Effects of male sex hormones on specific uptake and release of 3H-serotonin in the rat hypothalamus in vitro]

With the use of "isotopic method" a study was made of the main parameters of functional activity of serotoninergic elements of hypothalamus--the specific uptake and release of 5-OT. The animals used were sexually mature rats castrated on the first postnatal day. In sexually mature intact males the specific uptake of 3H-5-OT by serotoninergic structures of the anterior hypothalamus was significantly lower than in females. Castration of animals on the first day of life resulted in the increase of specific 5-OT uptake in sexually mature males up to that observed in females. There were no differences between the sexes in the rate of spontaneous release of 5-OT. However, response to K(+)-depolarization in the anterior hypothalamus of intact males was significantly lower than that in females. In the hypothalamus of males castrated neonatally the amplitude of the response to the effect of the depolarizing agent was increase up to the level observed in females. By the results obtained it is indicated that elimination of the effect of male hormones on the first postnatal day results in the increase of 5-OT uptake and release in the hypothalamus of sexually mature rat males.     

The uptake of 3H-serotonin by neural elements of the rat hypothalamus in ontogeny

Development of serotoninergic system of rat hypothalamus has been studied. The level of its maturity was measured by specific absorption of 3H-serotonin by hypothalamus of fetuses (days 16-20 of intra-uterine development), newborn (9 days after birth) and adult rats. Inhibitors of specific serotonin capture by serotoninergic neural elements (cocaine, fluoxetin and cytalopram) were used in control experiments. Specific uptake of 3H-serotonin by hypothalamus was detected on day 16 of intra-uterine development. It increased twice by day 18 and remained unchanged until birth. No statistically significant increase of 3H-serotonin uptake was detected in newborn and adult animals.     

Serotonin contents in the hypothalamus of adult males, females and males castrated during the neonatal period

The aim of the present work was to study the character of the change in serotonin level in the anterior and medial basal hypothalamus of adult rats after the effect of testicular hormones had been switched off on the first day of postnatal life. It was shown in our work that in males serotonin level was significantly lower than that in females by 67 and 46% in the anterior and medial basal hypothalamus, respectively. Castration of newborn males resulted in a significant increase in serotonin level in both anterior and medial basal hypothalamus-up to the level observed in females. It is supposed that the male sex hormones affect differentiation of serotoninergic system of the brain.     

Radioautographic study of the hypothalamic serotoninergic structures in the perinatal period of the rat

The distribution of 3H-serotonin-binding structures in hypothalamus of 16 and 18 day old fetuses and of 9 day old rats was studied after intraventricular injection of 3H-serotonin. Rare 3H-serotonin-binding little differentiated cells were found predominantly in the intermediate zone of the 3rd ventricle in the retrochiasmatic area wall on the 16th and 18th days of prenatal development. In addition, an aggregate of heavily labeled neurones was observed in the suprachiasmatic area. At the same time 3H-serotonin-binding fibers first appeared, predominantly in the optic chiasma and perichiasmatic area. Radioactively labelled cells, which can be characterized by their morphology as differentiated neurones, were located in the dorsomedial nucleus on the 9th day of postnatal development. The number of serotonin-binding fibers markedly increased but the pattern of their distribution was, on the whole, similar to that in fetuses. The data obtained suggest that the main stages of structural organization of serotoninergic system of hypothalamus in rats are realized during perinatal period.     

Canges in the monoamine content in the cat brain in a unilateral lesion of the cerebral cortex]

A spectrofluorometric study of the changes in serotonin and noradrenalin content was carried out in the cortex of large hemispheres, the hypothalamus and the midbrain on the 5th-6th day after creation of a pathological focus in the area of the occipital portion of the cortex in 12 cats. Diffuse changes in the bioelectrical activity of the brain were revealed on the EEG at this period: there appeared peak-like variations and slow waves of increased amplitude. There was noted a marked decrease in serotonin content in the cortex of the large hemispheres with the prevalance of an effect in the area directly adhering to the focus of affection. A tendency to reduction in serotonin level was revealed in the hypothalamus and the midbrain. The content of noradrenalin in the mentioned structures of the brain showed no significant change. The significance of the serotoninergic structures of the brain in the mechanisms participating in the restoration of the functional condition of the brain after its experimental injury is discussed.     

Inhibition of serotonin release by bombesin-like peptides in rat hypothalamus in vitro

We investigated the activity of bombesin (BN), neuromedin-C (NM-C) and neuromedin-B (NM-B) on serotonin (5-HT) release and reuptake in rat hypothalamus (HYP) in vitro. BN and NM-C but not NM-B (all 1 microM) decreased K+ evoked 3H-5-HT release from superfused HYP slices by 25%. Bacitracin (BCN, 2 micrograms/ml), a nonspecific peptidase inhibitor, reversed the inhibitory effect of BN on K+ evoked 3H-5-HT release. Phosphoramidon (PAN, 10 microM) an endopeptidase 24.11 inhibitor, abolished the inhibitory effect of BN, but not NM-C, on K+ evoked 3H-5-HT release. The peptidyl dipeptidase A inhibitor enalaprilat (ENP, 10 microM), enhanced both BN and NM-C inhibition of 3H-5-HT release. Bestatin (BST, 10 microM) had no effect on BN or NM-C inhibitory activity on 3H-5-HT release. Neither BN, NM-C nor NM-B affected reuptake of 3H-5-HT into HYP synaptosomes alone or in combination with any of the peptidase inhibitors, nor did these peptides alter the ability of fluoxetine to inhibit 3H-5-HT uptake. These data suggest: a) that BN-like peptides may alter neurotransmission in the HYP by acting presynaptically on the 5-HT release mechanism; b) a similarity in the structural requirements for the BN induced inhibition of 5-HT release and BN evoked thermoregulatory disturbances; and c) that peptidases may selectively augment or reduce pharmacologic activity of BN-like peptides upon CNS administration.     

Regulation of release processes in central serotoninergic neurons

Different technical, physiological and biochemical aspects concerning the study of the release of 5-HT are discussed herein. Isotopic methods are the most suitable techniques since these allow the release of 3H-5-HT to be measured after having determined the identity of the labelled compounds formed from 3H-tryptophan by co-chromatography. Under these conditions, the 3H-amine released in the superfusates comes from serotoninergic nerve endings, since tryptophan hydroxylase is exclusively localized in serotoninergic neurons. Moreover, it appears that newly synthesized 5-HT is preferentially released. The release of 5-HT is dependent on neuronal activity, but is not always linked to the synthesis of 5-HT. The increase in the firing rate of serotoninergic cell bodies by a local application of glutamate in the area of the nucleus raphe dorsalis induces a marked increase n the release of 5-HT in the caudate nucleus; an opposite effect is observed after cooling this region. The local depolarization of serotoninergic terminals located in the caudate nucleus increases the release of this amine. This effect is blocked by TTX. LSD reduces the stimulating effect of KCl, thus indicating that the release of 5-HT can be controlled at a presynaptic level. In addition, the release of the amine is dependent on the presence of calcium. Serotoninergic neuronal activity can be controlled at the preterminal or at the cell body levels by the activity of other neuronal systems. The effects of the release of dopamine from dendrites, and that of GABA in the substantia nigra are reported herein. Furthermore, changes in the activity of the dopaminergic, gabaergic and serotoninergic systems innervating the nucleus raphe dorsalis modulate the release of 5-HT, measured both in the caudate nucleus and in the nucleus raphe magnus. Finally, it has been reported that the release of 5-HT can be estimated in the raphe nuclei dorsalis and magnus. It has been shown that the amounts of 3H-5-HT continuously formed from 3H-TRP and released in the nucleus raphe dorsalis are much greater than those estimated in the caudate nucleus or in the substantia nigra. Although the quantities of endogenous 5-HT measured in the nucleus raphe dorsalis are the highest in the brain, this structure presents only a few serotoninergic nerve endings. This raises the question of the origin of the 5-HT released in serotoninergic nuclei. A possible dendritic release of 5-HT is discussed.     

Interactions between serotoninergic and aminoacidergic pathways in the control of PRL secretion in prepubertal male rats

Prolactin secretion is controlled by the hypothalamus through different neurotransmitters which interact with multiple receptor subtypes. The discovery of different families of receptors for serotonin (5-HT₁-5-HT₇) and excitatory aminoacids (NMDA,KA,AMPA and metabotropic receptors) ilustrates the complexity of this regulation. Moreover, in the rat the role of different neurotransmitters changes during pubertal development. Present experiments were carried out to analyse the interactions between AMPA and serotoninergic receptors in the control of prolactin secretion in prepubertal male rats. For this purpose, 16 and 23-day old male rats were treated with 5-hydroxytryptophan (5-HTP, precursor of serotonin synthesis) plus fluoxetine (blocker of serotonin reuptake), 8-OH-DPAT (agonist of 5-HT_1A receptors), DOI and α-Me-5-HT (agonists of 5-HT₂ receptors), 1-phenylbiguanide (agonist of 5-HT₃ receptors) alone or in combination with AMPA (agonist of AMPA receptors). The results obtained indicate that: (a) activation of 5-HT_1A receptors stimulated PRL secretion on day 16 and inhibited it on day 23; activation of 5-HT₂ receptors stimulated PRL secretion on days 16 and 23, whereas activation of 5-HT₃ receptors inhibited PRL release only on day 23; (b) activation of AMPA receptors inhibited PRL secretion on day 23, but not on day 16 and (c) a cross-talk is apparent between 5-HT₂ and AMPA receptors in the regulation of PRL secretion, the stimulatory effect of DOI being blocked by AMPA.     

Serotonin excess in the brain modifies the effect of beta-endorphin and dalargin on the processes of learning and memory]

In experiments on outbred female rats the influence was studied and compared of two representatives of endogenous opioids beta-endorphine and the analogue of leu-enkephalin dalargin on the processes of learning and memory in normal conditions and at the change of functional state of serotoninergic system of the brain. Parallel, the influence was studied of neuropeptides on the content of serotonin (5-OT) and its metabolite--5-oxyindolacetic acid in various areas of the brain in control and at the 5-OT redundancy. Conditioned reflexes (CRs) were used of two-way avoidance and defensive CRs. It has been established that administration of neuropeptides to intact animals influences in different directions the elaboration of the CR of two-way avoidance and maze defensive CR, but also worsens their preservation. Redundancy of 5-OT in the brain modifies behavioural effects of beta-endorphine and dalargin manifested in appearance of new effect and elimination and change of direction of the effects observed in the intact animals. Redundancy of 5-OT in the brain changes metabolic effects of beta-endorphine and particularly of dalargin. The obtained data testify to a dependence of the effects of beta-endorphine and dalargin on the functional state of 5-OT-ergic system.     

Carrier-mediated and carrier-independent release of serotonin from isolated central nerve endings

The release of serotonin elicited by Ca²⁺-dependent stimuli (depolarization, ionophore A23187) from rat brain synaptosomes previously labelled with the radioactive indoleamine was not affected by the presence of the serotonin carrier blocker chlorimipramine. In contrast, other releasing stimuli, such as superfusion with a Na⁺-free medium or exposure to various releasing drugs (fenfluramine, p-chloroamphetamine, tryptamine and mianserin, both in normal Krebs-Ringer medium and in low-Na⁺ medium), evoked efflux of serotonin from nerve endings which was prevented by chlorimipramine. The results indicate that serotonin can be released from central nerve endings by two mechanisms, differentially affected by the blockade of the membrane carrier system: the characteristics of the Ca²⁺-dependent release are compatible with an exocytotic mechanism, whereas the release induced by lack of Na⁺ or by phenylethylamines and tryptamine appears to occur by outward transport mediated by the membrane carrier.     

Diurnal Variation in the Function of Serotonin Terminals in the Rat Hypothalamus

The high-affinity binding of [3H]imipramine is associated with the serotonin (5-hydroxytryptamine; 5-HT) transporter in the brain and in platelets. In the rat hypothalamus it has been reported that the density of these sites is increased in the dark period of the day, and this could result in an alteration in the release of 5-HT. The electrically evoked release of [3H]5-HT was thus studied in preloaded hypothalamic slices prepared from rats kept under 12:12 h light/dark or dark/light schedules. The fractional release of [3H]5-HT evoked by electrical stimulation, but not by the 5-HT releasing agent fenfluramine, was significantly decreased during the dark period when compared with the light period. The effects of the 5-HT reuptake blocker citalopram, of the two 5-HT autoreceptor agonists 5-methoxytryptamine and RU 24969, and of the 5-HT autoreceptor antagonist methiothepin on the release of [3H]5-HT were the same in both groups of rats. In conclusion, the release of [3H]5-HT from prelabelled rat hypothalamic slices is decreased during the dark period of the day. This modification is not reflected by changes in the effects of citalopram, an inhibitor of 5-HT reuptake, to modify the overflow of [3H]5-HT. The sensitivity and efficacy of agonists of the 5-HT autoreceptor are the same during the light and dark periods of the day.     

Influence of leptin on neurotransmitter overflow from the rat brain in vitro.

The 16-kDa polypeptide hormone, leptin along with the neurotransmitters noradrenaline and serotonin (5-HT) have important physiological roles in the regulation of a number of neuroendocrine actions particularly feeding. Leptin receptor mRNA and immunoreactivity has been reported in various brain regions, while recent studies suggest that leptin is released from the human brain. This study investigated the interactions between leptinergic and neurotransmitter systems of the rat brain in vitro. Techniques were established to simultaneously monitor the release of endogenous noradrenaline and its metabolite 3,4 dihydroxyphenylglycol (DHPG), and 5-HT and its metabolite 5-hydroxyindoleacetic acid (5-HIAA) from the rat brain. The neuromodulatory action of leptin (0.2 and 3 nM) on the overflow of noradrenaline and DHPG from the medulla and hypothalamus was examined. The effect of leptin on 5-HT and 5-HIAA overflow from the hypothalamus was also investigated. Administration of 0.2 and 3 nM leptin significantly increased medullary noradrenaline overflow to 172% and 174% of basal levels, respectively. Leptin had no significant effect on hypothalamic noradrenaline overflow, while leptin perfusion induced a significant increase in 5-HIAA overflow from the hypothalamus. This study lends support to the notion of a complex interaction of the leptinergic and brain neurotransmitters involved in the control of feeding and energy metabolism.     

Formation of serotonin- and GABA-ergic mechanisms of synaptic transmission in the cat neocortex during early ontogenesis

In acute experiment on 5-20 days kittens, the reactions were studied of neurones in the cortical somatosensory zone to stimulation of the dorsal raphe nucleus (DRN) and application of serotonin, ethanolamine-O-sulphate and bicucullin. The identity is established of the effect of DRN stimulation and serotonin application eliciting inhibition of the background activity and appearance of inhibitory phases in response to sensory stimulation, beginning from the 10-12th day after birth. A suggestion is made about serotoninergic regulation of GABA-ergic interneurones' in young animals. The dynamics of GABA-ergic brain system formation has been studied. Specific sensitivity of neocortical neurones to GABA increased to the end of the second week of life--the period when modulating serotoninergic influences appear.     

The brain is one of the sources of L-dihydroxyphenylalanine in systemic circulation in fetuses and neonatal rats

The performed study was aimed at checking our hypothesis that the developing brain is a source of L-dihydroxyphenylalanine (L-DOPA), a precursor of dopamine in the total circulation system. At the initial stage, the L-DOPA concentration in peripheral blood was analyzed at the 18th and 21st embryonal days (E18 and E21), at the 3rd postnatal day (P3), and at the prepubertal period (P30). The highest L-DOPA concentration was revealed at the perinatal period, while decreased 4–12 times for the first month of life. The subsequent analysis of dynamics of the total blood L-DOPA content showed that maintenance of the constant L-DOPA concentration at the perinatal period on the background of a gradual increase of the blood serum volume is due to a rise of its secretion. At the postnatal period (P3–P30), the blood L-DOPA content increased twice in males, whereas it decreased to the same extent in females. Analysis of the L-DOPA concentration in two most important brain centers, hypothalamus and mesencephalon-rhombencephalon, showed its twofold decrease in hypothalamus during E18–E21 of development; then it slightly increased from E21 to P3 and fell 4–5 times by P30. In mesencephalon-rhombencephalon, the L-DOPA concentration was slightly reduced from E18 to E21 (only in females), while on P3 it returned to the E18 level and decreased 7–9 times by P30. The direct proof for the L-DOPA release from the developing brain into the systemic circulation follows from comparison of the blood L-DOPA concentration in shamoperated and encephalectomized rat fetuses after mechanical destruction of neurons of the two abovementioned most important dopaminergic centers. Thus, encephalectomy led to a twofold reduction of the blood L-DOPA concentration (statistically significant differences were observed only in females). Thus, the work presents evidence that the developing brain is one of L-DOPA sources in the total circulation system in rats during prenatal and early postnatal periods of ontogenesis.     

Morphological and functional studies on the serotoninergic innervation of the inferior olive

The inferior olive of the cat has, with fluorescence histochemistry, been shown to receive a rich serotoninergic innervation. The distribution of this innervation agrees with the topography of spinal afferent termination as well as the olivo-cerebellar climbing fiber projection. This indicates that different olivary compartments are under different serotoninergic influence. The serotoninergic innervation of the dorsal accessory nucleus (DAO) of the inferior olive of the rat has been identified with electron microscopic radioautography after labelling with 3H-serotonin. The serotoninergic varicosities contain microcanaliculi, tubular-vesicular organelles and large granular vesicles. Few of the serotoninergic varicosities engage in typical synaptic junctions. However, non-junctional varicosities often display other ultrastructural indications of polarity and directed transmitted release. Electrophysiological results indicate that the harmaline-induced tremor, as well as the tremor component of the "serotonin-syndrome", depends on the serotoninergic innervation of the inferior olive. Thus, the sensitivity of different olivary compartments to the induction of rhythmic, synchronous activity by harmaline parallels the distribution of serotoninergic innervation. Neurotoxic destruction of the serotoninergic innervation leads to decreased sensitivity to harmaline. Further, the serotonin receptor agonist 5-methoxy-N,N-dimethyltryptamine, as well as monoamine oxidase inhibition + L-tryptophan loading, leads to rhythmic mass climbing fiber activity in the cerebellum and whole body tremor. A neuromodulatory effect of serotonin on the olivary action potential mechanisms is proposed.     

Immunocytochemical and autoradiographic research on the growth of serotoninergic fibers to the cerebral ventricles in the perinatal period in rats

Anatomical relationships between serotoninergic (5-HT) fibers and cerebral ventricles were studied in rats from the 16th fetal day until the 9th postnatal day with immunocytochemistry and radioautography. In the latter case, 5-HT neuronal elements were detected according to their specific uptake of intraventricularly injected 3H-5-HT. On the 16th fetal day, occasional 5-HT fibers first spread from the main place of their origin in the raphe nuclei to the dorsocaudal portion of the 3rd ventricle and aqueduct. Two days later, a more extensive network of 5-HT fibers appeared around the dorsal portion of the 3rd ventricle, whereas fibers only rarely penetrated fibers became noticeable in the lateral and 3rd ventricles. The functional significance of hypothalamic and ventricular 5-HT is discussed from the standpoint of its being either a modulator of growth and differentiation of the developing brain, or a factor involved in some specific neuroendocrine functions.     

Serotonin and neurotensin-containing cells in the mucosa of the alimentary tract

Localization of serotonin (5-OT)- and neurotensin (NT)-containing cells in the tunica mucosa of the gastric antral part and the duodenum of the rat and chick has been revealed by means of the immunofluorescent method and the method with application of the peroxidase-antiperoxidase complex. For immune-histochemical revealing of biologically active substances in endocrine cells Sovient antisera are used for the first time. Experiments are performed on injection of antiserotonin serum of various dosage into the rat blood bed. The reaction of serotonin-containing cells of the gastric antral part tunical mucosa and those of the duodenum to changes in serotonin concentration in blood serum is demonstrated.     

Neurotensin perfused in hypothalamus of sated or fasted rat: HPLC analysis of release of DA, NE and 5-HT and their metabolites

This investigation was undertaken in the unrestrained rat to determine the localized effect of neurotensin (NT) on the profile of release and turnover of norepinephrine (NE), dopamine (DA) and serotonin (5-HT) within the hypothalamus. Following stereotaxic implantation of a permanent guide tube, artificial CSF was perfused in the hypothalamus of the freely moving animal by means of push-pull cannulae at a rate of 20 μl/min and for an interval of 5.0 min. After three 5.0 min control samples were collected, NT in a concentration of 0.1 μg/μl was perfused followed by additional CSF controls. Assay by HPLC-EC of each perfusate showed that when the rat was sated, NT evoked a significant increase in the release of DA and DOPAC from the hypothalamus as well as augmented NE turnover, as reflected by a significant efflux in MHPG. However, when the rat was fasted for 22 hr, the perfusion of NT reduced DA and DOPAC concentrations in the diencephalic perfusate significantly as well as levels of both MHPG and VMA. Under both sated and fasted conditions, NT failed to produce notable changes in the release of 5-HT or its metabolism to 5-HIAA. These findings thus reveal a functional interaction between NT and both of the catecholamine neurotransmitters within hypothalamic neurons, which is clearly dependent upon the nutritional status of the animal.     

Simultaneous response of myocardial contractility and a major proteolytic process to beta-adrenergic-receptor occupancy in the Langendorff isolated perfused rat heart.

The Langendorff isolated rat heart was adapted to the study of minute-to-minute percentage changes in bulk protein degradation by using non-recirculating perfusion. Hearts were perfused at 8 ml/min at 35 degrees C with Krebs-Henseleit buffer containing 11 mM-glucose, and only hearts with regular ventricular rhythm were employed. Proteins were labelled by infusion of [3H]leucine for 0.5 h in vitro. A complete amino acid mixture was then added at 3 times normal rat extracellular concentrations. After labelling, the re-incorporation of [3H]leucine was competitively inhibited by addition of either 4 mM-leucine or 20 microM-cycloheximide. The residual unincorporated radioactivity and the preferentially labelled rapid-turnover proteins were eliminated during a 3 h preliminary perfusion period. The basal rate of release of [3H]leucine and percentage changes were then determined at 1 min intervals, by using each heart as its own control. Leucine metabolism was inconsequential to results. Exchange of intracellular leucine pools with extracellular leucine and subsequent release in effluent perfusate was 95% complete within approx. 2 min. The basal rate of protein degradation was unchanged by electrical stimulation of the heart rate to 360 beats/min or cessation of contractile activity by membrane depolarization under 25 mM-KCl. Infusion of the beta-agonist isoprenaline at 5-500 nM caused a graded inhibition of myocardial protein degradation within 5-6 min, with a maximum inhibition of 30%. This inhibition was sustained for at least 1 h of drug administration and was reversed within 4-6 min of cessation of isoprenaline or simultaneous infusion of 1 microM of the beta-receptor antagonist propranolol. Minute-to-minute adrenergic proteolytic control was a simultaneous co-variable with beta-receptor-mediated inotropic changes in right-intraventricular systolic pressure. Stoppage of the heart in asystole by the Ca2+-channel blocker nifedipine (0.7 microM) delayed the onset, but did not cause sustained reversal, of adrenergic-inhibited degradation, indicating the absence of a direct obligatory mechanistic linkage between the events of the contraction-relaxation cycle and protein degradation in this preparation.     

Dose-dependent dual effect of corticosterone on cerebral 5-HT metabolism

The action of 1.0 and 10.0 mg/kg (i.p.) of corticosterone on serotonin (5-HT) and 5-hydroxyindoleacetic acid (5-HIAA) contents and on serotonin turnover, measured by an MAO-inhibitor method, was studied at 30 and 120 min after administration. A 1.0 mg/kg dose of corticosterone increased the serotonin content and turnover in the hypothalamus and mesencephalon 30 min after administration; however, it was ineffective on dorsal hippocampus and frontal and parietal cortex. 5-HIAA content did not change significantly in any of the brain areas studied. A 10.0 mg/kg dose of corticosterone decreased the serotonin content and turnover in the hypothalamus and mesencephalon; it was ineffective in other brain areas investigated. 5-HIAA content significantly decreased in the hypothalamus while it increased in the mesencephalon and dorsal hippocampus. In the parietal and frontal cortex, 5-HIAA content did not change following administration of 10.0 mg/kg of corticosterone. At 120 min after corticosterone administration, neither 5-HT content and turnover nor 5-HIAA content showed any change in the brain areas investigated. The results suggest that corticosteroids might change the activity of the brain serotoninergic system in a dose- and time-dependent manner, and in this way the serotoninergic system might play an important role in mediation of the corticosteroid effect exerted on brain function.