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.     

Change of dopamine, serotonin and opioid neuromediator systems in the brain of rats adapted to prolonged effect of ethanol

AIM OF THE STUDY: To investigate the effect of in vivo short-term ethanol administration (i.p., 1.5 g/kg, 6 h) on binding characteristics of opioid receptor agonists in rat midbrain, as well as the contents of dopamine, serotonin and their precursors and metabolites in midbrain, striatum and hypothalamus of rats after long-term alcohol consumption. The methods of receptor binding assay and high performance liquid chromatography with electrochemical detection were used. The data obtained suggest that the response of neurotransmitter systems to short-term ethanol administration in different regions of rats brain is not identical. Our findings demonstrate that short-term ethanol administration may modulate dopaminergic transmission in the rat hypothalamus and striatum but this effect may be attenuated by down-regulation of OP, in the midbrain after long-term alcohol consumption. Serotonin system in hypothalamus becomes more sensitive to short-term ethanol administration after the long-term ethanol-containing liquid diet in comparison with control rats. Our results suggest that reinforcing properties of ethanol may be partially mediated by mechanisms involving the ethanol-induced disturbing of dopaminergic metabolism in the midbrain and hypothalamus and serotoninergic metabolism in hypothalamus.     

Serotonin metabolism in the brain during sexual motivation and activation of the murine hypothalamo-hypophyseal-testicular system]

Serotonin metabolism was studied in male CBA mice during sexual arousal. It was shown that placement of a receptive female into a cage department separated from a male with a perforated partition, which prevented from the physical contact but allowed a male to see and smell a female, caused an elevation of serotonin metabolism. It was originally shown that 10-min female exposure produced in a male an increase in the level of the main serotonin metabolite 5-hydroxyindoleacetic acid (5-HIAA) in the midbrain and its decrease in the hypothalamus. The catabolism coefficient (5-HIAA/serotonin ratio) also increased in the midbrain and decreased in the hypothalamus, while the serotonin content was unchanged. Longer sexual activation of male rats (for 20 min) resulted in an increase in the content of serotonin and 5-HIAA in the amygdala and olfactory bubs, while in the hippocampus only the level of 5-HIAA increased. Thus, for the first time, two stages were distinguished in male sexual arousal. They were determined according to the response of the pituitary-testicular system and involvement of serotonin in different brain regions.     

Concentration of monoamines in the brain of minks differing in their reaction to man

Content of dopamine in the striatum; of serotonin, 5-hydroxyindolacetic acid and noradrenaline in the hypothalamus, striatum and midbrain was studied in three groups of minks from population of an animal farm, differing by their reaction to humans (cowardly, calm, aggressive). The reaction to humans was estimated by a system of marks at the attempt to catch the mink with a mitten. Aggressive animals had a lowered level of serotonin in the hypothalamus and striatum, a lesser content of serotonin metabolite--5-hydroxyindolacetic acid in the striatum. Minks of different groups did not differ by noradrenaline content, but dopamine level in the striatum of cowardly minks was higher than in calm and aggressive animals. Conclusion is made that polymorphism of behaviour corresponds to polymorphism of the state of monoaminergic systems.     

THE DISTRIBUTION OF TRYPTOPHAN HYDROXYLASE IN CAT BRAIN

Abstract— The distribution of tryptophan hydroxylase in the cat brain was investigated and found to parallel roughly the distribution of serotonin. The most active areas are the caudate nucleus, septal area, anterior perforating substance, hypothalamus, amygdala and various areas of the midbrain.     

Effect of the genotype on the serotonin and 5-hydroxyindoleacetic acid content in different sections of the mouse brain

The levels of serotonin and 5-hydroxyindoleacetic acid contents were estimated in hypothalamus, hyppocampus and midbrain of inbred mice of 12 strains. The levels of serotonin and its metabolite in various parts of brain representing different links of its serotoninergic system were shown to be genetically determined. The correlation analysis revealed that there were two, relatively autonomous genetic systems controlling biosynthesis and catabolism of serotonin in brain.     

Lack of effect of corticotropin releasing factor on hypothalamic dopamine and serotonin synthesis turnover rates in rats

Catecholamine and serotonin neurons in the hypothalamus regulate the secretion of corticotropin releasing factor (CRF). We considered the possibility that CRF might in turn affect the activity of these aminergic neurons. We examined the effect of intracisternal administration of synthetic CRF on the synthesis turnover rates of dopamine and serotonin in the hypothalamus of adult male rats using two different methods to assess turnover. In one study, we measured the accumulation of L-dihydroxyphenylalanine (L-DOPA) or 5-hydroxytryptophan (5-HTP) in mediobasal hypothalamus after L-aromatic amino acid decarboxylase inhibition with m-hydroxybenzylhydrazine 20 min before sacrifice, and in the second study we measured the accumulation of dopamine, norepinephrine, epinephrine and serotonin after monoamine oxidase inhibition with pargyline 20 min before sacrifice. The commercial CRF which we administered intraarterially increased plasma ACTH and corticosterone concentrations. Intracerebral CRF 5 to 20 micrograms 20 min before sacrifice or 20 micrograms 110 min before sacrifice did not alter the m-hydroxybenzylhydrazine-induced accumulation of L-DOPA or 5-HTP when compared with saline vehicle-injected controls. CRF 20 micrograms did not alter basal concentration or pargyline-induced accumulation of the catecholamines or serotonin in whole hypothalamus when compared with saline vehicle-injected controls. Thus, intracisternal administration of CRF did not alter hypothalamic dopamine or serotonin synthesis rates as assessed by two nonsteady state turnover methods. The data suggest that the release of CRF from neurons in hypothalamus does not alter the activity of catecholamine or serotonin neurons in the hypothalamus of normal adult male rats.     

Serotonin metabolism in the rat brain during water deprivation and hydration

Water deprivation (WD) decreased the serotonin (5-HT) level and significantly increased the 5-hydroxyindoleacetic acid (5-HIAA) in the rat midbrain and hypothalamus, the catabolic 5-HIAA/5-HT ratio increasing three-fold. Hydration (H) produced a moderate increase in the 5-HT and 5-HIAA levels in the hypothalamus with no changes in the 5-HIAA/5-HT ratio. Hydration exerted no significant effect upon the 5-HT level and metabolism in the midbrain. A two-fold increase of corticosterone concentration in water deprivation and its decrease in hydration were shown to occur in peripheral blood plasma.     

Brain catecholamine alterations accompanying development of anorexia in rats bearing the Walker 256 carcinoma

In the present study, the relationship between central catecholamine levels and the anorexia induced by Walker 256 carcinoma was investigated. Results indicate that the anorexia is not due to depletion of central catecholamines. Tumor bearing rats sacrificed at night, when spontaneous food intake is selectively depressed, showed increased norepinephrine levels in the hypothalamus, cortex and hippocampus and increased dopamine levels in the striatum, midbrain, and cortex. Increased nighttime hypothalamic norepinephrine levels were positively correlated with the magnitude of spontaneous food intake in tumor rats.     

Expanded ontogeny of neurotransmitters and their metabolites in the brains of fetal and newborn lambs.

To evaluate the ontogeny of the brain neurotransmitters norepinephrine, dopamine, serotonin and the metabolites hydroxyindoleacetic acid and homovanillic acid, we measured these neurotransmitters in 10 brain areas at three ages in fetal sheep and two ages in newborn lambs. Norepinephrine exhibited an increase only at 25-30 days after birth in the midbrain, lateral hypothalamus, dorsal medial hypothalamus and ventral medial hypothalamus. Dopamine concentration was very low and did not change over the ages examined. Homovanillic acid decreased after 125 days in the cerebellum, but this change is probably not biologically meaningful, since there were no statistically significant changes in homovanillic acid in other brain areas. Serotonin increased at 25-30 days after birth in the ventral medial hypothalamus, but changes in other brain areas were not significant. Hydroxyindoleacetic acid reached its greatest concentration at 1-5 days after birth in nine of the ten brain areas examined. Thus we conclude that the serotonin system is undergoing more change in the last third of gestation and first month of extrauterine life than the norepinephrine or dopamine systems.     

Rearrangement of serotonin-immunoreactive fibers in the denervated rat suprachiasmatic nucleus after transplantation of fetal raphe tissue

Summary Pieces of fetal midbrain raphe tissue were transplanted into the third ventricle or the ventral hypothalamic region near the suprachiasmatic nucleus (SCN) of adult host rats that had previously been denervated by treatment with 5,6-dihydroxytryptamine. The ability of grafted serotonin neurons to reinnervate the SCN in the host rats was studied by means of immunohistochemistry 1 and 3 months after transplantation. In both the intraventricular and intraparenchymal transplant experiments, reinnervation by outgrowing serotonin fibers was observed in the hypothalamus of host rats at 1 and 3 months after surgery. At both survival periods, there was no abundant arborization of serotonin fibers in the SCN, while the preoptic and periventricular areas of the host rats displayed a pattern of serotonergic innervation resembling that in normal (untreated) rats. It is suggested that within the SCN the regenerating serotonin fibers may be exposed to an inhibitory environment.     

Effect of low doses of gamma-hydroxybutyric acid on serotonin,noradrenaline, and dopamine concentrations in rat brain areas

The effects of intraperitoneal administration of gamma-hydroxybutyric acid (GHB) on biogenic amine levels in hemispheres, hypothalamus, midbrain, and medulla-pons, and on tryptophan in serum and brain, were studied. One hour after GHB administration (50 and 100 mg/kg) significant increases of dopamine concentration were observed in the hemispheres with both doses and in the hypothalamus with the higher dose, but a significant decrease of noradrenaline in the hypothalamus. No significant changes of serotonin metabolism were observed. These results indicate that low doses of GHB selectively affect the catecholaminergic neuronal activity.     

Effect of lithium oxybutyrate on the serotonin and 5-hydroxyindoleacetic acid content in the brain of rabbits

Single administration of lithium hydroxybutyrate (10 mg/kg) to rabbits decreased serotonin and 5-hydroxyindoleacetic acid (5-HIAA) content in the caudate nucleus. The drug administration for 8 days is accompanied by mediator accumulation in the cortex, caudate nucleus, tonsils, hypothalamus, thalamus, and midbrain with parallel reduction in 5-HIAA level in these structures. 15 days of lithium hydroxybutyrate administration lead to the increase of serotonin and 5-HIAA concentration, while 28 days of administration reduced the content of mediator and its metabolite.     

Change in certain forms of aggressive behavior and the concentration of monoamines in the brain during selection of wild rats for taming

Norway rats have been selected during 20 generations by the absence of aggressive reaction to man (tamed rats). From 7 up to 20th generations of selection, different forms of aggressive behaviour (reaction to glove, intermale, shock-induced aggression and predatory aggression) were studied, and the level of noradrenaline, serotonin and its metabolite 5-hydroxyindoleacetic acid was determined in the brain. In the absence of aggressive reaction to glove in tamed rats, the shock-induced aggression considerably decreased while the predatory aggressiveness (mouse-killing behaviour) and intermale aggressiveness did not change. Beginning from 15-16th generation of selection, a higher level of the 5-hydroxyindoleacetic acid in the hypothalamus was established, in the 20th generation an increased content of serotonin was revealed in the hypothalamus and the midbrain. In some generations of selection an increased level of noradrenaline in the hypothalamus in comparison to wild rats was observed. A conclusion is made that the selection of animals by taming unequally influences different kinds of aggressiveness and is accompanied by inherited consolidated reorganization of the monoamine brain systems.     

Typological characteristics of behavior in strains of rats bred for enhancement and absence of pendulum movements. Association with brain monoamines

Typological characteristics of behavior were studied in rats bred for enhancement (PM+) and absence (PM-) of pendulum movements. Excitement in different test situations was manifest in PM+ rats, whereas passive defensive reactions were characteristic of PM- rats. Increased excitability of PM+ rats was expressed in their greater predisposition to audiogenic epilepsy (83% in PM+ versus 40% in PM- rats). On the contrary, PM- rats were found to be more prone to freezing (61% in PV- versus 11% in PM+). In PM+ rats, noradrenaline and serotonin contents were decreased in hypothalamus (as compared to PM- and control Wistar stain), whereas in PM- rats, serotonin content was increased in striatum, hypothalamus and midbrain as compared to control strains.     

Relationship Between Plasma and Brain Tryptophan in Pigs During Experimental Hepatic Coma Before and After Hernodialysis with Selective Membranes

Experimental acute liver ischemia in pigs induces an increment in plasma free tryptophan with decreased total tryptophan. Brain tryptophan is elevated in all brain areas. A slight, but significant increase of brain serotonin is demonstrated in the striatum only, while 5-HIAA (5-hydroxyindoleacetic acid) is significantly lower in the hypothalamus. Other brain areas do not show significant changes in serotonin and 5-HIAA levels. Neither the high plasma free tryptophan levels, nor the decreased sum of neutral competitive amino acids are consistent with such an elevation of brain tryptophan. Hemodialysis was carried out with two different kinds of membranes: cuprophan (with an efficient removal of molecules up to molecular weight 1300) and AN 69 polyacrylonitrile (efficient removal up to 15,000). Ammonia and aminoacid clearance are similar for both membranes. After AN 69, plasmatic free tryptophan and brain tryptophan are lower than after liver devascularization, but still higher than normal. Serotonin significantly increases in the cortex, midbrain and hypothalamus without concomitant rise of 5-HIAA levels. After cuprophan hemodialysis, plasma total tryptophan is lower than in normal and even comatose animals, whereas free tryptophan is normal. Intracerebral tryptophan is similar to AN 69 dialysed animals, but in the hypothalamus it is similar to nondialysed animals. Brain serotonin levels are not modified. 5-HIAA decreases in the hypothalamus. This finding suggests that middle molecules (which are not cleared out with cuprophan hemodialysis) are involved in the intracerebral transfer of tryptophan and the metabolism of serotonin, mainly in the hypothalamus.     

Effect of long-term pinealectomy on serum LH levels and on cerebral serotonin metabolism in adult male rats

Two months after pinealectomy carried out in adult male rats previously exposed to a long photoperiod (L:D 14:10) during 10 weeks, the weight of seminal vesicles significantly increased in comparison with Sham-operated animals. Nevertheless, the weights of testes and ventral prostate did not change significantly. The serum LH concentration increased significantly by pinealectomy. The levels of serotonin and 5-hydroxiindolacetic acid significantly decreased in the hypothalamus and midbrain after pinealectomy.     

Effect of long-term cold adaptation on the mRNA expression of serotonin 5-HT1A and 5-HT2A receptors

The mRNA expression of serotonin receptors 5-HT1A and 5-HT2A was investigated by the quantitative method RT-PCR in rats adapted to cold (5 weeks at +4 -(+6) degrees C) and in control (5 weeks at +20-22 degrees C). Four brain regions were examined: frontal cortex, hypothalamus, hippocampus, and midbrain. The influence of cold adaptation on the mRNA expression of 5-HT15 receptor was not found to be absent. The mRNA expression of 5-HT2A receptor changed under long-term cold exposure. These changes in different brain regions were various: in hypothalamus, there was an increase of the 5-HT2A receptor mRNA expression; in the cortex, a decrease; in the hippocampus and midbrain, significant changes of the mRNA expression were absent. The findings appear bo te adaptive and, according to their localization in the central nervous system, regulatory. They also suggest involvement of brain serotoninergic system in mechanism of adaptive reorganization of temperature regulation.     

THE EFFECT OF AMINO-OXYACETIC ACID ON BRAIN CATECHOLAMINES

Abstract— —Administration of amino-oxyacetic acid (AOAA) to rats induced a pronounced decrease of midbrain norepinephrine (NE) and adrenal epinephrine (E) after 30 min, at which time the GABA level of midbrain had increased to 117 per cent of the initial value. The concentrations of NE in the pons-medulla and of dopamine (DA) in the cerebral hemispheres were not changed.
Further increases in brain GABA were accompanied by a rise of NE in midbrain and pons-medulla beginning 1 hr after AOAA administration. A rise of cerebral DA level was observed only after 4 hr. Six hours after AOAA administration the levels of both NE and DA in brain were reduced.
From the results of these and other studies, where administration of small amounts of GABA were shown to affect brain NE and serotonin levels, it is suggested that monoamines may be involved in the physiological action of GABA in the brain.     

Monoamines and Their Precursors and Metabolites in the Chicken Brain, Pineal, and Retina: Regional Distribution and Day/Night Variations

Levels of norepinephrine, epinephrine, dopamine, and serotonin (5-HT) and their precursors [tyrosine, L-3,4-dihydroxyphenylalanine, tryptophan, and 5-hydroxytryptophan (5-HTP)] and metabolites [3,4-dihydroxyphenylacetic acid (DOPAC), 3-methoxytyramine (3-MT), homovanillic acid, 3-methoxy-4-hydroxyphenylglycol, and 5-hydroxyindoleacetic acid (5-HIAA)] were determined concurrently in samples of chick retina, pineal gland, and nine selected areas of the brain (optic lobes, thalamus, hypothalamus, optic chiasm, pons/medulla, cerebellum, neostriatum/ectostriatum, hyperstriatum, and basal forebrain) using HPLC coupled with a coulometric electrode array detection system. The norepinephrine level was highest in the pineal gland, but it was also widely distributed throughout the chick brain, with the thalamus and hypothalamus showing substantial levels. The dopamine level was highest in the basal forebrain. The epinephrine level was highest in the hypothalamus. The thalamus and hypothalamus showed the highest levels of 5-HT. Daytime levels (1100 h) of these compounds were compared with levels in chicks killed in the middle of the dark phase (2300 h). In the brain areas examined, no day/night variations in levels of norepinephrine, epinephrine, dopamine, or 5-HT were seen, although significant nocturnal changes in levels of their metabolites were observed in some areas. Pineal levels of 5-HIAA decreased significantly at night. The retina showed significant nocturnal increases in 5-HTP, 5-HT, and 5-HIAA levels. Retinal levels of 3-MT and DOPAC were significantly decreased at night.