Influence of metyrapone treatment during pregnancy on the development and maturation of brain monoaminergic systems in the rat

AIM

This study examines the effect of reducing the corticosterone levels of gestating rat dams on the postnatal development and maturation of monoaminergic systems in their offspring's brains.

METHODS

Metyrapone, an inhibitor of CORT synthesis, was administered to pregnant rats from E0 to E17 of gestation. Monoamine concentrations were determined in male and female offspring at postnatal days (PN) 23 and 90 in the hippocampus, hypothalamus and striatum.

RESULTS

Reducing maternal corticosterone (mCORT) during gestation led to alterations in dopamine and serotonin levels in all three brain areas studied at PN 23. Alterations persisted until at least PN 90 in the serotonergic systems; the dopamine content of the hippocampus also remained modified. Reduced mCORT during gestation also led to alterations in the development and maturation of the hypothalamic noradrenergic systems. Sexually dimorphic responses were observed in all these monoaminergic systems at different times.

CONCLUSION

These results suggest that while they are still developing, brain monoaminergic systems are particularly sensitive to epigenetic influences. An adequate foetal level of CORT is required for the normal ontogeny of brain monoaminergic systems. The present data also provide that during the critical period of brain development, maternal CORT plays an important role in the sexual differentiation of monoaminergic systems, with particular influence on brain serotonergic neurones.

Effect of intrauterine position on sex differences in the gabaergic system and behavior of rats

In multiparous species such as the rat (in this case the albino Wistar strain), steroid influence during fetal growth is affected by the relative intrauterine position of male and female fetuses and is stronger when the potential effects of contiguity and caudal position are combined. The effect of intrauterine position on gonadal steroid levels in neonatal and adult animals was examined using radioimmunoassay techniques. Since the organizing effect of prenatal steroids may influence the postnatal GABA content, HPLC was used to determine the gabaergic content in several hypothalamic and limbic areas in the adult rat. The effects of intrauterine position on adaptive behavior were examined by recording exploratory behavior (using the corridor and hole board tests) and intraspecific aggression (induced by isolation). Female pups influenced by males during development produced more testosterone. In adult males, those that developed closer to the cervix (and with no influence from other fetuses) produced more testosterone and less estradiol. The same animals also produced more hypothalamic GABA and showed greater exploratory capacity. No significant differences were seen between any experimental groups with respect to aggression. These results show increased variability between males with respect to adult exploratory behavior, and in the neurochemical and endocrine systems involved, due to intrauterine position during development. The effect of this physiological phenomenon on the structure of rodent populations is discussed.

Role of maternal adrenal glands on the developing serotoninergic and aminoacidergic systems of the postnatal rat brain

Serotonin, gamma-aminobutyric acid and glutamate, which are regulated by glucocorticoids in the central nervous system, are involved in neuroendocrine functions and the development of the brain. The present study investigates the effect of maternal adrenalectomy on the developing serotoninergic, GABAergic and glutamatergic systems. Neurotransmitter levels were measured in four brain areas of both male and female offspring on postnatal days 1, 8, 12 and 22. At postnatal day 1 and 8, the pups of adrenalectomized dams showed higher concentrations of serotonin than controls in all the brain areas studied. Serotonin levels decreased significantly in males at postnatal day 22 in the hippocampus and cortex. During the first 2 weeks of postnatal life, the lack of maternal corticosterone produced an increase in glutamate and a reduction in gamma-aminobutyric acid concentrations, mainly in males. Further, on postnatal day 1, increased serotonin and glutamate levels and lower levels of gamma-aminobutyric were observed in the hypothalamus of male pups born to adrenalectomized dams. The absence of maternal corticosterone affects the pattern of development of the serotoninergic system, especially in the hippocampus and cortex, and particularly in males. A delay in the maturation of the aminoacidergic systems, mainly of the GABAergic system and in males, was also seen. A sexually dimorphic response to the removal of maternal glucocorticoids was seen in terms of neurotransmitter levels, mainly in the hippocampus and hypothalamus.

Maternal adrenalectomy affects development of adrenal medulla

This work investigates the effects of maternal adrenalectomy (ADX) on the development of the adrenal medulla. Adrenal catecholamines (AC) were measured at postnatal day (PN) 1, 8, 12 and 22 in rat offspring of ADX dams and in pups of control dams. The pups of ADX rats showed a reduction in AC concentrations in the adrenal medulla at PN 1, 12 and 22, although these were higher than in the pups of sham dams at PN 8. Further, in the pups of control mothers, there was an increase in ACs during the first two weeks of life whereas pups of ADX mothers only showed increases in noradrenaline, dopamine and adrenaline levels at day 8. These results suggest that maternal absence of corticosterone affects the medulla catecholamine content during development. These data support the idea that a maternal glucocorticoids are involved in the differentiation or/and maturation of the adrenal medulla.

Effects of maternal lead administration on monoaminergic, GABAergic and glutamatergic systems

The effects of perinatal exposure to lead (300 mg/l) on the development of monoaminergic and aminoacidergic systems were evaluated in the striatum, cerebral cortex (Cx), dorsal hippocampus (d-Hipp) and basal-medial hypothalamus. Maternal exposure to lead produced regional alterations in monoamine content, with increases in dopamine and serotonin or their metabolites. Further, decreased glutamate levels were seen in all brain regions studied, while GABA content decreased only in the Cx. Together, these results show that lead causes alterations to neurotransmitter systems during development. These may be related to lead-induced neurobehavioral impairment.

Deprenyl protects from MPTP-induced Parkinson-like syndrome and glutathione oxidation in rat striatum

An intrastriatal injection with 18.8 nmoles of the neurotoxic agent 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) induced in rats a progressive parkinsonism characterized by a major loss of striatum dopamine (DA) levels and an increased turnover of this neurotransmitter 96 h after the administration. In addition, the intrastriatal administration of MPTP produced an alteration in various behavioral markers of motor activity. Loss of DA was accompanied by a significant decrease of reduced glutathione (GSH) and an increase in GSH oxidation in the striatum. When deprenyl (10 mg/kg) was i.p. administered 2 h before the intrastriatal injection of MPTP, DA, GSH, glutathione redox status and the indexes of motor activity were not altered. These results show that MPTP increases striatum oxidative stress leading to cellular and in vivo degenerative changes which are prevented by pretreatment with deprenyl.

Study of the neurochemical alterations produced in discrete brain areas by perinatal low-level lead exposure

Although the neurotoxic effects of Pb are well documented, the subcellular mechanisms of this action in the central nervous system are not fully understood. The present work examines some neurochemical parameters in discrete brain areas of pups whose mothers were intoxicated via drinking water with lead (300 mg/L), from day 1 of pregnancy until postnatal day 12. Lead intoxication produced a significant reduction in the activity of the enzymes alkaline phosphatase and ATP-ase in the brain. Furthermore, the levels of adenine nucleotides were significantly altered by treatment, the striatum being the area more affected, whereas lead did not vary the levels of ATP, ADP and AMP in the hypothalamus. On the other hand, there was a general decrease in neurotransmitter levels in all areas, specially in the hippocampus. These data suggest that gestational and lactational exposure to low dose of lead could produce neurochemical changes in discrete brain areas which can be responsible for the neurophysiological and behavioral changes described in lead-intoxicated animals.

The effects of acute treatment with delta9-THC on exploratory behaviour and memory in the rat

The aim of the present study was to evaluate the effects of delta9-tetrahydrocannabinol (delta9-THC) on exploratory behaviour and memory, independent of its locomotor suppressive effects. Dopamine (DA) and noradrenaline (NA) contents were determined in the areas of the brain directly related to such behaviours (hippocampus, striatum and amygdala). An acute dose of delta9-THC led to a decrease in exploratory parameters and motor activity during the holeboard test. The radial arm maze was used to evaluate the effects of this cannabinoid substance on memory. Animals treated with delta9-THC committed more errors in the maze test compared to control, particularly when the retention process was put to test. Furthermore, treatment with delta9-THC led to reduced NA contents in the hippocampus and increased DA contents in the amygdala, without changes in the striatum.

Effect of MPTP on brain mitochondrial H2O2 and ATP production and on dopamine and DOPAC in the striatum

An experimental rat model of Parkinson's disease was established by injecting rats directly in the striatum with the neurotoxic agent 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP). In order to study the action mechanism of this neurotoxic agent, MPTP and its main metabolite 1-methyl-4-phenylpyridinium (MPP+) were also added to suspensions of pyruvate/malate-supplemented nonsynaptic brain mitochondria, and the rates of hydrogen peroxide and ATP production were measured. Intrastriatal administration of MPTP produced a pronounced decrease in striatal dopamine levels (p < 0.005) and a strong increase in 3,4-hydroxiphenylacetic acid/dopamine ratio (an indicator of dopamine catabolism; p < 0.005) in relation to controls, as evaluated by in situ microdialysis. MPTP addition to rat brain mitochondria increased hydrogen peroxide production by 90%, from 1.37+/-0.35 to 2.59+/-0.48 nanomoles of H2O2/minute . mg of protein (p < 0.01). The metabolite MPP+ produced a marked decrease on the rate of ATP production of brain mitochondria (p < 0.005). These findings support the mitochondria-oxidative stress-energy failure hypothesis of MPTP-induced brain neurotoxicity.

Neurochemical changes in newborn rat's brain after gestational cadmium and lead exposure

Gestational administration of cadmium (10 mg/l) and lead (300 mg/l) produced a strong decrease in proteins at birth (-17%) and on day 5 (-31%) as well as in brain lipid amount on both days (-11 and -23%, respectively). At day 5 postnatal the exposure also produced a marked decrease in DNA and RNA concentrations with respect to the control group. On the other hand, we found a significant increase of indoleamine content in all brain areas studied in the cadmium-lead group and so the dopamine and its metabolite in mesencephalon, whereas dopamine levels in metencephalon decreased significantly. This data suggests that gestational and early lactational exposure to low dose of cadmium and lead could produce alterations in monoaminergic metabolism that can place the exposed animal to a significant risk in adulthood.

Effect of metyrapone administration in pregnant rats on monoamine concentration in fetal brain

Studies performed in our laboratory indicate that the adrenal deprivation during gestation can greatly influence the fetal catecholamines development in several cerebral areas. The present study was undertaken to determine whether the administration of metyrapone to pregnant rats affects the content of monoamines in fetal brain at term. To test wether the content of monoamines in fetal brain is regulated, at least in part, by endogenous glucocorticoids, pregnant rats were injected for 5 days prior to delivery with metyrapone, an adrenal 11-beta-steroid hidroxylase inhibitor which crosses the placenta and blocks endogenous glucocorticoid synthesis, or saline. On day 21 of gestation, delivery of all animals was accomplished by cesarean section. The encephalons were extracted and immediately dissected in metencephalon, mesencephalon, diencephalon and telencephalon. Monoamine determination was carried out using HPLC-ED. The results obtained indicate that the metyrapone treatment increases both DA and 5-HT and their metabolites in the brain studied areas.

Gestational administration of cadmium alters the neurotransmitter levels in newborn rat brains

The effects of gestational and early lactational intoxication by cadmium (Cd) were studied in the brain of young Wistar rats. Pregnant rats were exposed to 10 mg of cadmium acetate per litre of drinking water, from initiation of pregnancy to parturition or until postnatal day 5. At birth or on postnatal day (PND) 5 the pups were weighed, sacrificed and brains were removed and frozen for later study. Protein, lipid and nucleic acid contents were measured and the brain Cd concentration was determined. Levels of dopamine (DA), 5-hydroxytryptamine (5-HT) and their respective metabolites 3,4-dihydroxyphenylacetic acid (DOPAC) and 5-hydroxyindoleacetic acid (5-HIAA) were measured in neonatal pup brain by higher performance liquid chromatography with electrochemical detection. The results from this experiment showed that Cd increased the 5-HT and 5-HIAA contents in all areas of the brain and the DA and DOPAC levels in mesencephalon, but decreased the DA and DOPAC levels in the metencephalon. On the other hand, Cd intoxication did not modify the other biochemical parameters measured, with the exception of a decrease in nucleic acids on PND 5.

Maternal exposure to delta 9-tetrahydrocannabinol (delta 9-THC) alters indolamine levels and turnover in adult male and female rat brain regions

Perinatal exposure to delta 9-THC has been shown to produce effects on brain development. In this study we evaluated the changes induced by maternal exposure to delta 9-THC (5 mg/kg per day) from gestational day 5 to postnatal day 24 in eight discrete brain areas on the central serotoninergic system in both adult male and female rats. These result show that maternal exposure to delta 9-THC from gestational day 5 to postnatal day 24 affects development of the various central indoleaminergic system of the offsprings brain. Perinatal exposure to delta 9-THC decreased the levels of 5-HT in hypothalamus and rostral neostriatum in exposed males, and also decreased the levels of 5-HT in ventral hippocampus, septum, and midbrain raphe nuclei in both exposed males and females. Perinatal exposure to delta 9-THC increased the levels of 5-HIAA in dorsal hippocampus, hypothalamus, septum, midbrain raphe nuclei, and rostral neostriatum in exposed males and females. We have also found differences between nonexposed males and females in several brain regions. Our results confirm a regional and sexual specificity in endogenous levels of indoleamine after perinatal delta 9-THC treatment, being the midbrain raphe nuclei the most affected area.

Effect of maternal delta 9-tetrahydrocannabinol on developing serotonergic system

In this study we investigated the effects of maternal delta 9-tetrahydrocannabinol on the developing serotonergic system. A daily dose of delta 9-tetrahydrocannabinol (5 mg/kg body weight) was administered p.o. to pregnant rats from gestational day 5 to postnatal day 1. Levels of indolamines were measured in four brain areas of the offspring on the day before or after birth. Levels of indolamines depended on the cerebral area, sex and pre- or postnatal age. Maternal exposure to delta 9-tetrahydrocannabinol decreased diencephalic levels of 5-hydroxytryptamine (5-HT), males being more susceptible than females. These perinatal changes could be responsible for the long-term neurophysiological alterations produced by cannabinoids.

Neurotoxic effects of gestational administration of low-dose lead acetate

Lead acetate (300 mg l-1) was administered to pregnant Wister rats from day 1 of pregnancy to day 0 postpartum or day 5 postpartum, via drinking water. On these days, pups were sacrificed, collecting the blood to determine the concentration of lead by graphite furnace atomic absorption spectrophotometry. Brains were used to determine the total content of nucleic acids, DNA/RNA ratio and the total amount of proteins, lipids and monoamines. We found a reduction in protein content on day 0 postpartum, and changes in monoamine concentration on day 0 postpartum and day 5 postpartum. These data suggest that prenatal and early lactational exposure to a relatively low dose of lead could produce alterations in monoaminergic metabolism.

Hepatic resuscitation after warm anoxia: one approach for increasing the donor pool for liver transplantation

The deleterious effects of warm anoxia on the liver are seen to be irreversible if cooling and transplantation (LT) follow immediately after. The aim of our study is to demonstrate that livers subjected to anoxia may be suitable for LT if a period of resuscitation is interposed before the cooling process. Forty female Large White pigs were used. Preservation (Euro-Collins solution) and LT technique were the same in all 20 procedures. All donors underwent clamping of the porta hepatis at the end of harvesting dissection. In the so-called "resuscitated" groups (AR and BR), the clamp was released for a period of time before the liver was cooled. Then, all livers underwent 2 h of cold ischemia followed by LT. Ultrastructural study showed better maintenance of mitochondria and sinusoidal cell integrity in resuscitated livers after LT. Liver synthesis of total adenine nucleotides, graft function and recipient survival were found to be better in the "resuscitated" groups. In conclusion, anoxic livers may be retrieved for LT if a resuscitation period (i.e. aerobic perfusion) is allowed prior to cold preservation. Longer periods of warm anoxia are needed to further support these preliminary results.

Effect of delta 9-tetrahydrocannabinol on short-term memory in the rat

We have reported that marihuana and its principal psycoactive compound, delta 9-tetrahydrocannabinol (delta 9-THC) produce alterations in several cerebral areas after acute treatment. Based on the involvement of 5-hydroxytryptamine (5-HT) on memory and learning and the reported effects of delta 9-THC on short-term memory, we designed an experiment to evaluate the memory performance and its possible relationship with serotonergic alterations after delta 9-THC administration. Male Wistar rats received an acute oral dose of THC (5 mg/kg). Short-Term memory was tested on a radial 8-arm maze with a 5 s delay, after 35 days of training. The animals were food deprived and adjusted for growth. 5-HT and its metabolite, 5-HIAA, levels were measured in cerebral cortex, dorsal hippocampus, ventral hippocampus, rostral neoestriatum and amygdala basal nucleus, by HPLC-ED. The experiment indicates an impairment of short-term memory in the radial maze test after delta 9-THC administration. The control group performed the test without errors, while the treated group made a significant number of errors (Z = 0.019, Mann-Whitney test). This behavioral effect did not seem to be related to serotonergic alterations, as the 5-HT turnover rate was not different between treated and control animals.

The effect of perinatal exposure to estrogens on the sexually dimorphic response to novelty

In this study we investigated the sexually dimorphic anxiety response to a novel environment in the absence of estrogens neonatally or in adulthood. There was a sexual dimorphism in the plus-maze test after the open-field test, females being more active and less anxious. In the absence of estrogens neonatally but not in the adulthood, the activity levels were similar to those shown by females, while the anxiety level was similar to males. These results suggest the need of a normal estrogen environment during the critical period of development for the normal differentiation of female anxiety responses to a novel environment.

Injection of an aromatase inhibitor after the critical period of sexual differentiation

We have investigated the possible role of the second week of life in the differentiation of sexually dimorphic behaviours, dependent on the androgenic aromatization, and its possible relationship with the serotonergic systems. For this purpose, 5 mg/kg of a suspension of an aromatase inhibitor, LY43578, has been intraventricularly injected to males on day 12 of life. Studies have been made in adulthood on exploratory and motor activities, anxiety, sexual motivation, and sexual performance. Indoleamine levels in the hypothalamus and corpus striatum have been measured. Sexual behaviour, exploration, and serotonergic metabolism were not affected by the treatment. Sex partner preference and anxiety in the plus-maze showed a feminized tendency in the treated group that, however, did not reach statistical significance. From these results we have confirmed the restriction of the critical period of androgenic aromatization for the organization of reproductive and exploratory behaviour.

Distribution of indoleamines and [3H]paroxetine binding in rat brain regions following acute or perinatal delta 9-tetrahydrocannabinol treatments

The effects of delta 9-tetrahydrocannabinol (delta 9-THC) administration on the central serotoninergic system were evaluated by biochemical assays of tissue levels of indoleamines; a measure of the serotonin (5-HT) innervation was obtained by using [3H]paroxetine as a marker of 5-HT uptake sites. Two different delta 9-THC treatments were chosen, i.e.: acute and chronic perinatal maternal exposure. Following acute treatment (5 mg/kg), the 5-HT content increased in dorsal hippocampus (+35%), Substantia nigra (+61%) and neostriatum (+62%) but remained unchanged in cingulate cortex, Raphe nuclei, Locus coeruleus and anterior hypothalamus. Endogenous 5-hydroxyindole-3-acetic acid (5-HIAA) decreased in anterior hypothalamus (-23%) and Raphe nuclei (-21%). Following maternal exposure to delta 9-THC (5 mg/kg per day; from gestational day 13 to postnatal day 7), levels of 5-HT were increased in the neostriatum (+22%) but decreased in anterior hypothalamus (-25%), Raphe nuclei (-29%) and Locus coeruleus (-20%) of the litters. Tissue 5-HIAA was increased in anterior hypothalamus (+23%) and Substantia nigra (+48%). There were no changes in 5-HT uptake site density, determined by [3H]paroxetine binding, except for an increase (+50%) in the cingulate cortex of perinatal-treated rats when compared to acutely-treated animals. The present results show that acute and maternal exposure to delta 9-THC produced different effects on the central 5-HT system of the offspring, with a clear regional specificity, but with no changes in the densities of 5-HT uptake sites.

Effect of maternal adrenal deprivation on the content of catecholamines in fetal brain

Previous studies performed in our laboratory showed the importance of the effects that the absence of maternal adrenal hormones have on fetal brain. In the present study we investigated the effect of adrenal deprivation during gestation on the fetal catecholamines development in several cerebral areas. Fetuses from both control and adrenalectomized mothers from the first day of gestation were removed on the 20th embryonary day. Plasma corticosterone levels were significantly lower in the maternal serum of adrenalectomized rats, while the contents were non significantly higher in the adrenalectomized-mothers group of fetuses. Catecholamine contents in diencephalon, metencephalon, mesencephalon and telencephalon were measured by HPLC-ED. The results obtained showed that when the development of the catecholaminergic systems was previous enough to the fetal adrenal function, and under maternal adrenal deprivation conditions, the lack of corticosterone promotes an increase in the level of the catecholamines, as observed in the diencephalic NA, the earlier in maturational process. In those areas where the maturation starts at the same time than the fetal adrenal hypersecretion, no changes were observed. In the cortex, where both DA and NA develop later, the corticosterone produces an inhibition in the proliferation of the catecholaminergic neurons, showing decreased telencephalic levels of both catecholamines.

Role of monoamines in the male differentiation of the brain induced by androgen aromatization

Cerebral androgen aromatization has been described as a mechanism responsible for masculinization of the brain, and monoamines seem to be involved in sexual differentiation of the brain. The aim of this study was to investigate the possible implication of monoamines in the masculinization of the brain induced by cerebral androgen aromatization not only in the classic hypothalamic areas but also in some extrahypothalamic ones. For this purpose, 1-day-old male Wistar rats were injected intraventricularly with 5 mg/kg of a suspension of an aromatase inhibitor, LY43578. Saline was administered to male and female control groups. At adulthood, open-field, heterotypical, and homotypical sexual behavior tests were performed and cerebral amines were determined by HPLC-ED. Behavioral tests revealed feminine-like exploratory activity and defecation rate in the treated group, as well as an 89% lordotic response and decreased number of mounts plus intromissions. Testosterone levels were not affected by the treatment. Striatal and limbic serotonergic metabolism showed a sexual dimorphism, higher in males than females, that disappeared in the treated group. From these results, we suggest a possible role of extrahypothalamic serotonin in the mediation of the estrogen-induced mechanisms of behavioral sexual differentiation.

Neonatal catecholaminergic influence on behaviour and sexual hormones

There is evidence of a sexually dimorphic effect of serotonin administration during the critical period of sexual differentiation on gonadal hormone secretion in adulthood. To investigate the possible involvement of catecholamines on these mechanisms, we have injected dopamine or noradrenaline intraventricularly into neonatal male and female rats to examine the influence, during the critical period, of this single treatment on the adulthood. Gonadal sex hormone contents, sexually dimorphic behaviours, and catecholaminergic distribution in hypothalamic and extrahypothalamic areas were studied. Both catecholaminergic treatments in females resulted in a reduced striatal dopaminergic activity and an increase in the hypothalamic noradrenergic ratio, while a reduction in the open field activity occurred in the same groups. These results suggest the possible involvement of striatal dopamine and hypothalamic noradrenaline in the differentiation of exploratory activity in females. A reduction in copulatory behaviour was shown in adults of both sexes after neonatal dopaminergic administration, but gonadal hormone levels were not affected in the same way. This indicates the existence of different facets of sexual differentiation, with striatal dopamine and hypothalamic noradrenaline playing important roles in neurobehavioural differentiation.

Extrahypothalamic serotonergic modification after masculinization induced by neonatal gonadal hormones

Exposure to gonadal steroids during the critical period exerts an organizational effect on the CNS. This hormonal effect could be mediated, at least in part, by neurotransmitters. Traditionally, the main place involved in the aminergic sexual differentiation has been the hypothalamus. The aim of this work was to examine the possible long-term effect of cerebral administration of testosterone or estradiol on sexual behavior and hypothalamic/extrahypothalamic monoaminergic systems in the adult rat. For this purpose, female Wistar rats were intraventricularly injected during the first 24 h of life with testosterone (T) or estradiol benzoate (EB) (200 micrograms/kg) (male and female control groups were vehicle treated) and sexual behavior and monoaminergic mediobasal hypothalamic, striatal, and limbic metabolism in adult rats were studied. Receptive behavior was not affected, whereas a masculinizing effect (% mounts) was observed in the animals treated with both gonadal hormones. Only testosterone-treated females showed a male-like serotonergic ratio in corpus striatum and limbic system. A possible extrahypothalamic serotonergic role could be suggested in the mechanisms of sexual differentiation.

Influence of amygdala catecholamines on ovarian and adrenal medullary secretion

The amygdaloid complex participates in the modulation of endocrine functions, and contains measurable amounts of noradrenaline (NA) and dopamine (DA). This study examined the contribution of the amygdaloid catecholaminergic systems to the regulation of the adrenal medulla and the ovary. To accomplish this the neurotoxin 6-hydroxydopamine (6-OHDA) was bilaterally injected into the basolateral nucleus of the amygdala (ABL) in cycling rats. The contents of NA and DA in right and left amygdala decreased significantly in lesioned animals with respect to sham lesioned animals, but hypothalamic levels were not different between groups. Administration of 6-OHDA to rats increased the NA, DA and adrenaline (A) contents of the adrenals compared to vehicle treated rats. In addition, lesioned animals showed a significant increase of NA and DA contents in the ovary, although A levels did not differ between groups. Serum oestradiol (O) concentrations were significantly lower in lesioned animals than in controls. These data suggest that the amygdaloid catecholaminergic systems exert an inhibitory effect on catecholamine content of the adrenals and the ovary, and influence the ovarian oestradiol secretion mechanism.

Sexual differences in the neonatal serotonin effect on hormone secretion in rats

A number of authors in the literature have reported facilitatory or inhibitory effects of serotonin (5-HT) on gonadotropin secretion, sexual hormones content or sexual behavior, but little information has been reported about the possible role of serotonin administered during the critical period of sexual differentiation. To test this possibility, we have injected a 5-HT intraventricularly to neonate male and female rats in order to examine the influence during the critical period of this single treatment on the adult sexual hormone content and sexual behavior. Neonatal administration of 5-HT in the brain decreases significantly estradiol content of adult females, without affecting testosterone level in males. Neither male nor female sexual behavior was affected by 5-HT injection on day 1 of life. These data evidence a sexual difference of serotonin administration during the critical period on gonadal hormones secretion in adulthood.

Possible interaction of the adrenal-gonadal systems on brain catecholamines of adult male rats

Studies from this laboratory showed that gonadectomy (GDX) alters biogenic amines concentrations in diencephalon during the first 40 days. While the GDX females maintain the differences at day 60, the differences are eliminated in males at that time. In the present work, we have studied in three cerebral regions the adrenal involvement in the mechanism responsible for this normalization of catecholamine concentration in long-term castrated adult male rats. A hypersecretion of adrenal steroids seems to compensate for the lack of gonadal effect when the orchidectomized rats reach adulthood only for diencephalic dopamine.

Influence of sexual differentiation on striatal and limbic catecholamines

The influence of sexual differentiation of the brain on catecholamine content in the corpus striatum and limbic system was studied. Our results suggest that circulating ovary hormones during the critical period play an important role in the sexual differentiation of dopaminergic neurons in the corpus striatum and limbic system. Absence of androgenic steroids in the critical period leads to permanent alterations in the DA content of the limbic system in the male rat. Gonadectomy does not significantly alter NA levels in either of the two studied brain areas.

Influence of thyroidectomy on brain catecholamines during the postnatal period

The influence of early thyroidectomy (Tx) on changes in dopamine (DA) and noradrenaline (NA) during the postnatal period (30, 45 and 60 days old) was studied in the diencephalon and the rest of the brain of male and female rats. Thyroidectomy interfered with the normal growth of the animals, decreased brain weight and markedly influenced the developmental pattern of both DA and NA in the diencephalon. When compared with control values, the DA concentration, in 45- and 60-day-old Tx male rats, was 29 and 43% lower, respectively, and 21 and 43% lower, respectively, in Tx females. Diencephalic NA levels in Tx rats were also lower than those observed in controls, 15% inferior in 45- and 60-day-old males; 27 and 22% lower, respectively, in females. Thyroidectomy does not significantly alter the level of either amine in the rest of the brain.

The influence of testosterone in the brain of the male rat on levels of serotonin (5-HT) and hydroxyindole-acetic acid (5-HIAA)

There were two groups of rats: one was injected with testosterone propionate (10 mg/kg) every 7 days starting from weaning (23 days old); the other group had gonadectomy on the same day. The levels of 5-HT and 5-HIAA were measured by spectrofluorometry. The concentrations of 5-HT in the diencephalon of the testosterone propionate injected rats decreased significantly at 45 days, tending to become reestablished at 60 days; the rest of the brain followed the same pattern, but was less pronounced. The concentrations of 5-HIAA in the diencephalon and the rest of the brain decrease throughout postnatal development, although the differences are not significant. The castrated rats showed a marked increase at 45 days and later decreased at 60 days without recovering their initial values, in both brain areas. 5-HIAA concentrations were similar to those found in the injected animals. These facts can have various interpretations: early modifications in the brain, feed-back regulation mechanisms at the level of the hypothalamus, decrease in the release of the amine or reduction of its catabolism.

The effects of adrenalectomy on the ontogenesis of brain: noradrenaline and dopamine content

The effect of adrenalectomy on catecholamine content in the diencephalon and the rest of the brain of male and female rats during the post-natal period was studied. Seven days after adrenalectomy, there is no change in noradrenaline or dopamine content. However, the dopamine levels of both the diencephalon and the rest of the brain decrease with age between days 45 and 60, while noradrenaline content in the diencephalon and the rest of the brain remained unchanged. Thus adrenalectomy significantly affected the developmental pattern of brain dopamine.

Effect of gonadectomy on brain catecholamines during the postnatal period

The effect produced by gonadectomy on dopamine (DA) and noradrenaline (NA) levels in the diencephalon and the rest of the brain of male and female rats during postnatal development has been studied. DA and NA metabolism or biosynthesis seems to be regulated by the ovarian hormones, directly or by means of hypophysary hormones, since both catecholamine levels rise acutely during postnatal development when ovariectomy is performed. In contrast with controls, the NA level is not stable at 45 days, but continues rising to day 60. Orchidectomy also acutely increases the level of diencephalic DA, but in contrast with females, its concentration progressively decreases, being at day 60 the same as in the controls. The reasons that cause this normalization, in the absence of testicular androgens, are unknown. In the same way, the extirpation of the testicles increases the diencephalic concentration of NA, the concentration change is similar to the control one: however, the level is higher. There is also a clear difference from the gonadectomized females, in which the diencephalic NA rises during 45-60 days. Gonadectomy does not significantly alter the level of DA or NA in the rest of the brain.

[Homovanillic acid levels in corpus striatum, limbic system and diencephalon of male and female rats]

The HVA levels in corpus striatum, limbic system and diencephalon in male and female rats during the postnatal period have been measured. The HVA levels in corpus striatum and diencephalon differed significantly when both sexes wee compared, whereas in limbic system significant differences were not found. A decrease in the levels of HVA in all areas studied was observed.

Effect of gonadectomy on brain homovanillic acid levels

The effect produced by gonadectomy on homovanillic acid (HVA) levels in three regions of male and female rat brain during the postnatal period has been studied. In all areas, the HVA levels rise in gonadectomized rats when they are compared with the controls in the first period, but later these levels decrease with respect to the control rats. When female rats were 60 days old there were differences between gonadectomized and controls; these differences were not found in male rats.

[Spectrofluorometric determination of 5-hydroxytryptamine and 5-hydroxyindoleacetic acid in rat diencephalon (author's transl)]

A spectrofluorometric method to determine 5-HT and 5-HIAA in rat diencephalon has been developed, following the criterion of unifying the methodology in determining biogenic amines and their metabolites. Linearity in the method remains in the interval between 0.01 microgram and 0.05 microgram. Recovery is about 70% for amine and about 80% for the metabolite. Highest concentrations of 5-HT appear in one month old female animals, and are significantly higher than those found in the male population of the same age. Concentrations in two month old animals decrease, without significant differences between males and females. Values found for 5-HIAA seem not to change so significantly, although a slight decrease is observed in the elder males.