Modulation of oxytocin secretion by ascending noradrenergic pathways: sexual dimorphism in rats

We have investigated the role of ascending noradrenergic pathways in the control of oxytocin (OT) and arginine-vasopressin (AVP) secretion during acute immobilization stress in male and female rats. 6-Hydroxydopamine-induced lesions of the ventral noradrenergic bundle (VNAB) resulted in a selective depletion of hypothalamic noradrenaline content. In sham-lesioned rats plasma levels of OT were raised following stress, the response being significantly greater in female compared with male animals. VNAB lesions were not associated with altered responses in female rats, whereas lesioned males exhibited markedly elevated OT stress responses. AVP secretion was not modulated in VNAB-lesioned rats of either sex. The results provide functional evidence of a sexually dimorphic inhibitory role of the VNAB in the control of OT secretion.     

Naloxone Disinhibits Magnocellular Responses to Osmotic and Volemic Stimuli in Chronically Hypoosmolar Rats

Normonatremic and chronically hyponatremic rats were pretreated with naloxone (5 mg/kg) or isotonic (1 50 mM) NaCI, then were given i.v. injections of 2 M NaCl (2 ml) or were hemorrhaged (20 ml/kg). Baseline and post-stimulus blood samples were withdrawn through indwelling jugular venous catheters. Baseline levels of plasma vasopressin (AVP) and oxytocin (OT) were similar in both normonatremic and hyponatremic rats and did not change after naloxone pretreatment. Increases in plasma AVP and OT levels in response to both hypertonic saline and hemorrhage were markedly blunted in the hyponatremic rats compared to the normonatremic rats. Naloxone pretreatment caused augmented AVP and OT secretion in response to hypertonic saline stimulation and hemorrhage in both the normonatremic and hyponatremic rats; the magnitude of the naloxone augmentations in the hyponatremic rats were sufficient to normalize the OT response to hypertonic saline and both the OT and AVP responses to hemorrhage. Our results therefore suggest that endogenous opioids are likely involved in the inhibition of stimulus-induced AVP and OT release that accompanies chronic hypoosmolality.     

Regulation of hypothalamic magnocellular neuropeptides and their mRNAs in the Brattleboro rat: coordinate responses to further osmotic challenge

A paradigm was developed for the chronic osmotic stimulation of homozygous diabetes insipidus rats of the Brattleboro strain, a strain that fails to synthesize vasopressin. This study examines the adaptation of 2 sets of coexisting peptide hormone magnocellular neurons in the hypothalamoneurohypophyseal system (HNS) of Long Evans (LE), Brattleboro heterozygote (HZ), and Brattleboro homozygote (DI) rats: (1) the arginine8-vasopressin (AVP)/dynorphin (DYN) neurons, and (2) the oxytocin (OT)/cholecystokinin (CCK8) neurons of the paraventricular and supraoptic nuclei, which project to the posterior pituitary. The regimen of chronic intermittent salt-loading (CISL) involved the replacement of 2% saline for normal drinking water for 18 hr/d. This protocol effectively increased plasma levels of AVP and OT in LE and HZ rats, oxytocin in DI rats, and maintained the posterior pituitary in a state depleted of AVP, OT, CCK, and peptides derived from pro-dynorphin: DYN A 1-17, DYN A 1-8, and DYN B 1-13. The ratio of pituitary DYN A 1-17 to DYN A 1-8 content in DI rats or in LE, HZ, and DI rats following 6 d of CISL suggests a preferential release of DYN A 1-17 during periods of chronic secretory activity. In response to chronic secretory activity, mRNAs for AVP, OT, DYN, and CCK increased 1.5-2-fold in all 3 AVP rat strains, with mRNAs for coexisting peptide hormones displaying parallel increases. Mutant AVP mRNA in the DI rat was expressed at very low levels and DYN mRNA in very high levels, with each of these mRNAs continuing to be regulated by CISL in a normal manner. These results suggest a regulatory relationship between AVP and OT neurons, in which vasopressin neurons are feedback-regulated by AVP, most likely via plasma osmolarity, and that oxytocin neurons are modulated by peptides derived from pro-dynorphin.     

Salivary Oxytocin and Vasopressin Levels in Police Officers With and Without Post‐Traumatic Stress Disorder

Post‐traumatic stress disorder (PTSD) is characterised by symptoms associated with maladaptive fear and stress responses, as well as with social detachment. The neuropeptides oxytocin (OT) and arginine vasopressin (AVP) have been associated with both regulating fear and neuroendocrine stress responsiveness and social behaviour. However, there is only limited evidence for dysregulated peripheral OT and AVP levels in PTSD patients. The present study aimed to investigate basal salivary OT and AVP levels in trauma‐exposed male and female police officers with and without PTSD. Saliva samples were collected during rest and OT and AVP levels were determined using a radioimmunoassay. Men and women were analysed separately, having adjusted for differences in trauma history, and for hormonal contraception use in women. The results showed that male PTSD patients had lower basal salivary OT levels, and did not differ in AVP levels compared to male trauma‐exposed healthy controls after adjusting for childhood emotional abuse. There were no significant differences in basal salivary OT and AVP levels in women. Our findings indicate potential dysfunctioning of the OT system in male PTSD patients. Future studies are needed to replicate these findings and to further unravel the relationship between the OT and AVP systems, sex, trauma history and PTSD.     

Inhibition of release of neurohypophysial hormones by endogenous opioid peptides in pregnant and parurient rats

Naloxone, an opiate receptor antagonist, was used to determine whether opioid peptides modulate release of oxytocin (OT) or vasopressin (AVP) in the rat after expulsion of the fetus, i.e. parturition. We measured the concentrations of AVP and OT in plasma and in the neurointermediate lobe of the pituitary of pregnant rats given naloxone (5 mg/kg, s.c.) or saline on day 20 of gestation, and on day 21 either before or during the expulsive stage of labor. Non-pregnant rats in diestrus were giben naloxone for comparison. On days 20 and 21 of gestation, before the onset of parturition, plasma [AVP] but not [OT] was elevated, compared to the non-pregnant controls. After delivery of the first two pups, plasma [OT] approximatelyy doubled, whereas plasma [AVP] remained unchanged. Blocking the action of endogenous opioid peptides with naloxone caused an elevation of plasma [OT] in pregnant animals on days 20 and 21 of gestation and during parturition. Naloxone, however, did not alter plasma [AVP] in either parturient or preparturient animals. In contrast, [AVP], but not [OT], was increased in plasma of non-pregnant rats given naloxone. The content of OT in the neuro-intermediate lobe was similar in pregnant and non-pregnant rats and was unaffected delivery of the first two pups. However, AVP content and the ratio of AVP/OT in the pituitary were lower in pregnant animals before during delivery than in the non-pregnant controls. The content of neither hormone was altered by naloxone. Thus, AVP release apparently increase and pituitary stores of this peptide are decreased by day 20 gestation, when labor has not yet begun. In contrast, OT secretion becomes elevated only during delivery. Inhibition of OT release by opioid peptides may: (1) allow preferential release of AVP during pregnancy; and (2) prevent depletion of pituitary stores of OT and neuronal fatigue during the 1–2 h period of parturition in the rat.     

Effects of intravenous infusion of substance P on arginine vasopressin and oxytocin secretion in normal men.

In order to establish possible stimulatory effects of increasing plasma concentrations of substance P (SP) on the arginine vasopressin (AVP) and/or oxytocin (OT) secretion, successively increasing doses of SP(0.5, 1 and 1.5 pmol/kg-1/min-1; each dose for 20 min) were infused in 7 normal men. Plasma AVP and OT levels were measured before infusion and every 20 min, just before increasing the infusion dose of SP. During tests, SP infusion did not produce untoward side effects or changes in blood osmolality and/or pressure. Plasma OT levels did not change during SP infusion. Plasma AVP concentrations were not modified by the infusion of the lowest dose of SP, whereas they were significantly increased in a dose response fashion when higher amounts of SP were given. These findings demonstrate for the first time in humans that the systemic administration of SP exerts stimulatory effects on AVP, but not on OT secretion.     

偏头痛和慢性紧张型头痛血浆精氨酸加压素、催产素及环核着酸含量测定

用放射免疫分析法测定了２８例偏头痛、１０例慢性紧张型头痛患者和１６例健康对照组血浆精氨酸加压素（ＡＶＰ）、催产素（ＯＴ）、环磷酸腺苷（ｃＡＭＰ）及环磷酸鸟苷（ｃＧＭＰ）含量。结果表明，偏头痛发作期ＡＶＰ含量下降、ｃＡＭＰ含量升高，偏头痛间歇期ｃＧＭＰ含量下降，血浆ＯＴ含量在发作期和间歇期均明显下降。慢性紧张型头痛患者血浆ＡＶＰ、ＯＴ、ｃＡＭＰ和ｃＧＭＰ与对照组比较均无显著性差异。结果提示，血浆ＡＶＰ和ＯＴ水平降低以及环核苷酸的代谢异常与偏头痛发病机制有关。     

Glucocorticoid modulation of neuronal activity and hormone secretion induced by blood volume expansion

The present study evaluated the involvement of glucocorticoid in the activation of vasopressinergic and oxytocinergic neurons of hypothalamic nuclei and plasma levels of vasopressin (AVP), oxytocin (OT), atrial natriuretic peptide (ANP) and corticosterone (CORT) in response to both isotonic and hypertonic blood volume expansion (BVE). Rats were subjected to isotonic (0.15 M NaCl, 2 ml/100 g b.w., i.v.) or hypertonic (0.30 M NaCl, 2 ml/100 g b.w., i.v.) BVE with or without pre-treatment with dexamethasone (1 mg/kg, i.p.). Results showed that isotonic BVE increased OT, ANP and CORT, and decreased AVP plasma levels. On the other hand, hypertonic BVE enhanced AVP, ANP, OT, and CORT plasma concentrations. Both hypertonic and isotonic BVE induced an increase in the number of Fos-OT double-labeled magnocellular neurons in the PVN and SON. Pre-treatment with dexamethasone reduced OT secretion, as well as Fos-OT immunoreactive neurons in response to both isotonic and hypertonic BVE. We also observed that dexamethasone pre-treatment had no effect on AVP secretion in response to hypertonic BVE, although this effect was associated with a blockade of Fos expression in the vasopressinergic magnocellular neurons in the PVN and SON. In conclusion, these data suggest that, not only the rapid OT release from storages, but also the oxytocinergic cellular activation induced by BVE are modulated by glucocorticoids. However, this pattern of response was not observed for AVP cells, suggesting that dexamethasone is not likely to influence rapid release of AVP but seems to modulate the activation of these neurons in response to hypertonic BVE.     

Excitotoxin paraventricular nucleus lesions: stress and endocrine reactivity and oxytocin mRNA levels.

Electrolytic lesion of the paraventricular nucleus (PVN) of the hypothalamus blocks the tachycardia response to stress. The current study examined the effects of chemical lesion of PVN parvocellular neurons on the cardiovascular and endocrine responses to stress and on the content of hypothalamic oxytocin (OT) mRNA levels. Acute footshock stress increased heart rate in both ibotenic acid lesion and control groups of animals; however, the tachycardia was significantly lower in animals with a PVN lesion than the controls. Lesion of the PVN also attenuated the increase in plasma OT induced by stress, 4-fold in the lesion group versus 20-fold for the controls. There was not a generalized decrease in hormonal responsiveness since the OT response to an osmotic challenge was exaggerated in the lesion group. There was no difference between the groups in the arterial pressure and vasopressin responses to acute stress. Neurotoxin lesions of the PVN also resulted in significant depletions of VP and OT in all levels of the spinal cord and decreased OT levels in the dorsal brainstem. Ibotenic acid lesions of the PVN resulted in no significant changes in OT mRNA in the PVN, SON and PP. In addition, the 48-h dehydration resulted in a significant increase in plasma OT and OT mRNA in the PVN. These data indicate that the parvocellular neurons of the PVN play a role in integration of cardiovascular and endocrine responses to both stressful and osmotic stimuli and provide further evidence that parvocellular OT and VP neurons project to the brainstem and spinal cord.     

A role for the area postrema in mediating cholecystokinin-stimulated oxytocin secretion

We have investigated the role of the area postrema (AP) in mediating the neurohypophyseal hormone response to peripheral administration of nausea-producing agents in rats. In control animals, lithium chloride (LiCl) and apomorphine (APO) caused a rise in plasma levels of immunoreactive oxytocin (OT) and arginine-vasopressin (AVP), whereas sulphated cholecystokinin octapeptide (CCK-8s) stimulated OT secretion only. Rats with AP lesions exhibited a similar OT and AVP response to LiCl and APO but the OT response to CCK-8s was significantly diminished. The results indicate that the selective stimulation of OT secretion by CCK-8s is partly mediated via the AP. Although the nausea-producing effects of LiCl and APO may involve the AP, the neuroendocrine effects of these agents may well be mediated via actions outside the AP.     

The effects of restraint or hypertonic saline stress on corticotrophin-releasing factor, arginine vasopressin, and proenkephalin A mRNAs in the CFY, Sprague-Dawley and Wistar strains of rat

It is generally assumed that the stress response of different strains of rat will be identical following exposure to acute stress. In the present study we have examined the activation of the hypothalamo-pituitary-adrenal axis in the Wistar, Sprague-Dawley and CFY strains of rat following exposure to either the predominantly psychological stress of restraint or the physical stress of i.p. hypertonic saline injection. We have investigated the hypothalamic activation of corticotrophin-releasing factor (CRF) and proenkephalin A (PEA) mRNAs in the parvocellular cells of the paraventricular nucleus (PVN) and arginine vasopressin (AVP) in both the magnocellular and parvocellular regions in the PVN following acute stress. In addition we have measured corticosterone as an index of end-point activation. Circulating corticosterone and CRF mRNA were increased in all three strains following either stress. AVP and PEA mRNAs were increased following hypertonic saline but only in the CFY strain following restraint. Overall the relative increase in the parameters measured was greater in the CFY strain of rat than the other strains. These data demonstrate marked differences in response to acute stress in the three strains of rat examined. These varying responses must be taken into consideration when designing or interpreting any study investigating the stress response.     

CB1 modulation of hormone secretion, neuronal activation and mRNA expression following extracellular volume expansion

The endocannabinoid system includes important signaling molecules that are involved in several homeostatic and neuroendocrine functions. In the present study, we evaluated the effects of the type 1 cannabinoid (CB₁) receptor antagonist, rimonabant (10 mg/kg, p.o.), on hormone secretion, neuronal activation and mRNA expression in the hypothalamus following isotonic (I-) or hypertonic (H-) extracellular volume expansion (EVE). The total nitrate content in the PVN and SON was also assessed under the same experimental conditions. Our results showed that OT and AVP plasma concentrations were increased in response to H-EVE, while decreased AVP levels were found following I-EVE. Accordingly, both I- and H-EVE stimulated oxytocinergic neuronal activation, as evidenced by the increased number of c-Fos/OT double labeled neurons in the hypothalamus. The vasopressinergic cells of the PVN and SON, however, were only activated in response to H-EVE. Furthermore, increased amounts of both AVP and OT mRNAs were found in the hypothalamus following EVE. Pretreatment with rimonabant significantly potentiated hormone secretion and also vasopressinergic and oxytocinergic neuronal activation induced by EVE, although decreased AVP and OT mRNA expression was found in the hypothalami of rimonabant pretreated groups. In addition, the nitrate content in the PVN and SON was not altered in response to EVE or rimonabant pretreatment. Taken together, these results suggest that the CB₁ receptor may modulate several events that contribute to the development of appropriate responses to increased fluid volume and osmolality.     

Individual variation in plasma oxytocin and vasopressin levels in relation to the development of combat-related PTSD in a large military cohort

In an attempt to decrease the risk of developing mental health problems after military deployment, it is important to find biological markers to identify those at risk. Oxytocin (OT) and arginine vasopressin (AVP) are potential biomarkers for the development of posttraumatic stress disorder (PTSD) because they are involved in the regulation of stress and anxiety. Therefore, the aim was to examine whether plasma OT (pOT) and AVP (pAVP) levels before and after deployment are biomarkers for the development of posttraumatic stress symptoms over time in addition to other known risk factors. This study is part of a large prospective cohort study on candidate markers for stress-related mental health symptoms and resiliency after deployment to a combat zone; Prospective Research in Stress-related Military Operations (PRISMO; N = 907). Data was collected prior to deployment and follow-ups were performed at 1 and 6 months, and 1, 2, and 5 years post-deployment. Blood samples were collected in the first three assessments. The levels of pOT and pAVP were not significantly related to the development of PTSD symptoms over time. The results confirm that age, the experience of early life trauma, combat-related stressors and the presence of depressive symptoms are predictive for the development of PTSD symptoms over time. These findings showed that peripherally measured OT and AVP currently do not qualify as useful susceptibility biomarkers for the development of PTSD symptoms over time in military men after combat.     

Naturally occurring variations in defensive burying behavior are associated with differences in vasopressin, oxytocin, and androgen receptors in the male rat

Largely ignored in tests of defensive burying is the capacity for individual animals to display marked variations in active coping behaviors. To expose the neurobiological correlates of this behavioral differentiation rats were exposed to a mousetrap that was remotely triggered upon approach to remove the quality of pain. Relative to animals showing no significant levels of defensive burying activity, rats showing sustained elevations in defensive burying displayed higher levels of arginine vasopressin (AVP) mRNA and increased numbers of androgen receptor positive cells in the medial amygdala and posterior bed nuclei of the stria terminalis, brain regions that integrate emotional appraisal and sensory information. In contrast, animals showing little to no defensive burying responses displayed relatively higher levels of AVP and oxytocin (OT) mRNA within the supraoptic nucleus and subregions of the paraventricular nucleus of the hypothalamus responsible for neuroendocrine and autonomic function. Finally, animals showing sustained levels of burying also displayed increased levels of testosterone and pituitary-adrenal hormones under stress conditions. These findings implicate roles for central AVP and OT in mediating differential avoidance behaviors and demonstrate the utility of using a pain-free test of defensive burying as a framework for exploring naturally occurring differences in coping style and neuroendocrine capacity.     

Coping style and stress hormone responses in genetically heterogeneous rats: comparison with the Roman rat strains

The purpose of the present study was to evaluate for the first time the stress-induced hypothalamus-pituitary-adrenal (HPA), adrenocorticotropic hormone (ACTH), corticosterone and prolactin responses of the National Institutes of Health genetically heterogeneous rat stock (N/Nih-HS rats) in comparison with responses of the relatively high and low stress-prone Roman Low- (RLA-I) and High-Avoidance (RHA-I) rat strains. The same rats were also compared (experiment 1) with respect to their levels of unconditioned anxiety (elevated zero-maze test), novelty-induced exploratory behavior, conditioned fear and two-way active avoidance acquisition. In experiment 2, naive rats from these three strains/stocks were evaluated for “depressive-like” behavior in the forced swimming test. N/Nih-HS and RLA-I rats showed significantly higher post-stress ACTH, corticosterone and prolactin levels than RHA-I rats. N/Nih-HS rats also presented the highest context-conditioned freezing responses, extremely poor two-way avoidance acquisition and very low novelty-induced exploratory behavior. Experiment 2 showed that, compared to RHA-I rats, N/Nih-HS and RLA-I rats displayed significantly less struggling (escape-directed) and increased immobility responses in the forced swimming test. Factor analysis of data from experiment 1 showed associations among behavioral and hormonal responses, with a first factor comprising high loadings of elevated zero-maze variables and lower loadings of conditioned fear, two-way avoidance acquisition and hormonal measures, while a second factor mainly grouped conditioned fear and two-way avoidance acquisition with novelty-induced exploration and post-stress prolactin. Thus, regarding their anxiety/fearfulness, passive coping style, “depressive-like” and stress-induced hormonal responses the N/Nih-HS rats resemble the phenotype profiles of the relatively high-anxious and stress-prone RLA-I rat strain.     

Inhibition of release of neurohypophysial hormones by endogenous opioid peptides in pregnant and parturient rats

Naloxone, an opiate receptor antagonist, was used to determine whether opioid peptides modulate release of oxytocin (OT) or vasopressin (AVP) in the rat after expulsion of the fetus, i.e. parturition. We measured the concentrations of AVP and OT in plasma and in the neurointermediate lobe of the pituitary of pregnant rats given naloxone (5 mg/kg, s.c.) or saline on day 20 of gestation, and on day 21 either before or during the expulsive stage of labor. Non-pregnant rats in diestrus were given naloxone for comparison. On days 20 and 21 of gestation, before the onset of parturition, plasma [AVP] but not [OT] was elevated, compared to the non-pregnant controls. After delivery of the first two pups, plasma [OT] approximately doubled, whereas plasma [AVP] remained unchanged. Blocking the action of endogenous opioid peptides with naloxone caused an elevation of plasma [OT] in pregnant animals on days 20 and 21 of gestation and during parturition. Naloxone, however, did not alter plasma [AVP] in either parturient or preparturient animals. In contrast, [AVP], but not [OT], was increased in plasma of non-pregnant rats given naloxone. The content of OT in the neuro-intermediate lobe was similar in pregnant and non-pregnant rats and was unaffected by delivery of the first two pups. However, AVP content and the ratio of AVP/OT in the pituitary were lower in pregnant animals before and during delivery than in the non-pregnant controls. The content of neither hormone was altered by naloxone. Thus, AVP release apparently increases and pituitary stores of this peptide are decreased by day 20 of gestation, when labor has not yet begun.(ABSTRACT TRUNCATED AT 250 WORDS)     

Oxytocin Pretreatment Enhances Arginine Vasopressin-lnduced Motor Disturbances and Arginine Vasopressin-lnduced Phosphoinositol Hydrolysis in Rat Septum: A Cross-Sensitization Phenomenon

The recent observation that the central oxytocin (OT) receptor has high affinity for both OT and arginine vasopressin (AVP) raises the possibility that it may be involved in some of the central actions of AVP. Repeated intracerebroventricular (icv) injections of AVP in rats evoke an unusual sensitization phenomenon in that a first exposure to the peptide enhances the sensitivity (sensitization) of the brain to a second exposure. This report investigates the possibility that the OT receptor may be involved in the mediation of the phenomenon of sensitization, using OT, a specific OT receptor agonist, [Thr⁴, Gly⁷]OT, and a specific OT receptor antagonist, d(CH₂)₅, [Tyr(Me)², Thr⁴, Tyr-NH₂⁹]OVT (compound 6; cpd 6), as well as a V1 AVP receptor antagonist, d(CH₂)₅Tyr(Me)AVP. Peptides were injected icv in conscious, adult male Sprague-Dawley rats. The data showed that: 1) a first icv AVP injection (10 pmol/5μl) enhanced the sensitivity of the rat brain to the motor response of a second AVP injection (10 pmol/5 μl) given 24 h later; 2) injection of d(CH₂)₅Tyr(Me)AVP (100 pmol/5 μl icv) but not cpd 6, (100 pmol/5 μl icv) 2 min prior to the first AVP injection, blocked AVP-induced sensitization; 3) a first injection of OT or [Thr⁴, Gly⁷]OT (10 pmol/5 μl) enhanced the sensitivity of the brain to the motor actions of a subsequent AVP injection given 24 h later; 4) the magnitude of this cross-sensitization induced by OT pretreatment varied with dose and appeared to be ten times more potent than the sensitization induced by a first AVP injection; 5) injection of cpd 6 (100 pmol/5 μl) but not d(CH₂)₅Tyr(Me)AVP (100 pmol/5 μl icv) 2 min prior to the first OT injection (1 pmol/5 μl) blocked the cross-sensitization induced by OT; 6) an injection of OT (100 to 1,000 pmol/5 μl) or [Thr⁴, Gly⁷]OT (10 pmol/5 μl) in rats that had been cross-sensitized with OT or [Thr⁴, Gly⁷]OT pretreatment did not evoke enhanced motor responses; 7) OT injected 2 min prior to the second AVP injection in AVP-sensitized rats did not block the enhanced AVP-induced motor responses; 8) AVP-induced [³H]inositol monophosphate accumulation in septal slices was also enhanced in rats cross-sensitized by OT pretreatment. These results suggest that while pre-exposure of the rat brain to both AVP and OT alters the responsiveness of the rat brain to subsequent AVP exposures, AVP sensitization appears to be mediated via the V1 AVP receptor, whereas cross-sensitization by OT may be mediated via the OT receptor. The ability of OT to alter the responsiveness of the rat brain to subsequent AVP injection suggests a role for this peptide in modulating central AVP actions.     

Sequential Exposure to Estrogen and Testosterone (T) and Subsequent Withdrawal of T Increases the Level of Arginine Vasopressin Messenger Ribonucleic Acid in the Hypothalamic Paraventricular Nucleus of the Female Rat

The hypothalamic peptides arginine vasopressin (AVP) and oxytocin (OT) have been implicated as mediators of socio-sexual behaviors in addition to their roles in osmolar homeostasis (AVP), milk ejection and uterine contractility (OT). Within 24  h of parturition, OT and AVP messenger ribonucleic acid (mRNA) levels increase in the hypothalamic paraventricular, and to a lesser degree, the supraoptic nucleus (PVN and SON) of the rat. We previously reported that the prepartum increase in OT mRNA is related to the spontaneous decline in progesterone levels prior to parturition. We also reported that increases in PVN and SON OT mRNA can be induced by exposing the ovariectomized rat to a steroid regimen that mimics the steroid milieu of pregnancy, namely sequential estrogen and progesterone and subsequent progesterone withdrawal. Levels of PVN and SON AVP mRNAs were not affected by progesterone withdrawal in late pregnant rats or the steroid regimen that increased OT mRNA in ovariectomized rats. These observations suggest that other factors, perhaps hormonal, may influence AVP mRNA levels. A decline in testosterone coincident with waning progesterone levels also occurs prepartum. Since peak levels of AVP mRNA prepartum coincide with the prepartum decline in testosterone, we questioned whether declining testosterone levels are important for the increase in AVP mRNA levels.     

Role of the neurohypophysis in psychological stress

Effects of different psychological stimuli on oxytocin (OT) and vasopressin (AVP) secretion are reviewed in animals and in humans. The secretion of neuropituitary hormones is also discussed in various psychiatric diseases such an anorexia nervosa, bipolar disorder, schizophrenia and obsessive-compulsive disorder. AVP and OT are secreted into the hypophyseal portal circulation by neurons which project from the paraventricular nucleus to the external zone of the median eminence. AVP and OT-containing neurons in the suprachiasmatic and paraventricular nuclei project to limbic areas, including the hippocampus, the subiculum, the ventral nucleus of the amygdala and the nucleus of the diagonal band. Specific AVP receptors which are pharmacologically different from the pressor and antidiuretic AVP receptors have been found in the anterior pituitary. OT receptors have been identified in a variety of forebrain sites. The neurohypophyseal secretion is regulated by the cholinergic muscarinic, histaminergic and beta-adrenergic systems. Stress alters the secretion of one or more of the hypothalamic factors which interact at the pituitary to increase the secretion of ACTH. AVP and OT have been shown to modulate the effect of Corticotropin-Releasing Factor (CRF) on ACTH secretion and appear to play a key role in mediating the ACTH response to stress. Although AVP is a relatively weak secretagogue for ACTH, it markedly potentiates the activity of CRF both in vitro and in vivo. The role of OT is more complex. In vitro, OT stimulates ACTH release at high doses whereas in human it inhibits ACTH secretion at low doses. The type of stressor appear to determine the relative importance of these secretatogues in ACTH response. Several recent studies indicate that psychological stressors display a similar degree of variety of secretagogue release patterns as was found earlier for physical stressors. A bewildering array of technique produces a bewildering array of conclusions. In rats, OT may be an important secretagogue during a novel stimulus, whereas the role for AVP is less clear. Indeed two studies out of ten suggest a stimulating role for AVP. In response to frustration and submission, OT and AVP are secreted. Regarding social isolation, results are difficult to interpret and the role of AVP could be species-dependent. In contrast plasma OT levels do not change. After restraint, ACTH release is primarily mediated by the active increase of OT and AVP does not appear to play a role. When restraint is associated with moderate levels of physical components and during immobilisation, all two secretagogs are involved in the ACTH response. With fear, ACTH response appears to be driven by OT. In humans, one study indicates that high emotionality women increase plasma OT in response to uncontrollable noise. Various neuroendocrine dysregulations have been observed in psychiatric disease. Either an increase or a decrease of the hypothalamic-pituitary-adrenal (HPA) function have been described in several illnesses. Effects of OT appear to be reciprocal to the effects of AVP. OT has been called the "amnestic" neuropeptide due to its capacity to attenuate memory consolidation and retrieval. AVP exhibits a central activating action on mood, memory and selective attention. Underweight patients with anorexia nervosa have abnormally high levels of centrally directed AVP and reduced OT levels. These modifications could enhance the retention of cognitive distortions of aversive consequences of eating. Patients with bipolar disorder show a biphasic secretion of AVP. Depressive episodes are associated with decreased vasopressinergic activity whereas manic episodes involve an increased release. AVP might be responsible for an increased catecholamine activity. In addition, lithium could act as an antagonist to AVP. In schizophrenic patients, studies using the apomorphine stimulation suggest increased oxytoninergic and decreased vasopressinergic functions. These findings are consistent with the beneficial role of AVP on schizophrenic symptoms noted in several trials. The increased OT could be responsible for "positive" symptomatology such as delusions and hallucinations. Obsessive compulsive disorder (OCD) includes a range of cognitive and behavioral disturbances that could be influenced by OT. In animals, several studies have emphasized the role of AVP in promoting repetitive grooming behaviors and maintaining conditioned response to aversive stimuli. In OCD patients, one study have reported that AVP/OT ratio was negatively correlated with symptom severity. However, an independent report found similar AVP concentrations in OC patients without a personal or family history of tic disorder and in normal subjects. Whether these modifications are only a consequence of the central disturbances or whether those peptides could participate in the pathogenesis of these affections remains to be elucidated.     

Psychological stress of exposure to uncontrollable noise increases plasma oxytocin in high emotionality women

Oxytocin (OT), arginine-vasopressin (AVP), memory, and mood changes were measured in relation to the psychological stress of exposure to uncontrollable noise (UN), with the physical stress of exposure to the identical, but controllable, noise (CN) as a comparison. Four experiments were performed. In the first, UN but not CN resulted in OT increases in women but not in men; neither treatment altered plasma AVP. No significant changes were detected in the second study, but in the third women again showed an OT response to UN. In both the first and third study the OT response was found in only a proportion of the women exposed to UN. This result was analysed further in the fourth study, in which the stress-induced OT response occurred in high, but not in low, emotionality women. In the fourth, but not in the third, study there was an indication that OT increases may be associated with a general impairment of memory. There was no evidence to support an enhancement of negative memories after exposure to UN. Exposure to noise generally produced a worsening of mood, with no consistent differences between the UN and CN conditions. This is the first report of an OT response to psychological stress in human subjects.