Zsuzsa Mergl

Effects of repeated restraint stress on hypothalamo-pituitary-adrenocortical function in vasopressin deficient Brattleboro rats.

Arginine-vasopressin (AVP) has been proposed to be an important mediator during chronic stress in the regulation of the hypothalamo-pituitary-adrenal axis. In the present study we addressed the role of AVP in maintaining adrenocortical responsiveness during chronic stress using the AVP deficient mutant Brattleboro rat. Heterozygous Brattleboro rats (di/+) served as controls and were compared to homozygous rats (di/di) with diabetes insipidus. Sixty minutes daily restraint was repeated for 5, 8, 11 or 15 days and organ weights, plasma adrenocorticotropin (ACTH) and corticosterone levels and anterior pituitary proopiomelanocortin (POMC) mRNA and ACTH content were measured. The body, adrenal and thymus weight changes induced by chronic stress became significant between 5 and 8 repetition and AVP deficiency had no effect on these parameters. The first indication that AVP has a role to play appears after 11 repetitions. In the di/di group at the end of 11th restraint, the plasma ACTH was decreased when compared to the di/+ rats. In animals with indwelling cannulas some adaptation could be seen in ACTH response without any difference between di/+ and di/di rats after 15 restraints. The corticosterone- and prolactin-elevations induced by restraint did not habituate in the di/+ and the di/di rats. Chronic stress increased POMC mRNA in the anterior pituitary similarly in di/+ and di/di rats. Although AVP seems to be necessary for a full ACTH response, most of the other signs of chronic stress after repeated restraint occur unchanged in the absence of AVP in both genders. This suggests that either AVP is not indispensable for activating the hypothalamo-pituitary-adrenocortical system by chronic stress or the absence of AVP is compensated by other mediators in Brattleboro rats.

Glutamate agonists activate the hypothalamic-pituitary-adrenal axis through hypothalamic paraventricular nucleus but not through vasopressinerg neurons.

The hypothalamic-pituitary-adrenal (HPA) axis plays a crucial role in the stress processes. The nucleus paraventricularis hypothalami (PVN) with corticotropin-releasing hormone (CRH)-containing and arginine vasopressin (AVP)-containing neurons is the main hypothalamic component of the HPA. The glutamate, a well-known excitatory neurotransmitter, can activate the HPA inducing adrenocorticotropin hormone (ACTH) elevation. The aim of our study was to examine the involvement of PVN and especially AVP in glutamate-induced HPA activation using agonists of the N-methyl-d-aspartate (NMDA) and kainate receptors. Two approaches were used: in male Wistar rats the PVN was lesioned, and AVP-deficient homozygous Brattleboro rats were also studied. Blood samples were taken through indwelling cannula and ACTH, and corticosterone (CS) levels were measured by radioimmunoassay. The i.v. administered NMDA (5 mg/kg) or kainate (2.5 mg/kg) elevated the ACTH and CS levels already at 5 min in control (sham-operated Wistar or heterozygous Brattleboro) rats. The PVN lesion had no influence on basal ACTH and CS secretion but blocked the NMDA- or kainate-induced ACTH and CS elevations. The lack of AVP in the Brattleboro animals had no significant influence on the basal or glutamate-agonists-induced ACTH and CS elevations. Our results suggest that NMDA and kainate may activate the HPA axis at central (PVN) level and not at the level of pituitary or adrenal gland and that AVP has minor role in glutamate-HPA axis interaction. The time course of the ACTH secretion was different with NMDA or kainate. If we compared the two curves, the results were not coherent with the general view that NMDA activation requires previous kainate activation. Although it has to be mentioned that the conclusion which can be drawn is limited, the bioavailability of the compounds could be different as well.

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.

Chronic repeated restraint stress increases prolactin-releasing peptide/tyrosine-hydroxylase ratio with gender-related differences in the rat brain

In this study, we investigated the effect of chronic repeated restraint (RR) on prolactin‐releasing peptide (PrRP) expression. In the brainstem, where PrRP colocalize with norepinephrine in neurons of the A1 and A2 catecholaminergic cell groups, the expression of tyrosine hydroxylase (TH) has also been examined. In the brainstem, but not in the hypothalamus, the basal PrRP expression in female rats was higher than that in the males that was abolished by ovariectomy. RR evoked an elevation of PrRP expression in all areas investigated, with smaller reaction in the brainstems of females. There was no gender‐related difference in the RR‐evoked TH expression. Elevation of PrRP was relatively higher than elevation of TH, causing a shift in PrRP/TH ratio in the brainstem after RR. Estrogen α receptors were found in the PrRP neurons of the A1 and A2 cell groups, but not in the hypothalamus. Bilateral lesions of the hypothalamic paraventricular nucleus did not prevent RR‐evoked changes. Elevated PrRP production parallel with increased PrRP/TH ratio in A1/A2 neurons indicate that: (i) there is a clear difference in the regulation of TH and PrRP expression after RR, and (ii) among other factors this may also contribute to the changed sensitivity of the hypothalamo‐pituitary–adrenal axis during chronic stress.

Congenital vasopressin deficiency and acute and chronic opiate effects on hypothalamo-pituitary–adrenal axis activity in Brattleboro rats

A growing body of evidence suggests that vasopressinergic activity in the hypothalamus is important in stress-related behaviors (like drug abuse) in line with a role in the regulation of the hypothalamo-pituitary-adrenal axis (HPA). We hypothesized that in the naturally vasopressin-deficient Brattleboro rat, acute and chronic morphine treatment may lead to reduced HPA axis activity. Rats were treated either with a single dose of morphine (10 mg/kg subcutaneously) and serial blood samples were taken or were treated twice daily with increasing doses of morphine (10-100 mg/kg subcutaneously) for 16 days and animals were killed by decapitation 4 or 16 h after the last injection. Single morphine injection induced a biphasic ACTH and corticosterone elevation with smaller increases in vasopressin-deficient rats. Chronic morphine treatment induced the typical somatic and HPA axis changes of chronic stress; the absence of vasopressin did not prevent these changes. In rats repeatedly treated with morphine plasma, ACTH and corticosterone levels were elevated both 4 and 16 h after the last injection (short and long withdrawal) and the absence of vasopressin attenuated this response. Our data suggest that vasopressin plays a prominent role in morphine treatment and withdrawal-induced acute hormonal changes, but does not affect development of chronic hyperactivity of the HPA axis.

Postnatal development in vasopressin deficient Brattleboro rats with special attention to the hypothalamo-pituitary–adrenal axis function: the role of maternal genotype

Anomalies in hormonal and neurotransmitter status during perinatal period can lead to lifespan alterations in the central nervous system. Vasopressin is present early in the brain and has various mitogenic, metabolic and physiological actions, e.g. in water homeostasis or in the regulation of the hypothalamo‐pituitary–adrenal (HPA) axis. Therefore we examine the possible role of vasopressin in perinatal development with special attention to the influence of maternal genotype and to the HPA axis regulation. We compared homozygous vasopressin deficient (di/di) Brattleboro rats to their heterozygous (di/+) littermates both from di/+ and di/di mother. Higher locomotion due to reduced adaptation was present at preweaning. During the first 10 days of life the di/di pups from di/di mother were the smallest, while in the later perinatal period the genotype of the pups became the more important determinant of the somatic development, namely the di/di pups from both mothers had reduced weight gain. Generally the lack of vasopressin in the pups fastened the somatic development (pinna detachment, eye and ear opening, incisor eruption) however the neurobehavioral development (palmar grasp reflex, righting reflex, negative geotaxis, etc.) was not influenced profoundly by either the mothers or the pups genotype. The lack of vasopressin in pups abolished the 24 h maternal separation induced adrenocorticotrop hormone (ACTH) elevation while the accompanying corticosterone rises were even higher. The vasopressin deficiency of the mother reduced the resting ACTH and all corticosterone levels in all pups. So we can conclude that the lack of vasopressin speeds up the development, probably there is a greater drive for self‐sufficiency in these animals. The mothers vasopressin deficiency reduced the HPA axis reactivity of the pups. The role of vasopressin in the HPA axis regulation is important during the perinatal period independently from the mothers genotype. The large discrepancy between ACTH and corticosterone regulation requires further studies.

The role of vasopressin in diabetes mellitus-induced hypothalamo-pituitary-adrenal axis activation: studies in Brattleboro rats.

Chronic diabetes mellitus (DM) induces hyperactivity of the hypothalamo-pituitary-adrenal axis (HPA). Our present study addresses the role of vasopressin (AVP) in maintaining adrenocortical responsiveness during DM. AVP-deficient mutant Brattleboro rats were used with heterozygous controls and the V2 agonist, desmopressin was infused to replace peripheral AVP. To induce DM the rats were injected by streptozotocin (STZ, 60 mg/ml/kg i.v.) and studied 2 weeks later. The acute stress stimulus was 60 min restraint. The signs of DM (the increase in water consumption and in blood glucose levels) were discovered in all rats. The diuretic effect of the lack of AVP was additional to the DM-induced osmotic diuresis. DM induced significant, chronic stress-like somatic changes on which AVP-deficiency had no effect and although desmopressin infusion normalized the water consumption and the body weight gain in AVP-deficient rats, it had no effect on DM-induced changes. The acute stress-induced plasma ACTH elevation was smaller in AVP-deficient or DM rats but these effects were not additive. Desmopressin did not normalize the decreased ACTH-elevation of AVP-deficient animals. The resting morning plasma corticosterone level was elevated both in DM and AVP-deficient rats without interaction. The restraint-induced corticosterone rise was influenced neither by the lack of AVP nor by DM and the basal and stress-induced prolactin levels were smaller in DM rats without any effect of AVP-deficiency. In conclusion, our data suggest that AVP does not play a crucial role in HPA axis regulation during DM-induced chronic stress. In contrast, the role of AVP seems to be more important during acute stress, however, it is restricted to the ACTH regulation. According to the water consumption data diabetes insipidus seems to be an additional risk factor for DM.

Detection of a novel immunoreactive endomorphin 2-like peptide in rat brain extracts

To pursue further the possible de novo biosynthetic pathway of endomorphins in rat brain we raised antibodies to endomorphin-2 conjugate in rabbits. Antiserum R1 recognized endomorphin-2 with good selectivity as compared to endomorphin-1 with a median detection value of 65.5+/-7.5 pg/tube (n=7), whereas R4 antiserum recognized both endomorphins with similar sensitivity. Neither antisera recognized YP-related di- or tripeptides or YGGF-related opioid sequences (enkephalins, beta-endorphin, dynorphin). Using the same rat brain extraction-RP-HPLC-gradient separation paradigm as previously, antisera detected 144.6+/-40.0 (n=3) pg/g wet brain weight endomorphin-2-like immunoreactivity in the fraction corresponding to standard endomorphin-2 retention time and also in the fraction matching endomorphin-2-OH standard retention time (179.1+/-30.1 pg/g). Since R1 failed to recognize authentic endomorphin-2-OH, the second immunoreactive species must be different from both endomorphin-2 and endomorphin-2-OH. Possible biosynthetic intermediates to endomorphins, synthetic YPFFG and YPWFG had retention times close to the parent endomorphin standards in RP-HPLC gradient separation profile. The former was a mu-opioid receptor agonist of medium potency in the in vitro assays (rat brain RBA&GTP gamma S binding and mouse vas deferens), whereas the latter was a weak mu-opioid receptor agonist with a significant delta-opioid receptorial action as well and a definite indication of partial agonism.

Gender‐specific Regulation of the Hypothalamo‐pituitary‐adrenal axis and the Role of Vasopressin during the Neonatal Period

Studies in arginine vasopressin (AVP)‐deficient Brattleboro rats suggest that AVP is the predominant secretagogue during the perinatal period. Here we tested the hypothesis that congenital lack of vasopressin differentially modifies the stress reactivity of male and female rat pups. Vasopressin‐producing (heterozygous, AVP+) and AVP‐deficient (AVP−) Brattleboro rat pups of both genders were used. In 10‐day‐old pups, 24‐h maternal separation and single, as well as repeated, ether inhalation induced remarkable adrenocorticotropin (ACTH) elevation only in AVP+ pups, supporting the role of vasopressin in hypothalamo‐pituitary‐adrenal (HPA) axis regulation. Surprisingly, the corticosterone elevations were even more pronounced in AVP− pups, suggesting the possibility of an ACTH‐independent corticosterone‐secretion regulation. In the case of maternal separation, both the plasma ACTH and corticosterone levels were higher in females than in males, while in case of ether inhalation only the ACTH levels were higher in females. Gender did not influence the stress reactivity or the effect of the genotype. We conclude that the gender of the pups did not profoundly influence HPA axis activity (the mechanism seems to be the same), but in contrast to the general view, we suggest that the females have a more active HPA axis than the males already during the neonatal period. However, the resting corticosterone elevation—well known in adult females— is missing.

Maternal genotype can influence the outcome of a study on mutant animals

Abstract: The hypothalamo‐pituitary‐adrenal (HPA) axis plays a crucial role in stress. One of its central regulatory components is arginine‐vasopressin (AVP). We studied the role of AVP in acute restraint in AVP‐deficient mutant Brattleboro rats (AVP−), but our results were variable. The early life period is important in the later stress reactivity of the animals. We realized that our AVP− pups could be born from AVP+ (heterozygous) or from AVP− mothers. Therefore, we asked whether the genotype of the mother could explain the variability. Adult rats from AVP+ and AVP− mothers were stressed with 60 min of restraint. Trunk blood was collected for measuring hormone content by radioimmunoassay. All offspring of AVP+ mothers had similar adrenocorticotropic hormone (ACTH) responses to restraint, whereas the AVP− rats born to AVP− mothers showed reduced ACTH reactivity. Our results show that the AVP− genotype of the mother can decrease the stress reactivity of AVP− Brattleboro rats. In mutant/knockout animals, family background should be taken into account as well as the genotype of the studied animals.