Cyclic adenosine-3',5'-monophosphate content in the limbic system structures of the rat brain on the administration of corticosteroids

The effect of hydrocortisone and DOCA on the cAMP content in the hypothalamus, hippocampus and striate body of the rat brain was investigated. Single (determined after 1 and 24 hours) and repeated (7 days) hydrocortison administration in a dose of 5 mg/100 g body weight was accompanied by an increase in the cAMP concentration in the brain structures under study. Single administration of DOCA in a dose of 0.5 mg/100 g body weight did not produce any changes in the cAMP level in the structures of the rat brain limbic system; however, the dose of 2.5 mg raised the cAMP level. Prolonged administration of the hormone in the above doses dod not change the cAMP level in the brain structures. Only the hippocampus showed a 210% increase in the cAMP level during DOCA administration in a dose of 0.5 mg.     

Incorporation of methionine-35S into the structure of the brain at different pituitary-adrenal system hormone levels

The rate of 35S-methionine incorporation into the anterior and posterior hypothalamus, tonsil and hippocamp was studied in experiments on intact, adrenalectomized, and hypophysectomized rats as well as in those exposed to ACTH or dexamethasone. A conclusion is drawn that ACTH and glucocorticoids exert a dissimilar and non-equivalent effect on the brain structures responsible for the activity displayed by the hypophyseal-adrenal system.     

Changes in the activity of enzymes of renin-angiotensin and kinin systems in the rat brain after adrenalectomy and administration of hydrocortisone

It is shown that the activity of enzymes participating in renin-angiotensin and brain kinin systems' metabolism depends on functional state of hypothalamo-pituitary-adrenocortical system. Under experimental hypocorticism the activity of angiotensin-converting enzyme and kininase I in the hypothalamus, hippocamp, corpus striatum and rat pituitary decreases; the renin-like enzyme activity decreases in the corpus striatum but increases in the hypothalamus and hippocamp. After hydrocortisone administration to adrenalectomized rats the angiotensin-converting enzyme activity of the hippocamp and pituitary is shown to be normalized as well as renin-like enzyme and kininase I of the hippocamp and corpus striatum. The activity of the studied enzymes in the hypothalamus decreases in this case.     

Effect of antihypoxic agents on the cyclic nucleotide content in different brain structures in normo-oxia and hypoxia

A study was made of the effects of isothiobarbamine and guthimine (10 and 50 mg/kg, respectively) on the content of cAMP and cGMP in the brain cortex (BC) and hippocamp under normal conditions and hypoxia. Isothiobarbamine did not change the content of both cyclic nucleotides under normoxia, whereas under hypoxia it reduced the level of the cyclic nucleotides in the BC and raised it in the hippocamp. Guthimine increased their content in the BC and did not change it in the hippocamp under normoxia, whereas under hypoxia it increased the cAMP content in the hippocamp and did not change it in the BC. The cGMP content descended in both the structures under study.     

Analysis of the level of cyclic adenosine-3',5'-monophosphate in structures of the 'informational' and 'motivational' system of the rat brain during active conditioning

The content of cyclic adenosine-3',5'-monophosphate (cAMP) was studied in structures of the "motivational" and "infromational" systems of rat brain after the active avoidance conditioning procedure in rats. Three groups of animals were examined: naive rats, trained (conditioned) rats, and group of the active control presented with uncombined conditioned (light) and unconditioned (electric footshock) stimuli. The content of cAMP was determined in the frontal cortex, hippocampus, amygdala, and hypothalamus of both hemispheres immediately after the retrieval of conditioned reaction one day after conditioning. A significant increase in cAMP level was bilaterally observed in the hypothalamus in the group of active control, and in both hippocampi and the right frontal cortex in the conditioned animals. Positive correlations between the cAMP levels in symmetrical regions of the frontal cortex, amygdala, and hypothalamus were revealed in all the examined groups. Additionally, intra- and interhemispheric correlations were found in the active control and conditioned rats. Patterns of correlation were specific for each of these groups. The observed phenomenon is discussed in term of involvement of "informational" and "motivational" brain structures in the mechanisms of adaptive behavior.     

The brain catecholamines during domestication of the silver fox Vulpes fulvus

Studies have been made on the content of catecholamines (noradrenaline and dopamine) as well as metabolites of dopamine (3,4-dihydroxyphenylacetic and homovanillic acids) in the brain structures of silver foxes which differ in their handling reactions. The level of noradrenaline was found to be significantly higher in the anterior hypothalamus of domesticated animals; no differences in noradrenaline content were found in the frontal cortex, hippocamp, posterior hypothalamus and midbrain in animals from aggressive and domesticated groups. Dopamine content was higher in the tuberculum olfactorium of domesticated animals, being lower in the striatum and n. accumbens. Metabolite level remained unaffected which is presumably due to changes in dopamine synthesis in the investigated structures. It was concluded that domestication of animals favours the specimens with an altered state of catecholaminergic system of the brain.     

Enkephalin and cyclic nucleotide content in the brain structures of rats at different stages of the formation and development of alcoholic dependence

Rats with increased alcohol motivation have been found to have a rise in enkephalin levels in limbic cortex and a decrease in met-enkephalin levels in the brain basal ganglia. Reduction of met-enkephalin to leu-enkephalin ratio in basal ganglia, limbic cortex and hypothalamus may serve as an index of increased inclination to ethanol in these animals. Alcohol dependence is characterized by reduced cAMP content in the majority of brain structures studied, sharply decreased met-enkephalin levels in limbic cortex and hypothalamus, and diminished cAMP and cGMP content in hypothalamus. In the third stage of experimental alcoholism the partial normalization of met-enkephalin and cAMP levels is observed in brain structures, with cGMP content increased in hypothalamus and considerably reduced in basal ganglia.     

Changes in glucocorticoid receptors in different regions of brain of immature and mature male rats

Specific cytosolic binding for synthetic glucocorticoid dexamethasone was studied in several brain regions (hypothalamus, hippocampus, caudate nucleus, cerebellum, cerebral cortex) of immature (3-week) and mature (26-week) male rats, intact and adrenalectomized. A significant regional difference was observed in the concentration of in vitro [3H] dexamethasone binding in the brain of adrenalectomized rats at both ages, with the highest levels in the hippocampus. A marked decrease in specific binding was observed in all brain regions of adrenalectomized mature rats as compared to immature. The dexamethasone binding was significantly lower in all brain regions of normal intact animals as compared to adrenalectomized rats in both ages.     

Modification of noradrenergic hypothalamic system in rat injected with phosphatidylserine liposomes.

Intravenous injection of phosphatidylserine liposomes (5–50 mg/kg) increases the turnover rate of norepinephrine in rat hypothalamus but not the turnover rates of dopamine or norepinephrine in striatum and cerebral cortex respectively. The hypothalamic effect is paralled by an increase in the affinity of Tyrosine hydroxylase for its synthetic pteridine cofactor and by an increase of cAMP content. The phosphatidylserine induced cAMP increase is prevented by reserpine and propranolol but not by phentolamine. Phosphatidylserine displays its effect also in adrenalectomized rats. The results suggest that phosphatidylserine controls hypothalamic norepinephrine function at presynaptic sites.     

Adrenalectomy of Rats Results in Hypomyelination of the Central Nervous System

The effect of adrenalectomy on CNS myelin accumulation was investigated to determine whether glucocorticoids play a role in regulating myelination. When 14-day-old rats were adrenalectomized and sacrificed 7-8 days later, the amount of bulk-isolated myelin in whole brain, as expressed per gram wet weight of brain or per milligram DNA-phosphate, was reduced to about 75% that of sham-operated controls. Both brain weight and DNA content were unchanged by adrenalectomy. Examination of individual brain regions also revealed decreased amounts of myelin in adrenalectomized animals. Brain glycerol 3-phosphate dehydrogenase specific activity was reduced in adrenalectomized animals to 40-60% that of controls, and serum corticosterone levels were less than 0.6% of control levels. The amount of cerebral myelin in animals adrenalectomized on day 21 and sacrificed 9 days later was not significantly reduced. This suggests a possible role of glucocorticoids during the early period of rapid myelination.     

The effect of altered 5-hydroxytryptamine levels on beta-endorphin content in rat brain

The purpose of the present study was to examine the effect of altering the concentration of 5-hydroxytryptamine (5-HT) on beta-endorphin (beta-Ep) content in the hypothalamus, thalamus, and periaqueductal gray (PAG)-rostral pons regions of the rat brain. The selective 5-HT reuptake inhibitor, fluoxetine (10 mg/kg), significantly lowered beta-Ep content in the hypothalamus and the PAG. Parachlorophenylalanine, which inhibits 5-HT synthesis, significantly elevated beta-Ep in all brain parts studied. Intracisternal injections of the neurotoxin, 5',7'-dihydroxytryptamine, with desmethylimipramine pretreatment, significantly increased beta-Ep content in the hypothalamus and the PAG. In adrenalectomized rats, fluoxetine significantly decreased beta-Ep levels in the hypothalamus and increased the levels in the PAG. The results indicate that 5-HT may modulate the levels of brain beta-Ep.     

Effects of neuropeptide Y on behavior and noradrenaline level in the brain

The administration of neuropeptide Y in lower doses (1 and 100 ng/rat) into the lateral ventricle of the brain gave rise to the inhibition of locomotor activity, weakening of the orienting-exploratory behaviour, increase in the period of rest in animals. Feeding and drinking behaviour after the administration of neuropeptide was not observed. Alterations of behaviour in rats were followed by a dose-depended increase in noradrenaline in hypothalamus. No changes were observed in the content of noradrenaline in the frontal cortex and septum. Some variations in the level of noradrenaline were found in amygdala and hippocamp. It may be assumed that behavioural effects, aroused by the central administration of neuropeptide Y, is connected with the activation of catecholaminergic systems of hypothalamus.     

The effect of physiological doses of thyroxine on the level of cyclic adenosine-3',5'-monophosphate in pituitary and anterior hypothalamus of male rats of different age

The levels of cAMP in the pituitary and anterior hypothalamus were determined by competitive binding to protein in male rats aged 2--2.5, 6--8 and 14--18 months. The lowest level of cAMP both in the pituitary and anterior hypothalamus (1.05 +/- 0.17 and 0.85 +/- 0.23 pM) (per mg wet weight, respectively) was found in 6--8 month-old rats. Administration of T4 (2 micrograms/100 g body weight, for 8 days) was followed by a decrease in cAMP level in the pituitary of 14--18 month-old animals, which was not the case with younger rats. The obtained results agree with the earlier observation that the threshold to homeostatic suppression in the hypothalamus-pituitary-thyroid system of rats decreases with aging. It is suggested that cAMP system contributes to the mechanism of changes in hypothalamic threshold and its pharmacological correction.     

The behavioral and neuromorphological characteristics of rats with spontaneous hypertension

Rats with spontaneous hypertension (strain SHR) reveal retarded somatic growth at early stages of ontogenesis. However, in further postnatal life, after transition to self-feeding, these animals exhibit larger body mass. Significant correlation was found between the arterial pressure and body mass. Some peculiarities in the behaviour of rats from the strain SHR were found already at early stages of ontogenesis. In 2-month animals, the brain exhibits some unusual features: lateral ventricles are enlarged, the corpus callosum is thinner, the volume of the pyramids in the dorsal hippocamp (field CA3) is less than in normal rats, the structure of the lateral hypothalamus being also different. It is suggested that unusual behaviour of hypertensive strain is due to the observed structural differences, as well as to changes in noradrenergic system of the brain.     

Effect of substance P on the reproduction of memory engrams and on the amino acid composition of brain structures in rats with experimental neurosis

Formation of experimental neurosis in rats was accompanied in 64% of animals by development of amnesia of conditioned reaction of passive avoidance. Disturbance of mnestic processes was manifested by a change in free amino acids pool including the acids with neurotransmitter properties (GABA, glutamate, glycine). An increase of GABA and glycine content was found in the frontal cortex and an increase of glutamate and GABA--in the hippocampus and striate body. Substance P (125 mkg/kg) administered intraperitoneally against the background of a developed neurosis, produced in 80% of cases an antiamnestic action, accompanied by a statistically significant decrease of GABA content in the frontal cortex, hippocampus and midbrain, and an increase of glutamate in the midbrain. The level of taurine decreased in the frontal cortex, hippocampus and striate body, and increased in the midbrain. Threonine content increased in the striate body and midbrain; there was an increase of taurine, serine and glycine in the midbrain and of glycine in the striate body.     

Influence of glucocorticoids on the secretion of pancreatic juice in the rat

The influence of adrenalectomy and hydrocortisone treatment on the exocrine pancreatic secretion has been studied in anaesthetized rats. In the adrenalectomized animals Na+ administered in the saline solution provided for drinking was able to maintain standard sodium levels in serum. In these animals an increase of Na+ secretion in pancreatic juice was observed. Furthermore, the osmotic effect created by the increase in Na+ would account for the increase in pancreatic flow. In these adrenalectomized rats, an increase in K+ output is observed, which can be explained by the high K+ concentrations in serum. Likewise adrenalectomy decreased pancreatic enzyme secretion and produced a loss in weight of the organ that is accounted for by a lack of glucocorticoids. Hydrocortisone administration did not affect neither the secretion nor the weight of the pancreas of the control rats but the hormone proved to be effective in adrenalectomized rats producing a pancreatic secretion close to normal, balancing the secretory rate of water, Na+ and K+, completely restoring total protein secretion and the weight of the pancreas but amylase secretion in part only. It is therefore concluded that the weight of the pancreas and its exocrine secretion are clearly influenced by adrenalectomy and by substitution therapy with hydrocortisone. The administration of this hormone (25 mg.kg-1.day-1 along 6 days) did not affect intact animals.     

Gamma-glutamyltransferase activity in the developing brain of the rat and the pika Ochotona pusilla

The activity of gamma-glutamyl transferase (GGTF, EC 2.3.2.2) has been investigated in different brain structures (hemispheres, cerebellum, hippocamp, brain stem) of newborn, 3-8-, 15-, 21-30-day and adult rats and piping hare. In both animals, the activity of this enzyme in all the structures investigated increases during ontogenesis. Interspecific differences were found in the increase of the enzymic activity in different brain structures during ontogenesis as well as in the level of the activity in different structures in mature animals.     

Electrophysiologic study of hippocampo-hypothalamic connections in rabbits

Using the evoked potentials (EP) studies have been made on functional connections of different fields (CA1, CA3) of the dorsal hippocamp with phylogenetically different parts of the hypothalamus in rabbits. It was shown that during stimulation of both the field CA1 and the field CA3 of the hippocamp, the EP are widely present in nuclear structures of the posterior hypothalamus (supramammilary area, the posterior hypothalamic area, mammilary bodies). In the anterior hypothalamus (area preoptic medialis), the EP were recorded only during stimulation of the field CA1 in the dorsal hippocamp.     

Cyclic nucleotides in the rat brain in the dynamics of hypothalamic self-stimulation

The content of cyclic nucleotides was measured in the brain structures of rats performing hypothalamic self-stimulation. Changes of the cAMP content were shown to possess a specific pattern corresponding to the features of self-stimulation. An increasing self-stimulation frequency (SSF) was followed by the maximum increase in the above index in the sensorimotor cortex; a stable SSF was accompanied by activation of the cAMP-dependent mechanisms of the septum, hypothalamus, and posterior hypophysis, while a decreasing SSF correlated with suppression of these processes in the septum, hypothalamus, and anterior hypophysis. Changes in the cAMP phosphodiesterase activity were less intensive and did not depend on the cGMP level. Changes in the cGMP content were nonspecific and unidirectional: this index increased, with the maximum at the stable self-stimulation mode. The ratio of cyclic nucleotides shifted toward cAMP when the SSF increased, and towards cGMP when the SSF decreased, while at a stable frequency their content was equal to the control level. The changes in the cyclic nucleotide contents were non-reciprocal (except an inverse correlation between their contents in the hypothalamus observed when the SSF dropped).     

Effect of N-stearoylethanolamine(NSE) on activity of angiotensine-converting enzyme in the brain structures and blood plasma of rats with streptozotocine-induced diabetes

The influence of saturated N-acylethanolamine--N-stearoylethanolamine (NSE) on the activity of angiotensine-converting enzyme (ACE) in the brain structures of rats with streptozotocine-induced diabetes was studied. It was shown that decreased activity of ACE was observed in the hypothalamus, increased--in the anterior pituitary. The NSE suspension administration to rats with experimental diabetes in a dose 50 mg/kg of body weight during 10 days caused a decrease in ACE activity in the anterior pituitary, whereas in the hypothalamus and hippocampus ACE activity did not change significantly. At the same time, introduction of NSE to intact animals led to the reduction of activity of ACE in the hippocampus, anterior pituitary and blood plasma. It is known that the highest amount of ACE in the brain structures is located in the membrane-bound state. Thus, the changes we have found in the activity of ACE in the control rats and in animals with induced diabetes may be related to the ability of NSE to the modulation of cell membranes lipid profile. Changes in the activity of ACE under the action of N-acylethanolamines may be one of the mechanisms for implementation of anti-hypertensive and anti-inflammatory action of these compounds.