclei, in particular n. striae terminalis, n. raphe dorsalis, n. accumbens, n. septi, substantia grisea centralis, and n. raphes medianus.     

Effects of pentadecapeptide BPC157 on regional serotonin synthesis in the rat brain: alpha-methyl-L-tryptophan autoradiographic measurements

A novel pentadecapeptide, BPC157, was recently reported to have a large spectrum of in vivo activities, from anti-ulcer to central action on the brain dopaminergic system. The mechanisms of these actions are not well understood. In this study, the evaluation of the effects of acute and repeated administration of BPC157 on serotonin (5-HT) synthesis in the rat brain is reported. The alpha-[14C]methyl-L-tryptophan (alpha-MTrp) autoradiographic method was used to measure regional 5-HT synthesis rates. In the first series of experiments, a single dose treatment of BPC157 (10 microg/kg) administered intraperitoneally 40 min before the alpha-MTrp tracer injection significantly reduced the regional rate of 5-HT synthesis in the dorsal thalamus, hippocampus, lateral geniculate body and hypothalamus. 5-HT synthesis rates in the substantia nigra reticulate and medial anterior olfactory nucleus in BPC157 treated rats were significantly higher than in the control rats. No significant change in the synthesis rate was observed in the raphe nuclei. In the second series of experiments, following a 7-day treatment with BPC157 (10 microg/kg; s.c.), a significant reduction in the 5-HT synthesis rate was observed in the dorsal raphe nucleus, and significant increases were observed in the substantia nigra, lateral caudate, accumbens nucleus and superior olive. This data suggests that BPC157, a gut peptide, influences brain 5-HT synthesis in rats, but we cannot determine, from this data, the mechanism of this action.     

Serotonin Synthesis Increased in Terminals Four Days after Reserpine Treatment: An Autoradiographic Study in Rat Brain

The rate of 5-HT synthesis was determined in discrete rat brain regions 4 days after a single dose of reserpine (10 mg/kg) or reserpine carrier (controls), using an autoradiographic method with labelled -methyl-L-tryptophan as a tracer. The results show that the rate of 5-HT synthesis was unchanged in the dorsal and median raphe, significantly decreased in the raphe magnus, and significantly increased in areas rich in serotonergic nerve terminals (i.e., hypothalamus, hippocampus, median geniculate body, parietal and visual cortices). An increase in tryptophan hydroxylase activity could account for the increase in the rate of serotonin synthesis seen in some regions. Since the 5-HT synthesis rate showed regional variability there seems to be a need for regional studies of the effect of drugs on the 5-HT synthesis. In addition, the 5-HT synthesis rate was not significantly different from that in controls in many of the brain regions.     

Localization of serotonin in the hypothalamus and the mesencephalon of the guinea-pig

Summary The distribution of serotonin in the hypothalamus and the mesencephalon of guinea-pigs pretreated with both pargyline and L-tryptophan was investigated immunohistochemically using monoclonal antibodies to 5-HT. 5-HT-positive fibers and varicosities appeared distributed throughout the hypothalamus. Some areas showed a greater density of immunoreactivity: the suprachiasmatic nucleus, the region of the supraoptic crest, the area of the medial forebrain bundle, the ventral part of the nucleus ventromedialis, the median eminence and the ventral part of the mammillary bodies. 5-HT nerve fibers were also scattered in the posterior lobe of the pituitary. An extensive supraependymal plexus of immunoreactive axons was observed in most ventricular regions. No 5-HT positive cell bodies were present in the hypothalamus of the guinea-pig under our experimental conditions, whereas an intense serotonin immunoreactivity was detected in perikarya of the brain stem. 5-HT cell bodies were found predominantly in the raphe region including the nucleus raphe dorsalis and raphe medianus, nucleus interpeduncularis, reticular formation and dorsal area of the medial lemniscus.     

Pharmacological effects of GABA on serotonin metabolism in the rat brain

The pharmacological effects of GABA-related drugs were studied on the serotonin (5-HT) and 5-hydroxyindole-acetic acid (5-HIAA) contents of various regions of the rat brain. These effects were examined in the nuclei raphe dorsalis, magnus and centralis and in structures receiving a dense serotonin innervation such as the habenula complex and subcommissural organ. The GABA agonist, muscimol, increased the 5-HT contents and reduced 5-HIAA levels in structures containing serotoninergic terminals suggesting an inhibitory effect of GABA on the firing of serotoninergic neurons with concomitant reduction of 5-HT utilisation. In contrast, the GABA antagonist, bicuculline, probably stimulated 5-HT turnover since its intraperitoneally administration produced significant increase of 5-HT and/or 5-HIAA levels in the same brain regions. These data are in agreement with a transsynaptic inhibitory control of GABA on serotoninergic neurons. Drugs which inhibit the GABA catabolism such as amino-oxyacetic acid or gamma-vinyl-GABA and which should elevate GABA levels in the synaptic gap were capable of increasing or decreasing the 5-HT and the 5-HIAA levels depending on the experimental conditions. These results suggest that several processes are probably involved in the control of serotoninergic neurons by GABA in the rat brain. Among them, an intracellular effect of GABA on 5-HT metabolism might well occur in cells containing both GABA and 5-HT.     

Distribution of serotonin immunoreactive neurons in the brainstem of the hamster, guinea pig, rabbit, and rat

Immunohistochemical techniques were employed to study the distribution of serotonin (5-HT) immunoreactive neurons in the brainstem of the hamster, guinea pig, rabbit and rat. 5-HT neurons were principally found to be concentrated in the midline raphe nuclei, particularly, the raphe pallidus, raphe obscurus, raphe magnus, raphe median, raphe pontis and raphe dorsalis nuclei. Characteristically, these cell bodies are displayed in bands or wing-like patterns which extend laterally from the raphe into reticular formations. The formations often appear to blend with the catecholamine system. They are particularly evident in the brainstems of the rabbit and hamster which contain wider and more lateral extensions of the serotonergic (5-HT) neurons than those observed in the brainstems of the rat and guinea pig. The widespread distribution of 5-HT immunoreacted cell bodies in the brainstem shows that there are significant prospects of 5-HT in neuronal activities.     

A Quantitative Regional Analysis of Amino Acids Involved in Rat Brain Protein Synthesis by High Performance Liquid Chromatography

A biochemical method is described for the simultaneous quantitative estimation of unidirectional blood-brain amino acid influx and protein biosynthesis in individual structures of the rat brain. The method involved a double labeling experiment started by the administration of [14C]carboxyl-labeled amino acids and terminated 2 min after infusion of 3H-labeled amino acids, each at tracer quantities, the total labeling period being 45 min. Specific radioactivities of 14C- or 3H-labeled phenylalanine, tyrosine, leucine, isoleucine, and valine were determined in plasma and in small brain tissue samples for free amino acids, aminoacyl-tRNAs, and proteins. Amino acids were converted to their corresponding 5-dimethylamino-naphthalenesulfonyl (Dns, dansyl) derivatives and separated on HPLC C18 reversed-phase columns isocratically according to a newly developed optimizing procedure. The order of influx values between the neutral amino acids in relation to each other was Leu greater than Tyr greater than Ile greater than Phe greater than Val in every structure examined. Although aminoacylation of tRNAs was found to proceed to a comparable degree for neutral amino acids in all regions investigated, the specific radioactivity of amino acids attached to tRNAs differed substantially from that in the free amino acid pool, especially for leucine and valine. The results indicate the necessity of aminoacyl-tRNA determinations for tracer incorporation studies in protein synthesis analysis. Relative protein synthesis rates in the halothane-anesthetized rat were determined to be 30 and 67-91 pmol total amino acid incorporation/min/mg tissue for white and gray matter, respectively.     

Formation of serotonin by rat kidneys in vivo

Renal formation of serotonin by decarboxylation of its amino acid precursor L-5-hydroxytryptophan (L-5-HTP) has been demonstrated with renal tissue homogenates and isolated perfused rat kidneys. Our objective in the present study was to determine whether the conversion of L-5-HTP to serotonin was associated with functional changes by kidneys in vivo. Renal clearance studies were conducted in anesthetized, volume-expanded male Sprague-Dawley rats receiving either saline (n = 9) or L-5-HTP (15 and 75 micrograms/min iv, n = 9). No change in mean arterial pressure was measured during infusions of L-5-HTP at either dose, whereas glomerular filtration rate (GFR), as measured by the clearance of inulin, and effective renal plasma flow (CPAH) decreased by 34 +/- 5% (mean +/- SE, P less than 0.001) and 26 +/- 7% (P greater than 0.07), respectively. Urine flow and sodium excretion decreased by 41 +/- 9% (P less than 0.01). Serotonin and 5-HTP were determined in urine and plasma using HPLC. High levels of 5-HTP were present in plasma, but not urine. Urinary serotonin increased in the rats receiving L-5-HTP without concomitant increases in plasma serotonin. More than 20% of the infused L-5-HTP was recovered in the urine as serotonin. The decarboxylase inhibitor carbidopa (20 micrograms/min) markedly reduced urinary serotonin excretion in the rats which received L-5-HTP and reversed the changes in GFR, CPAH, urine flow, and sodium excretion. Infusions of the amino acid precursor of L-5-HTP, L-tryptophan (n = 7), did not alter kidney function or increase plasma or urinary 5-HTP or serotonin levels. These results are consistent with the intrarenal formation of serotonin by renal decarboxylase with attendant alterations in renal hemodynamics and salt and water excretion.     

Substance P-immunoreactive neurons in the brainstem of the cat related to cardiovascular centers

Summary The distribution of substance P-immunoreactivity (SP-IR) in the brainstem and spinal cord of normal and colchicine-pretreated cats was analysed using the peroxidase-antiperoxidase (PAP) technique. Numerous SP-IR fibers are present in the nucleus solitarius, nucleus dorsalis nervi vagi and nucleus spinalis nervi trigemini, various parts of the formatio reticularis, substantia grisea centralis mesencephali, locus coeruleus and nucleus parabrachialis. SP-IR perikarya occur in the substantiae gelatinosa and intermedia of the spinal cord, the nucleus spinalis nervi trigemini-pars caudalis, the nucleus dorsalis nervi vagi, and the nucleus solitarius, as well as in the adjacent formatio reticularis and the medullary nuclei of the raphe. In addition, SP-IR cell bodies are located in the nuclei raphe magnus and incertus, ventral and dorsal to the nucleus tegmentalis dorsalis (Gudden), nucleus raphe dorsalis, substantia grisea centralis mensencephali, locus coeruleus, nucleus parabrachialis and colliculus superior.The results indicate that SP-IR neurons may be involved in the regulation of cardiovascular functions both at the central and peripheral level. A peripheral afferent portion seems to terminate in the nucleus solitarius and an efferent part is postulated to originate from the nucleus dorsalis nervi vagi and from the area of the nuclei retroambiguus, ambiguus and retrofacialis.     

Tissue specific distribution, clearance and vascular effects of endothelin in the pig

Endothelin-like immunoreactivity (-LI) was detected in the kidney, spleen, skeletal muscle, lung and in plasma of the pig. The highest tissue levels were found in the lung (1.5 +/- 0.07 pmol/g) and the lowest in the muscle (0.08 +/- 0.02 pmol/g). I.v. infusion of endothelin (20 pmol/kg/min for 20 min) increased plasma endothelin-LI from 18 +/- 3 to 628 +/- 109 pM and renal, splenic and femoral vascular resistance by 570, 430 and 50%, respectively. There was a close correlation between the increase in plasma endothelin-LI and the vasoconstrictor effects. During the infusion 92, 82 and 76% of arterial endothelin-LI was removed by the kidney, spleen and hindlimb, respectively, whereas there was no clearance over the lung or degradation in plasma. After the infusion, arterial endothelin-LI decreased with a half life of 77 s, while the renal and splenic vasoconstriction persisted for 60 min. Characterization by reversed phase HPLC revealed that endothelin-LI in plasma and tissue co-eluted with synthetic endothelin. It is concluded that endothelin has tissue specific distribution, clearance and vascular effects in the pig.     

The renal actions of oxytocin in the conscious rat

The renal actions of oxytocin were studied in the conscious unrestrained rat infused with 0.077 M saline at a rate of 150 microliters/min. During the control period volume and sodium excretion reached stable equilibria, the rates being equal to those infused. Administration of oxytocin at 200 pmol/min produced plasma oxytocin levels of 26.0 +/- 2.1 pmol/l and caused a significant diuresis and natriuresis. Renal responses could also be seen with a lower dose of 30 pmol/min which produced plasma levels of 5.1 +/- 0.5 pmol/l while a dose of 15 pmol/min which produced no significant increase in the plasma oxytocin had no renal effect. It appears that oxytocin has a natriuretic action in concentrations within the physiological range.