Nesfatin-1 exerts long-term effect on food intake and body temperature.

OBJECTIVE: To determine whether the anorexigenic peptide, nesfatin-1 affects energy expenditure, and to follow the time course of its effects. DESIGN: Food intake duration, core body temperature, locomotor activity and heart rate of rats were measured by telemetry for 48 h after a single intracerebroventricular injection of 25 or 100 pmol nesfatin-1 applied in the dark or the light phase of the day. Body weight, food and water intake changes were measured daily. Furthermore, cold-responsive nesfatin-1/NUCB2 neurons were mapped in the brain. RESULTS: Nesfatin-1 reduced duration of nocturnal food intake for 2 days independently of circadian time injected, and raised body temperature immediately, or with little delay depending on the dose and circadian time applied. The body temperature remained higher during the next light phases of the 48 h observation period, and the circadian curve of temperature flattened. After light phase application, the heart rate was elevated transiently. Locomotion did not change. Daily food and water intake, as well as body weight measurements point to a potential decrease in all parameters on the first day and some degree of compensation on the second day. Cold-activated (Fos positive) nesfatin-1/NUCB2 neurones have been revealed in several brain nuclei involved in cold adaptation. Nesfatin-1 co-localised with prepro-thyrotropin-releasing hormone in cold responsive neurones of the hypothalamic paraventricular nucleus, and in neurones of the nucleus raphe pallidus and obscurus that are premotor neurones regulating brown adipose tissue thermogenesis and skin blood flow. CONCLUSION: Nesfatin-1 has a remarkably prolonged effect on food intake and body temperature. Time course of nesfatin-1's effects may be varied depending on the time applied. Many of the nesfatin-1/NUCB2 neurones are cold sensitive, and are positioned in key centres of thermoregulation. Nesfatin-1 regulates energy expenditure a far more potent way than it was recognised before making it a preferable candidate anti-obesity drug.

Chronic treatment with enhancer drugs modifies the gene expression of selected parameters related to brain plasticity in rats under stress conditions.

Selegiline, also known as L-deprenyl, and (2R)-1-(1-benzofuran-2-yl)-N-propylpentane-2-amine (BPAP) were found to induce enhancement of monoamine neurotransmission in low and very low doses. In addition, these enhancers may modify glutamatergic neurotransmission. The aim of the present study was to test the hypothesis that under stress conditions, chronic treatment with enhancer drugs has a positive impact on the glutamatergic system and other parameters related to brain plasticity, stress-related systems, and anxiety behavior. We exposed male Wistar rats to a chronic mild stress procedure combined with chronic treatment with two synthetic enhancer drugs. The gene expression of GluR1, an AMPA receptor subunit was reduced by repeated treatment with deprenyl in the hippocampus and with both BPAP and deprenyl in the prefrontal cortex. A significant reduction of NMDA receptor subunit GluN2B expression was observed in the hippocampus but not in the prefrontal cortex. Deprenyl treatment led to an enhancement of hippocampal BDNFmRNA concentrations in stress-exposed rats. Treatment with enhancer drugs failed to induce significant changes in stress hormone concentrations or anxiety behavior. In conclusion, the present study in chronically stressed rats showed that concomitant treatment with enhancer drugs did not provoke substantial neuroendocrine changes, but modified gene expression of selected parameters associated with brain plasticity. Observed changes may indicate a positive influence of enhancer drugs on brain plasticity, which is important for preventing negative consequences of chronic stress and enhancement of stress resilience. It may be suggested that the changes in glutamate receptor subunits induced by enhancer drugs are brain region-specific and not dose-related.

Congenital absence of vasopressin and age-dependent changes in ACTH and corticosterone stress responses in rats.

The hypothalamic components of the hypothalamo-pituitary-adrenal axis (HPA) are corticotropin-releasing hormone (CRH) and vasopressin. To test the hypothesis that HPA regulation changes with age, we compared ether and bacterial lipopolysaccharide (LPS) injection induced stress reactions in adult and 10-day-old Brattleboro rats, which naturally lack vasopressin owing to mutation of the gene (di/di). The LPS stimulus was used also with V(1b) receptor antagonist pretreatment (SSR149415). In adult di/di or V(1b) pretreated rats, we observed normal pituitary and adrenocortical secretory responses, while in all 10-day-old rats stress-induced serum corticosterone increases were marked, but adrenocorticotropin (ACTH) increases were significantly smaller. Compared to control pups the adenohypophysis of the 10-day-old di/di rats responded normally to CRH, but their adrenal glands were hyper-responsive to ACTH, while in adults there was greater secretion at both levels with no difference between the genotypes. The serum transcortin level was higher in adults than pups, with the di/di pups having higher transcortin levels than controls. Hence, using the same stressors in adults and pups with both a genetic model and pharmacological pretreatment, we have shown that the role of vasopressin in ACTH regulation is more important during the neonatal period than in adulthood. Blunted hypophysial sensitivity to CRH and similar adrenal gland sensitivity to ACTH in the pups compared to adults suggest that hypothalamic factors could be responsible for the neonatal stress hyporesponsive period.

The prepulse inhibition deficit appearance is largely independent on the circadian cycle, body weight, and the gender of vasopressin deficient Brattleboro rat.

OBJECTIVE: A disturbance of sensorimotor gating measured by prepulse inhibition of acoustic startle (PPI) is one of the best tests of the schizophrenia-like behavior. Vasopressin was implicated in the development of schizophrenia; therefore, the naturally occurring vasopressin-deficient Brattleboro rat has been suggested to be a reliable non-pharmacological animal model. However, previous studies focusing on PPI deficit did not use proper control and despite clear gender differences in the development of the disorder, the effect of gender has been mostly neglected. METHODS: First, we compared the "noise" and "tone" type prepulse at 73-77-81 dB intensity during the light or dark phase using small (~150 g) or big (~500 g) Wistar rats. The test parameters were validated by a pharmacological schizophrenia model (30 mg/kg ketamine i.p.). Than male, female, and lactating vasopressin-deficient animals were compared with +/+ ones. RESULTS: We established that the prepulse "noise" type is not optimal for PPI testing. The cycle of the day as well as the body weight had no effect on PPI. Even if we compared vasopressin-deficient animals with their closely related +/+ controls, the PPI deficiency was visible with more pronounced effect at 77 dB prepulse intensity similarly to pharmacological schizophrenia model. Despite our expectation, the gender as well as lactation had no effect on the vasopressin-deficiency induced PPI deficit. CONCLUSIONS: The present data confirmed and extended our previous studies that vasopressin-deficient rat is a good model of schizophrenia. It seems that female as well as lactating Brattleboro rats are useful tools for testing putative novel antipsychotics in line with special attention required for schizophrenic women.

Regulation of pituitary V1b vasopressin receptor messenger ribonucleic acid by adrenalectomy and glucocorticoid administration.

Regulation of the number of pituitary vasopressin (VP) receptors plays an important role in controlling pituitary responsiveness during alterations of the hypothalamic pituitary adrenal axis. The mechanisms regulating these VP receptors were studied by analysis of the effects of adrenalectomy and glucocorticoid administration on V1b receptor (V1b-R) messenger RNA (mRNA) by Northern blot and by in situ hybridization in the rat. Adrenalectomy transiently decreased V1b-R mRNA levels by 18 h (77% and 62% for the 3.7-kb and 3.2-kb bands in the Northern blots, and 50% by in situ hybridization), returning to basal levels after 6 days. The decrease in V1b-R mRNA after 18 h adrenalectomy was fully prevented by dexamethasone (100 microg s.c.) but not by elimination of hypothalamic CRH and VP by paraventricular nucleus lesions or median eminence deafferentation. In sham-operated rats, dexamethasone increased receptor mRNA by 50% after 6 days. In contrast to Sprague-Dawley rats, in Brattleboro rats (di/di), which lack hypothalamic VP, adrenalectomy caused a sustained decrease in V1b-R mRNA levels (<50% of controls by 6 days). The data show that pituitary V1b-R mRNA is positively regulated by glucocorticoids and that the recovery of V1b-R mRNA levels after prolonged adrenalectomy is probably mediated by VP. In addition, the data suggest that the down-regulation of VP binding after long-term adrenalectomy is due to posttranscriptional events rather than to changes in V1b-R mRNA.

Alpha 2-adrenoreceptor subtypes regulate ACTH and beta-endorphin secretions during stress in the rat.

The effect of different alpha 2-adrenoreceptor subtype agonists and antagonists on adrenocorticotrop hormone (ACTH) and beta-endorphin release induced by ether stress was examined. Ether inhalation-induced ACTH and beta-endorphin increase was inhibited by i.c.v. administration of 30 micrograms but not 1 and 10 micrograms clonidine (alpha 2-adrenoreceptor agonist). I.c.v. oxymetazoline (alpha 2A-adrenoreceptor agonist; 1-10-30 micrograms) or the alpha 1-agonist methoxamine (100 micrograms/rat) failed to inhibit the stress-induced rise. Pretreatment with the alpha 1/alpha 2B.C-antagonist prazosin (0.5 mg/kg, i.p.) prevented the effect of clonidine on the ether stress, while the alpha 1/alpha 2A-antagonist WB-4101 (0.5 mg/kg, i.p.) was unable to counteract the inhibitory effect of clonidine. Prazosin alone had no effect on the ether-induced plasma ACTH and beta-endorphin elevation. These results suggest that noradrenaline in the central nervous system may inhibit the stress-induced hypothalamo-pituitary-axis and pituitary beta-endorphin activation via alpha 2B.C-adrenoceptor subtypes and prazosin may antagonize its effect on these receptors.

Maternal genotype influences stress reactivity of vasopressin-deficient brattleboro rats.

The role of vasopressin, cosecreted with corticotropin-releasing hormone (CRH), in stress is debated, because both normal as well as reduced adrenocorticotropin hormone (ACTH) rise to an acute challenge has been reported in Brattleboro rats genetically lacking vasopressin (di/di). Because di/di pups could be born either from di/+ (heterozygous) or from di/di mothers, and maternal influence is known to modify adult responsiveness, we investigated whether the influence of maternal genotype could explain the variability. Adult rats from mothers with different genotypes were stressed with 60 min restraint and trunk blood was collected for measuring hormone content by radioimmunoassay at the end of stress. All offspring of di/+ mothers had similar ACTH responses to restraint, while the di/di rats born to, and raised by di/di mothers showed reduced ACTH reactivity to restraint. The di/di rats showed elevated water turnover and required a daily cage cleaning every day, which meant frequent handling. To offset the role of handling, all rats had daily cage cleaning in the next series, but the results were the same as in the first series. To investigate whether lactation, the behaviour of the mother or some other factor during the pregnancy is responsible for the differences, pups from di/+ dams were raised by di/di foster mothers and vice versa. We found that the genotype of parental mother is more important than that of the foster mother. The corticosterone and prolactin elevation normally seen after acute stress was unchanged by family history, maternal or personal genotype. Furthermore, in studies with mutant animals, the rearing conditions should be controlled by the experimenter. In experiments with Brattleboro rats, the use of homozygous and heterozygous rats from the same litters of di/+ dams and di/di males is recommended. Our results suggest that vasopressin is not indispensable for ACTH release, and that the di/di genotype of the parental mother can decrease the stress reactivity of the di/di Brattleboro rats.

Regulation of pituitary corticotropin releasing hormone (CRH) receptor mRNA and CRH binding during adrenalectomy: role of glucocorticoids and hypothalamic factors.

The role of glucocorticoids and hypothalamic factors on CRH receptor expression in the pituitary were studied by analysis of the effects of adrenalectomy and suppression of CRH and VP secretion by hypothalamic lesions in the rat. Consistent with previous in situ hybridization studies, Northern blots showed that pituitary CRH receptor mRNA decreased only transiently after adrenalectomy, falling to 51% of the control levels after 18 h, and returning to control values after 6 days (112%). The early decrease was prevented by dexamethasone injection, 100 micrograms, s.c. The role of increased levels of CRH and VP in the pituitary portal circulation on the transient decrease in CRH receptor mRNA levels after adrenalectomy were studied by in situ hybridization in rats subjected in PVN lesions or median eminence deafferentation by hypothalamic anterolateral cuts (ALC). PVN lesion (12 days) or ALC (8 days) resulted in undetectable irCRH and VP in the external zone of the median eminence and had no effect on basal levels of pituitary POMC mRNA, CRH binding and CRH receptor mRNA. In sham lesioned rats, adrenalectomy for 18 h or 4 days caused the expected increases in pituitary POMC hnRNA and mRNA, and decreases in CRH binding. CRH-R mRNA levels decreased by about 50% after 18 h adrenalectomy but returned to basal by 4 days. PVN lesion or ALC fully prevented the fall in CRH binding after 18 h or 4 days adrenalectomy and the increase in POMC mRNA after 4 days adrenalectomy, whereas only attenuated the decrease in CRH receptor mRNA and increase in POMC mRNA levels after 18 h adrenalectomy. Administration of a CRH antagonist did not affect CRH receptor mRNA and POMC hnRNA and mRNA indicating that residual CRH in the median eminence after hypothalamic surgery is not responsible for the effect of adrenalectomy. These studies confirm previous in situ hybridization studies showing that adrenalectomy causes transient decreases in pituitary CRH receptor mRNA levels. The data indicate that while increases in hypothalamic CRH secretion following glucocorticoid withdrawal mediate pituitary CRH receptor binding loss and the increase in POMC expression after long-term adrenalectomy, CRH only partially accounts for the early changes in CRH receptor mRNA and POMC mRNA.

The effect of neurointermediate lobe denervation on hypothalamic neuroendocrine dopaminergic neurons.

The contribution of tuberohypophyseal and periventricular-hypophyseal dopaminergic neurons to the regulation of the secretion of prolactin (PRL) has yet to be clarified. In this study, we used pituitary stalk compression to disrupt hypothalamic neural input to the neurointermediate lobe (NIL). Neurointermediate lobe denervation (NIL-D) selectively disrupts the axons of tuberohypophyseal and periventricular-hypophyseal dopaminergic neurons, while leaving tuberoinfundibular dopaminergic neurons and the vascular supply of the pituitary gland intact. NIL-D was performed in ovariectomized (OVX) rats. The concentration of DA and 3,4-dihydroxyphenylacetic acid (DOPAC) in the median eminence (ME) and various regions of the pituitary gland of OVX and OVX+NIL-D rats were measured by HPLC-EC. The concentration of PRL, alpha-melanocyte stimulating hormone (alpha-MSH), and luteinizing hormone (LH) in serum were determined by radioimmunoassay. Successful NIL-D was confirmed by increased water intake. One week after NIL-D, serum PRL and alpha-MSH were elevated, but there was no change in the concentration of LH in serum. The concentration of DA was increased in the median eminence (ME), decreased in the outer zone of the anterior lobe (AL-OZ), as well as the intermediate (IL) and neural lobes (NL), and remained unchanged in the inner zone of the anterior lobe (AL-IZ). The concentration of DOPAC was increased in the ME and NL, decreased in the IL, and remained unchanged in both the AL-IZ and AL-OZ. These data confirm that pituitary stalk compression denervates the NIL. Moreover, decreases in the concentration of DA in the IL and AL-OZ, coupled with elevation of serum PRL and alpha-MSH indicate that DA from the NIL contributes to the increased inhibition of the secretion of PRL and alpha-MSH in OVX rats.

Social stress of variable intensity: physiological and behavioral consequences.

Stress effects in humans depend on stress type, intensity, and duration. Animal models of social stress serve as good ways to mimic stress experienced in humans. However, the available stress paradigms pay little attention to the relationship between the intensity and the type of social stressors. The aim of the present work is to study behavioral and endocrinological consequences of social stress by varying the intensity and type of agonistic social contacts. Subjects were exposed to the attacks of an experienced fighter resident rat once a day for 4 consecutive days. Mild versus strong effects were studied by varying the length of daily confrontations (30 min vs. 4 h). The type of social confrontations was varied by ceasing or maintaining sensory contacts among contestants between encounters. Endocrinological variables were measured on the 5th day. Anxiety was assessed by means of the elevated plus-maze. The stress state depended on the length of daily encounters: 30-min encounters did not, whereas 4-h encounters did result in weight loss and chronic elevation of plasma corticosterone. The type of contacts between subjects and dominants also affected the resulting stress state: adrenal hypertrophy was obtained only when contacts between contestants were maintained between encounters. Although the mildest stress procedure (30-min encounters on 4 consecutive days) did not affect endocrinological variables, it resulted in subtle behavioral modifications that changed the anxiety-related effects of additional acute stressors. Thus, anxiety-related behavioral changes resulting from repeated mild stressors may be hidden factors that can have long-term consequences on the development of anxiety-like behavioral deficits. Results outline the necessity of studying the effects of social stressors of different intensities and different types.

The role of endogenous cannabinoids in the hypothalamo-pituitary-adrenal axis regulation: in vivo and in vitro studies in CB1 receptor knockout mice.

Exogenous cannabinoids affect multiple hormonal systems including the hypothalamo-pituitary-adrenocortical (HPA) axis. These data suggest that endogenous cannabinoids are also involved in the HPA control; however, the mechanisms underlying this control are poorly understood. We assessed the role of endogenous cannabinoids in the regulation of the HPA-axis by studying CB1 receptor knockout (KO) and wild type (WT) mice. Basal and novelty stress-induced plasma levels of adrenocorticotropin (ACTH) and corticosterone were higher in CB1-KO than in WT mice. We investigated the involvement of the pituitary in the hormonal effects of CB1 gene disruption by studying the in vitro release of ACTH from anterior pituitary fragments using a perifusion system. Both the basal and corticotropin releasing hormone (CRH)-induced ACTH secretion were similar in CB1-KO and WT mice. The synthetic glucocorticoid, dexamethasone suppressed the CRH-induced ACTH secretion in both genotypes; thus, the negative feedback of ACTH secretion was not affected by CB1 gene disruption. The cannabinoid agonist, WIN 55,212-2 had no effects on basal and CRH-stimulated ACTH secretion by anterior pituitary slices. In our hands, the disruption of the CB1 gene lead to HPA axis hyperactivity, but the pituitary seems not to be involved in this effect. Our data are consistent with the assumption that endogenous cannabinoids inhibit the HPA-axis via centrally located CB1 receptors, however the understanding of the exact underlying mechanism needs further investigation.

Monosodium glutamate lesions inhibit the N-methyl-D-aspartate-induced growth hormone but not prolactin release in rats.

Large doses of glutamate administered to newborn rats damage permanently the neurones in the hypothalamic arcuate nucleus containing the growth hormone releasing hormone and the prolactin inhibiting dopamine neuron cell bodies. Since adult animals that underwent neonatal glutamate treatment still have a relatively well functioning growth hormone and prolactin system, we tested whether in the adults the excitatory amino acid sensibility is changed. After i.v. injection of different doses (10 or 30 mg/kg) of N-methyl-D-aspartate (excitatory amino acid receptor subtype agonist) growth hormone levels were significantly increased in the control groups but there was no rise in neonatally glutamate treated male and female rats. The level of prolactin was increased by N-methyl-D-aspartate, too, but the glutamate treatment had no effect on the rise. Our study suggests that systemic administration of N-methyl-D-aspartate increases plasma growth hormone level by activating the growth hormone releasing cells in the arcuate nucleus, but the intact tuberoinfundibular dopaminergic pathway is not essential for its prolactin stimulatory effect.

Derivatives of benzo(c)fluorene. VI. Antiviral and interferon-inducing activities of three benzo(c)fluorenone derivatives in mice.

The antiviral effect of 3 derivatives of benzo(c)fluorenone against encephalomyocarditis (EMC) and vaccinia viruses in mice was compared with that of tilorone hydrochloride (THCl). All 3 derivatives were effective against either virus following single-dose oral application as well as after 4-times repeated subcutaneous (s.c.) treatment, but following oral administration only the VUFB 14162 derivative exerted an antiviral effect corresponding to that of THCl. After s.c. application, however, VUFB 14162 derivative was less toxic than THCl. Two benzo(c)fluorenone derivatives, namely VUFB 14162 and 13431, induced in mouse sera the levels of interferon (IFN), which production kinetics and hyporeactivity phenomenon were comparable with those induced by THCl. Because no IFN was found following administration of the third VUFB 13371 derivative, its antiviral effect consisted probably in an other than IFN-inducing mechanism.

Syntheses of virus-induced thymidine kinase and viral DNA in herpes simplex type 1 virus-infected chick embryo fibroblasts.

Herpes simplex virus type 1, strain Kupka, did not replicate in chick embryo fibroblasts (CEF), but the infection was followed by the development of cytopathic changes. This effect could be abolished by UV irradiation of the virus. Virus-induced thymidine kinase was synthesized in the infected cells reaching a maximum level at 24 hours post infection (p.i.). In the presence of cytosine arabinoside, thymidine kinase synthesis was enhanced. This suggested that the late (post-replicative) viral function, which turns off thymidine kinase synthesis, was expressed in the infected CEF untreated with the drug. HSV type 1 laboratory strains Kupka and KOS were capable of inducing the synthesis of virus-specific DNA in CEF. But in CEF infected with fresh type 1 virus isolates replication of viral DNA was not observed.

A wider view on gastric erosion: detailed evaluation of complex somatic and behavioral changes in rats treated with indomethacin at gastric ulcerogenic dose.

OBJECTIVE: Gastric erosion is widespread side effect of nonsteroidal anti-inflammatory drugs. To examine the complexity of the brain-gut axis regulation, indomethacin-induced gastric erosion formation was studied in connection with somatic and behavioral changes. METHODS: During a constant telemetric recording of heart rate, body temperature, and locomotion of male rats we examined the effects of 24 h fasting, indomethacin (35 mg/kg s.c.) injection, and refeeding at 4 h. Behavior was analyzed on elevated plus maze (EPM) at 24 h and somatic changes at 72 h. RESULTS: Gastric erosion developed 4 h after indomethacin injection, healed 72 h later contrasted by large injury in the small intestine. As classical signs of chronic stress, body and thymus weight were reduced while adrenal weight was enhanced 72 h after indomethacin injection. Fasting by itself changed all telemetrically recorded parameters with most prominent decrease in heart rate. Indomethacin induced similar diminishing effects with earliest and strongest temperature decrease. As a sign of more anxious phenotype locomotion reducing effect of indomethacin injection was detected on EPM. The EPM-induced temperature elevation was missing in indomethacin-treated animals. CONCLUSIONS: Fasting by itself induce somatic changes, which can make the animals more vulnerable to ulcerogenic stimuli. Development of indomethacin-induced gastrointestinal lesions happened in parallel with disturbances of heart rate, core body temperature, and chronic stress-like somatic changes as well as anxiety-like behavior. We have to be more aware of the existence of the brain-gut axis and should study changes in the whole body rather than focusing on a specific organ. elevated plus maze.

Early life adversity and serotonin transporter gene variation interact at the level of the adrenal gland to affect the adult hypothalamo-pituitary-adrenal axis.

The short allelic variant of the serotonin transporter (5-HTT) promoter-linked polymorphic region (5-HTTLPR) has been associated with the etiology of major depression by interaction with early life stress (ELS). Furthermore, 5-HTTLPR has been associated with abnormal functioning of the stress-responsive hypothalamo-pituitary-adrenal (HPA) axis. Here, we examined if, and at what level, the HPA-axis is affected in an animal model for ELS × 5-HTTLPR interactions. Heterozygous and homozygous 5-HTT knockout rats and their wild-type littermates were exposed daily at postnatal days 2-14 to 3 h of maternal separation. When grown to adulthood, plasma levels of adrenocorticotropic hormone (ACTH), and the major rat glucocorticoid, corticosterone (CORT), were measured. Furthermore, the gene expression of key HPA-axis players at the level of the hypothalamus, pituitary and adrenal glands was assessed. No 5-HTT genotype × ELS interaction effects on gene expression were observed at the level of the hypothalamus or pituitary. However, we found significant 5-HTT genotype × ELS interaction effects for plasma CORT levels and adrenal mRNA levels of the ACTH receptor, such that 5-HTT deficiency was associated under control conditions with increased, but after ELS with decreased basal HPA-axis activity. With the use of an in vitro adrenal assay, naïve 5-HTT knockout rats were furthermore shown to display increased adrenal ACTH sensitivity. Therefore, we conclude that basal HPA-axis activity is affected by the interaction of 5-HTT genotype and ELS, and is programmed, within the axis itself, predominantly at the level of the adrenal gland. This study therefore emphasizes the importance of the adrenal gland for HPA-related psychiatric disorders.

Role of ionotropic glutamate receptors in the control of prolactin secretion by other neurotransmitters and neuropeptides at the level of the pituitary.

OBJECTIVE: Although prolactin (PRL) plays an important role in the milk production, it has also many other functions. PRL secretion can be inhibited by dopamine and stimulated by serotonin, thyrotropin releasing hormone (TRH), and vasoactive intestinal peptide (VIP). However, the exact mechanisms of PRL regulation are still not fully understood. Glutamate is also a potent elevator of PRL secretion. It has several receptors: ionotropic NMDA (N-methyl-D-aspartate) and non-NMDA as well as metabotropic receptors. Our interest was to find out whether endogenous glutamate may act at the hypophyseal level and affect the PRL regulating neurotransmitters (dopamine, serotonin, TRH, VIP). METHODS: MK-801 as NMDA blocker and GYKI52466 as a non-NMDA antagonist were used in this study. For dopamine and serotonin experiments intraperitoneal drug administration and blood sampling were applied. On the other hand, TRH and VIP effect on PRL secretion was studied in in vitro conditions by incubating them with a half 300*300nm choppered anterior pituitary gland of the adult male rats. RESULTS: The basal PRL levels were not influenced by the glutamate antagonists used either alone or combined in both in vivo and in vitro conditions. We failed to reveal interaction between dopamine-, serotonin-, and TRH-induced PRL rise and antagonists treatment. MK-801 had a significant inhibitory effect on VIP-induced PRL changes. CONCLUSIONS: Our data confirmed the regulatory role of dopamine, serotonin, and TRH on PRL secretion, however, the interaction between these and glutamatergic systems was not confirmed, at least not via the ionotropic receptors. On the other hand, the endogenous glutamate can through the NMDA receptor subtype contribute to the VIP-induced PRL secretion at the level of the anterior pituitary. This regulation may be especially important during suckling and stress response when rapid release of PRL is required.

Does chronic stress enhance the risk of diseases?

OBJECTIVE: In the everyday life, stress is deemed as something unfavorable that may enhance the risk for the development or worsen a disease. However, in its nature, stress is adaptive reaction of the body. Its main characteristic is the activation of the hypothalamic-pituitary-adrenocortical (HPA) axis. Previously, we have shown that activation of the HPA axis plays a gastroprotective role during acute stress. The aim of our study was to clarify the effects of chronic stress and chronically elevated basal corticosterone levels on the gastric ulceration and cardiovascular vulnerability in rats. METHODS: Male Wistar rats were repeatedly restrained 60 min daily for 14 days and examined on day 15th. The gastric ulceration was induced by a s.c. injection of indomethacin (35 mg/kg). The cardiovascular vulnerability was examined in urethane-anaesthetized rats in an experimental angina pectoris model (epinephrine, 10 µg/kg, 30 s later phentolamine, 15 mg/kg, both i.v.). RESULTS: We confirmed the development of chronic stress consequences by changes in several somatic parameters (body weight decrease, thymus involution, adrenal gland hypertrophy), and elevated resting corticosterone levels. However, the gastroprotective effect of chronic stress was not manifested and there was no aggravation of indomethacin-induced gastric ulceration, either. In the experimental angina pectoris model, previous chronic stress did not have any profound effect on the blood pressure, heart rate, and electrocardiogram changes. CONCLUSIONS: In contrast to the general view on the harmfulness nature of the stress, we were unable to find a harmful effect of chronic stress on the internal diseases (gastric ulceration and angina pectoris). However, its protective effect was also missing among present experimental conditions.

Oxytocin in Brattleboro rats: increased synthesis is contrasted by blunted intrahypothalamic release from supraoptic nucleus neurones.

Adult male Brattleboro rats were used to investigate the impact of the congenital absence of vasopressin on the release pattern of oxytocin (OXT) within the hypothalamic supraoptic nucleus (SON) in response to a 10-min forced swimming session and osmotic stimulation. Both immunohistochemical and in situ hybridisation data suggest that vasopressin-deficient animals have more oxytocin-synthesising neurones in the SON than homozygous wild-type controls. Unexpectedly, both forced swimming and peripheral osmotic stimulation resulted in a blunted release profile of oxytocin within the SON of vasopressin-deficient rats compared to controls. A similar intranuclear OXT response to direct osmotic stimulation of the SON by retrodialysis with hypertonic Ringer's solution in both genotypes confirmed the capability of SON neurones to locally release oxytocin in vasopressin-deficient rats, indicating an altered processing of information originating from multisynaptic inputs rather than a deficit in release capacity. Taken together with data obtained in previous studies, the present findings provide evidence suggesting that autocrine and paracrine signalling of magnocellular neurones differs within the paraventricular nucleus and the SON. Thus, significant alterations in intra-SON oxytocin mRNA levels cannot easily be extrapolated to intranuclear release profiles and the local signal intensity of this neuropeptide after physiological stimulation.

The biochemical complexity of the endocannabinoid system with some remarks on stress and related disorders: a minireview.

Nowadays, the endocannabinoid-regulated processes are in the focus of interest, among others, for the treatment of stress-related disorders. In this minireview, we attempt to give some possible explanations for the conflicting results of the cannabinoidergic regulation of the hypothalamo-pituitary-adrenocortical (HPA) axis and related disorders, drawing attention to the complexity of the endocannabinoid system. The endocannabinoid system is a part of an intricate network of lipid pathways and consists of the cannabinoid receptors, their endogenous ligands, and the enzymes catalyzing their formation and degradation. The stress research is focused almost exclusively on the anandamide and 2-arachidonyl glycerol, and the cannabinoid 1 receptor. However, physiological, pathological, and pharmacological perturbations of the interconnected lipid pathways have a profound effect on the regulation of the endocannabinoid signaling system. For example, diet may substantially influence the lipid composition of the body. Recent studies have indicated that beside cannabinoid 1 receptor, the endocannabinoids may act on the cannabinoid 2, peroxisome proliferator-activated, and transient receptor potential of vanilloid type-1 receptors, too. All of these receptors are implicated in the development of stress-related disorders. However, it has to be mentioned that degradation of the endocannabinoids may result in the production of active compounds as well. Since endocannabinoids have a widespread distribution in the body, they may influence a phenomenon at several points. Different effects (stimulatory or inhibitory) at different levels of endocannabinoids (e.g. hypothalamus, hypophysis, adrenal gland in the case of HPA axis) may explain some of their unequivocal results.