Correction of arterial pressure in rats with hereditary hypertension by altering catecholamine metabolism in early ontogeny

In a newly developed rat strain with inherited stress-sensitive arterial hypertension (ISSAH) an attempt was made to reduce arterial blood pressure by L-DOPA injections during a short time period of the early ontogenesis. It was shown that L-DOPA injections to rats on days 7-9 or 14-16 of life had no effect. The same procedure performed on 21-23 or 21-25-day-old rats was followed by a decrease in the basal and stress-induced arterial blood pressure levels, measured in adulthood. Injections of dopamine-beta-hydroxylase inhibitor (FLA-59) with parallel L-DOPA administration completely blocked the blood pressure decreasing effect. It can be suggested that injections of L-DOPA in the 4th week of post-natal life reduce the blood pressure level in ISSAH rats by enhancing the rate of brain noradrenaline biosynthesis.     

Effect of chronic stress during prepubertal period of life on development of inherited arterial hypertension

The immediate and long-lasting effects of environmental stress during prepubertal life on arterial blood pressure (AP) were studied in rats with inherited stress-induced arterial hypertension (ISIAH) and normotensive Wistar rats. Two models of chronic stress (the 21st-32nd postnatal days) were used: repeated handling and unpredictable stress of daily exposures to a variety of mild physical or psychoemotional stressors. Chronic prepubertal stress did not affect the basal or stress-induced AP levels in young or adult Wistar rats. In ISIAH rats, chronic stress during the early phase of hypertension development did not accelerate its formation and did not augment its manifestation in adults. Moreover, the basal AP was decreased in young and adult ISIAH rats exposed to prepubertal stress as compared to the age-matched controls. AP elevation under acute stress conditions was lower in young ISIAH rats exposed to unpredictable stress. No long-lasting effect of prepubertal stress on acute stress-induced AP elevation in adults was found. The conclusion was drawn that moderate physical and psychoemotional training at prehypertensive stage can positively affect the development of inherited arterial hypertension.     

Disorder of catecholamine synthesis in early ontogeny and hypophyseal-adrenal cortical function in adult rats

The effects of daily intraperitoneal (150 mg/kg of body weight) injections of alpha-methyl-dl-tyrosine (MT), an inhibitor of tyrosine hydroxylase, on the 2nd to 4th, 5th to 7th or 10th to 12th days of life on the pituitary-adrenal function and brain adrenaline level in 3 to 4-month old rats were studied. MT treatment on the 5th to 7th days resulted in a decrease of noradrenaline content in hypothalamus and midbrain and chronic decrease of basal corticosterone level in blood, its diurnal fluctuations being preserved. MT injections on the 10th to 12th days were accompanied by a decrease of the basal corticosterone level, but the brain noradrenaline level remained unchanged. A study of pituitary-adrenal stress reactivity of adult rats has revealed no specific MT effect. A conclusion was drawn that the MT treatment applied exerted a long-term effect, predominantly, on the regulation of tonic corticosterone secretion.     

Effect of losartan on the blood-brain barrier permeability in diabetic hypertensive rats

Our previous publication has stressed the benefits of losartan, an angiotensin II receptor blocker, on the permeability of blood-brain barrier (BBB) and blood pressure during L-NAME-induced hypertension. This study reports the impacts of anti-hypertensive treatment by losartan on the brain endothelial barrier function and the arterial blood pressure, during acute hypertension episode, in experimentally diabetic hypertensive rats. Systolic blood pressure measurements were taken with tail cuff method before and during administration of L-NAME (0.5 mg/ml). We induced diabetes by using alloxan (50 mg/kg, i.p). Losartan (3 mg/kg, i.v) was given to rats following the L-NAME treatment. Acute hypertensive vascular injury was induced by epinephrine (40 microg/kg). The BBB disruption was quantified according to the extravasation of the Evans blue (EB) dye. L-NAME induced a significant increase in arterial blood pressure on day 14 in normoglycemic and hyperglycemic rats (p < 0.05). Losartan significantly reduced the increased blood pressure in hypertensive and diabetic hypertensive rats (p < 0.01). Epinephrine-induced acute hypertension in diabetic hypertensive rats increased the content of EB dye dramatically in cerebellum and diencephalon (p < 0.01) and slightly in both cerebral cortex (p < 0.05). Losartan treatment reduced the increased BBB permeability to EB dye in the brain regions of diabetic hypertensive rats treated with epinephrine (p < 0.05). This study indicates that, in diabetic hypertensive rats, epinephrine administration leads to an increase in microvascular-EB-albumin efflux to brain, however losartan treatment significantly attenuates this protein's transport to brain tissue.     

Effect of steroid aromatase inhibitors on the catecholamine content of the hypothalamus of neonatally androgenized rats

Administration of 50 micrograms of testosterone propionate to newborn female rats on the 5th day of life provoked a reliable increase in noradrenaline and dopamine concentrations in the hypothalamus of 10-day-old rats. Neonatal administration of aromatase inhibitors on the 5th and 7th days of life prevented testosterone-induced increase in catecholamine concentrations. The data obtained prove the integration of the processes of testosterone aromatization and catecholamine accumulation in androgen-dependent brain differentiation.     

Influence of neonatally administered gonadotropin on the sexual function of adult rats]

Male and female rats were daily injected with 10 IU HCG plus 10 IU FSH from the 1st to 14th day of life in order to investigate the influence of neonatal gonadotrophin administration on the sex-specific differentiation of the brain. When adult, the males showed hypogonadism associated with approximately normal sexual activity. In the females, precocious puberty, indicated by premature vaginal opening and spontaneous estrus, occurred. Furthermore, bisexuality with a tendency towards more male behavioural patterns was observed, but no impairment of ovarian cyclicity. Thus, hypergonadotrophic hypergonadism during the hypothalamic differentiation phase gave rise to bisexual behaviour in adult female rats associated with normal ovarian cycles. The question of a direct or indirect influence of gonadotrophins on the sex-specific brain differentiation is discussed.     

Effects of early undernutrition and handling on the adrenocortical activity of neonatal rats

Early neonatal experiences such as handling or undernutrition may alter developmental patterns associated with brain maturation and neuroendocrine regulation. Therefore, we tested neonatal ACTH and corticosterone responses to ether stress in pups submitted to chronic underfeeding which involves daily handling (U), daily handling only (H), or no handling (I). Pituitary ACTH content and brain myelin basic protein (MBP) content were measured in all rat groups. We found that the order of magnitude in stress-induced ACTH secretion was: I greater than H greater than U on day 14 and 18 of age while on day 10, only a small significant response in the H group was observed. Corticosterone secretion after stress was increased on day 14 in both H and I rats while no response was observed in the U group at all ages. Pituitary ACTH content of U pups was significantly (p less than 0.01) reduced compared to H rats on day 10 of age but not later. Underfeeding had profound effects on MBP synthesis of U rats since brain MBP content on day 14 was 5-fold lower in U versus H pups. In addition, handling enhanced MBP production since H rats exhibited higher (p less than 0.05) MBP content as compared to I rats. Thus, both handling and undernutrition experienced early in life are able to affect central brain maturation as well as neonatal adrenocortical responses to stress.     

The characteristics of the startle reflex to an acoustic stimulus in rats with hereditary stress-sensitive arterial hypertension: the effect of chronic stress in the prepuberty period]

Acoustic startle reflex was studied in young and adult rats with hereditary stress-induced arterial hypertension (HSIAH) in comparison with original normotensive Wistar strain. Immediate and long-lasting effects of chronic handling or chronic unpredictable stress at the age of 4 and 5 weeks on manifestations of the startle reflex were studied. The amplitude of the sensorimotor reaction was lower in both young (38-day-old) and adult (4-month-old) HSIAH rats than in age-matched normotensive Wistar rats. Young and adult hypertensives demonstrated significant inhibition of startle reflex when the startling stimulus was preceded by a weak prepulse. Such prepulse inhibition was not expressed in young or adult Wistar rats. Chronic handling as well as chronic unpredictable stress during the 4th and 5th weeks of life potentiated the startle amplitude in young HSIAH rats. The prepulse inhibition level did not depend on the chronic stress. The long-lasting effect of the prepubertal chronic stress depended on the type of the stress factors.     

Impairment of stress-induced secretion of prolactin during development: effects of adrenalectomy, TRH and sulpiride

Ontogeny of serum and anterior pituitary gland PRL contents was investigated. Pituitary PRL concentrations were found to be low in fetus by 19th day of gestation and to rise slowly after birth with no sex differences being apparent until day 30. Adult levels were reached in males on day 15, while in females they were reached beyond this stage. Serum PRL levels exhibited a similar developmental pattern. In adult rats ether stress stimulated basal serum PRL significantly, with maximum effect one minute after onset of stress. The same pattern was seen with immature animals of 15-20 and 30 days of age. In contrast, in 2 or 6 day-old neonates, serum PRL concentrations remained unaffected by stress. This lack of responsiveness suggests the existence of a transient impairment of lactotrophs to respond to stressful stimuli during postnatal life. Adrenalectomy increased PRL release in adult and newborn rats from day 15 onward and potentiated the response of lactotrophs. Moreover, after adrenalectomy, 6 day-old rats became sensitive to ether stress, while acute treatment with dexamethasone abolished completely this response. In adult or 15 day-old neonates administration of TRH or sulpiride resulted in a marked increase in serum PRL levels. However, at 6 days TRH did not affect resting serum PRL concentrations significantly, whereas sulpiride remained efficient. Moreover, at this age, dopamine inhibited stress-induced PRL release and reduced the stimulatory effect of sulpiride.(ABSTRACT TRUNCATED AT 250 WORDS)     

Dependence of the cytotoxic effect of guanethidine on the degree of sympathetic activity

Young rats aged 15-29 days received a subcutaneous injection of guanethidine sulphate (5 mg/kg body weight) every day. Owing to damage to the postganglionic sympathetic neurones, on about the 60th day of life we observed a significant decrease in the noradrenaline concentration in these animals' hearts compared with the controls. If every guanethidine injection was followed immediately by intensive physical exercise, there was no drop in the heart noradrenaline concentration. Physical exercise of the same intensity performed a few hours before injecting guanethidine did not prevent the drop in the noradrenaline concentration in the heart. The results show that an exercise-induced increase in sympathetic activity, at a time when guanethidine is circulating in the blood and accumulating in the adrenergic neurones, inhibits the cytotoxic effect of guanethidine. Isolated physical exercise performed between the 15th and 29th day of life leads to an increase in the noradrenaline content of the heart of rats aged 60 days.     

Effects of desipramine on regional serotonin synthesis in the rat brain: acute and chronic autoradiographic studies

Various studies have implicated the involvement of noradrenaline (NA) and/or serotonin (5-hydroxytryptamine (5-HT)) in the pathogenesis and treatment of depression. The aim of the present study was to investigate the effects of acute and 7 days of administration of desipramine, a NA re-uptake inhibitor, on the rate of 5-HT synthesis in the rat brain. The study was done by an autoradiographic method using alpha-[14C]-methyl-L-tryptophan as a tracer. The acute (10mg/kg, i.p., 2h before i.v. infusion of the tracer) or 7 days of desipramine (10mg/kg per day, i.p.) did not affect plasma tryptophan (Trp) concentrations, as compared to control (saline treated) rats. Acute treatment with desipramine decreased the rate of 5-HT synthesis in the brain regions that contain 5-HT cell bodies between 19 and 28%, and increased the rate of 5-HT synthesis in the majority of areas containing 5-HT terminals between 21 and 65%. In contrast to the acute treatment, a 7-day administration increased 5-HT synthesis rates in the dorsal raphe (24%), but decreased it in raphe magnus (35%), superior olive (45%), caudate (31%), superior (38%) and inferior (53%) colliculus, and in the auditory cortex (35%). This suggests that the effect of desipramine on 5-HT synthesis rate is time-dependent and differs in the cell bodies and structures containing 5-HT nerve terminals.     

Effects of neonatal ventral hippocampal lesion in rats on stress-induced acetylcholine release in the prefrontal cortex

Excitotoxic neonatal ventral hippocampus (NVH) lesions in rats result in characteristic post-pubertal hyper-responsiveness to stress and cognitive abnormalities analogous to those described in schizophrenia and suggestive of alterations in dopamine (DA) neurotransmission. Converging lines of evidence also point to dysfunctions in the cortical cholinergic system in neuropsychiatric disorders. In previous studies, we observed alterations in dopaminergic modulation of acetylcholine (Ach) release in the prefrontal cortex (PFC) in post-pubertal NVH-lesioned rats. These two neurotransmitter systems are involved in the stress response as PFC release of DA and Ach is enhanced in response to some stressful stimuli. As adult NVH-lesioned rats are behaviorally more reactive to stress, we investigated the effects of NVH lesions on tail-pinch stress-induced Ach and DA release in the PFC. Using in vivo microdialysis, we observed that tail-pinch stress resulted in significantly greater increases in prefrontal cortical Ach release in post-pubertal NVH-lesioned rats (220% baseline) compared with sham-operated controls (135% baseline). Systemic administration of the D1-like receptor antagonist SCH 23390 (0.5 mg/kg i.p.) or the D2-like receptor antagonist haloperidol (0.2 mg/kg i.p.), as well as intra-PFC administration of the D2-like antagonist sulpiride (100 microm), reduced stress-induced Ach release in PFC of adult NVH-lesioned rats. By contrast, intra-PFC administration of SCH 23390 (100 microm) failed to affect stress-induced Ach release in PFC of NVH-lesioned rats. Interestingly, using in vivo voltammetry, stress-induced stimulation of PFC DA release was found to be attenuated in adult NVH-lesioned rats. Taken together, these data suggest developmentally specific reorganization of prefrontal cortical cholinergic innervation notably regarding its regulation by DA neurotransmission.     

The effect of neurochemical damage of dopaminergic terminals in early ontogenesis on the behavior of adult rats

6-Hydroxydopamine (75 mkg), producing selective degeneration of dopaminergic neurons in the brain, was injected intraamniotically to every rat fetus on 13th or 17th day of mother pregnancy. The other experiment was performed, when 6-hydroxydopamine administered i.p. to newborn rats on 4th or 10th day of life. All rats were growing, and several dopamine-dependent behaviors were investigated in adult animals: open field, rotation behavior, anxiety in elevated plus maze, conditioned placed preference, differentiation of novel and known alleys of Y-maze, aggressive behavior in intruder-resident test, selfs-stimulation of lateral hypothalamus. Prenatal administration of 6-hydroxydopamine initiated rotations and stereotypy, decreased anxiety in elevated maze, reduced reinforcing properties of amphetamine in place preference test, disturbed differentiation of novel and known alley in Y-maze, high aggression and decreased self-stimulation in less degree that postnatal injection of neurotoxin. Therefore, the early postnatal period is more sensitive to neurotoxin action than prenatal period of development. This phenomenon is connected with critical periods of development of dopaminergic system in ontogeny.     

Effect of chemical sympathectomy on the development of DOCA-salt hypertension in rats

Structurally based resistance and vascular reactivity of the posterior body to noradrenaline were studied in normotensive rats and rats with DOCA-salt hypertension. The hypertension was induced in rats with intact sympathetic nervous system and in rats subjected to neonatal sympathectomy with guanethidine. During the prehypertensive stage, vascular sensitivity of the smooth muscles to noradrenaline was enhanced, with structural lesions being observed only in steady hypertension. Elevation of arterial pressure was accompanied by an increased vascular response to the stimulation of the sympathetic nerves. Sympathectomy prevented arterial pressure elevation and structural alterations in the vessels.     

Chronic early leucine administration induces behavioral deficits in rats.

Sustained levels of leucine comparable to those of human Maple Syrup Urine Disease (MSUD) were achieved in blood and brain of rats by subcutaneous leucine administration twice a day from the 6th to the 28th day of life. Control rats were treated with saline in the same volumes. Behavioral studies using aversive and nonaversive tasks were performed during adult age. Chronic early leucine treatment impaired acquisition of a two-way shuttle avoidance task and altered habituation to an open field. Our results suggest that early postnatal leucine administration induces long-lasting behavioral deficits.     

Lasting effects of postnatal hypoxia and saline injection on the striatal dopamine transport and their modification by gangliosides.

Hypobaric hypoxia (10 h daily, pO2 10 kPa) and saline administration (2.5 microliters/g body wt) from the 2nd till the 11th day of life both induced a long-lasting increase of the low-affinity dopamine (DA) uptake capacity in S1-fractions of the rat striatum. Additionally, the potassium-stimulated DA release was enhanced in adult control rats postnatally injected with saline. The administration of a mixture of bovine brain gangliosides (30 micrograms/g body wt) was found to prevent these effects. However, the kinetic constants of the DA uptake of hypoxic rats treated with gangliosides were reduced in comparison to untreated controls. Thus, the effects of gangliosides appear to differ between hypoxic and control conditions. The modification of the dopaminergic activity during brain development is discussed as a possible mechanism of the preventive effects of gangliosides against long-term cerebral dysfunctions following hypoxia or stress.     

Early stress and genetic influences on hypothalamic-pituitary-adrenal axis functioning in adulthood.

During early development, environmental challenges set the stage for permanent changes in the functioning of the pituitary-adrenal stress response. Since these data have been reported almost exclusively in single rat strains the role of phenotypic and genotypic factors in shaping the stress response is relatively unknown. This study examined whether the phenotypic/genetic profile of the rat influences the long-term response to challenge after early exposure to stress. Two strains of Sprague-Dawley rats were used in this study: one is a stress-induced animal model of "learned helpless" (LH) behavior and the other a resistant strain developed through selective breeding. Stress-induced adrenocorticotropic hormone (ACTH) and corticosterone release was monitored in adult congenital learned helpless (cLH) rats and congenital non-learned helpless (cNLH) rats. The rats were exposed to cold stress or maternal deprivation (on either postnatal day 7 or day 21). After the early acute stress exposure, animals remained undisturbed until challenged in adulthood (day 90) with footshock stress. In cLH animals (adults) early cold stress (particularly after acute stress on postnatal day 21) and maternal deprivation stress resulted in an enhancement of stress-induced ACTH release compared to nonstressed cLH and cNLH controls. In contrast, adrenal responsiveness was generally suppressed in cLH animals that were acutely stressed with cold stress or maternal deprivation stress early in life. The above results suggest that the genetic/phenotypic profile of the animal is a determinant in the changes observed in the adult stress response after early exposure to stressors.     

Effects of drugs on brain neurotransmitter and pituitary-testicular function in male rats.

The effects of different drugs influencing brain neurotransmitter contents have been tested on the pituitary-testicular function in male rats. L-dopa (200 mg/kg body weight, i.p.) increased the dopamine and noradrenaline contents of the hypothalamus, amygdala, striatum and mesencephalon, but it was ineffective as regards the 5-hydroxytryptamine contents of the same brain areas, and increased the plasma testosterone level. alpha-Methyl-p-tyrosine (250 mg/kg b.w., i.p.) decreased the dopamine and noradrenaline contents of these brain areas, but it was ineffective to 5-hydroxytryptamine, and decreased the plasma testosterone level. Diethyldithiocarbamate (400 mg/kg b.w., i.p. twice a day) increased the dopamine levels in the hypothalamus, amygdala, striatum and mesencephalon, decreased the noradrenaline contents in the same brain regions but had no effect on the 5-hydroxytryptamine contents of these brain areas or on the testosterone level in the peripheral blood. p-Chlorophenylalanine (300 mg/kg b.w., i.p.) decreased the 5-hydroxytryptamine contents of the different brain areas, while it had no effect on the dopamine and noradrenaline levels or on the plasma testosterone level. 5-Hydroxytryptophan (200 mg/kg b.w., i.p.) increased the 5-hydroxytryptamine contents of all brain areas studied, but was without effect on the dopamine and noradrenaline contents or the plasma testosterone level. The data suggest that both dopamine and noradrenaline may be involved in the regulation of the pituitary-testicular function, and the ratio of the two transmitters might be more important that their actual levels in definite brain areas.     

Different alterations in the development of the noradrenergic innervation of the cerebellum and the brain stem produced by neonatal 6-hydroxydopa.

The administration of 6-hydroxydopa (6-OH-DOPA) to rats during their pre- or postnatal development, produced long-term modifications in the distribution of noradrenaline (NA) within the brain. In the cerebellum, the concentration of NA was increased in adult rats exposed to the drug between the day 16 of gestation and the day of birth. When injected 3 days after birth, the drug did not modify NA levels while treatment at 20 days produced a marked depletion of cerebellar NA. The concentration of NA in the brain stem showed a different pattern of response to 6-OH-DOPA. Prenatal administration elevated NA in this region and, in contrast to the response of the cerebellum, injections in the inmediate postnatal period also elevated the transmitter content. Treatment at 20 days after birth resulted in a marked depletion of NA levels in the adult brain stem. These results demonstrate the existence of temporal differences in the responses to neonatal 6-OH-DOPA in two structures innervated by noradrenergic pathways originated in neurons of the nucleus locus coeruleus.