Identification of stimulatory and inhibitory inputs to the hypothalamic-pituitary-adrenal axis during hypoglycaemia or transport in ewes

This study used the novel approach of statistical modelling to investigate the control of hypothalamic-pituitary-adrenal (HPA) axis and quantify temporal relationships between hormones. Two experimental paradigms were chosen, insulin-induced hypoglycaemia and 2 h transport, to assess differences in control between noncognitive and cognitive stimuli. Vasopressin and corticotropin-releasing hormone (CRH) were measured in hypophysial portal plasma, and adrenocorticotropin hormone (ACTH) and cortisol in jugular plasma of conscious sheep, and deconvolution analysis was used to calculate secretory rates, before modelling. During hypoglycaemia, the relationship between plasma glucose and vasopressin or CRH was best described by log10 transforming variables (i.e. a positive power-curve relationship). A negative-feedback relationship with log10 cortisol concentration 2 h previously was detected. Analysis of the "transport" stimulus suggested that the strength of the perceived stimulus decreased over time after accounting for cortisol facilitation and negative-feedback. The time course of vasopressin and CRH responses to each stimulus were different However, at the pituitary level, the data suggested that log10 ACTH secretion rate was related to log10 vasopressin and CRH concentrations with very similar regression coefficients and an identical ratio of actions (2.3 : 1) for both stimuli. Similar magnitude negative-feedback effects of log10 cortisol at -110 min (hypoglycaemia) or -40 min (transport) were detected, and both models contained a stimulatory relationship with cortisol at 0 min (facilitation). At adrenal gland level, cortisol secretory rates were related to simultaneously measured untransformed ACTH concentration but the regression coefficient for the hypoglycaemia model was 2.5-fold greater than for transport. No individual sustained maximum cortisol secretion for longer than 20 min during hypoglycaemia and 40 min during transport. These unique models demonstrate that corticosteroid negative-feedback is a significant control mechanism at both the pituitary and hypothalamus. The amplitude of HPA response may be related to stimulus intensity and corticosteroid negative-feedback, while duration depended on feedback alone.     

Sexual diergism of baseline plasma leptin and leptin suppression by arginine vasopressin in major depressives and matched controls

Leptin inhibits appetite by activating several neuroendocrine systems, including the hypothalamo-pituitary-adrenal cortical (HPA) axis. In turn, chronically elevated glucocorticoids increase circulating leptin. HPA axis hyperactivity occurs in 30-50% of patients with major depression, but the few prior reports of leptin measurements in this illness have shown inconsistent results. We, therefore, measured plasma leptin in 12 female and 8 male unipolar major depressives and 12 female and 8 male individually matched normal controls administered low-dose physostigmine (PHYSO) and arginine vasopressin (AVP) to stimulate the HPA axis. The subjects underwent four test sessions 5-7 days apart: PHYSO (8 microg/kg IV); AVP (0-08 U/kg IM); PHYSO+AVP; and saline control. Serial blood samples were taken before and after pharmacologic challenge and analyzed for leptin, ACTH(1-39), cortisol and AVP. Estradiol and testosterone also were measured at each test session. PHYSO and AVP produced no side effects in approximately half the subjects and predominantly mild side effects in the other half, with no significant patient-control differences. Correlations between side effects (absent or present) after PHYSO or AVP and the corresponding leptin responses were non-significant in all groups. Baseline plasma leptin concentrations (mean+/-S.D.) were significantly higher in the female patients compared to the female controls (22.5+/-13.9 ng/ml vs. 12.3+/-9.7 ng/ml), whereas they were similar in the male patients and the male controls (3.9+/-1.4 ng/ml vs. 3.6+/-2.0 ng/ml). Leptin concentrations following PHYSO remained unchanged from baseline, indicating that the short-lived ACTH and cortisol increases produced by PHYSO did not affect leptin secretion. In contrast, AVP administration, while also increasing ACTH and cortisol, significantly suppressed leptin, more so in the women than in the men. Baseline leptin and the leptin decrease after AVP were moderately positively correlated with the Hamilton Depression Scale 'somatization' factor in the female patients (r=0.50) and more strongly correlated with the 'mood-depression' factor in the male patients (r=0.81). These findings indicate a sexual diergism (functional sex difference) in plasma leptin measures between major depressives and matched normal controls.     

Naloxone-induced cortisol predicts mu opioid receptor binding potential in specific brain regions of healthy subjects

Investigators have administered the opioid receptor antagonist, naloxone, to interrogate the hypothalamic-pituitary-adrenal (HPA) axis response under the assumption that this technique provides a measure of endogenous opioid activity. However it has never been tested whether provocation of the HPA axis with naloxone provides a surrogate marker for direct measurement of endogenous opioid activity using PET imaging as the gold standard. To test this hypothesis, eighteen healthy subjects underwent a PET scan with the mu-opioid receptor (MOR) selective ligand [(11)C]carfentanil (CFN). The following day ACTH and cortisol responses were assessed using a technique which allows administration of 5 incremental doses of naloxone (0, 25, 50, 100 and 250μg/kg) in a single session. Relationships between ACTH and cortisol responses and [(11)C]CFN binding potential (BP(ND)) were examined in 5 brain regions involved in the regulation of the HPA axis and/or regions with high concentrations of MOR. All subjects mounted graded ACTH and cortisol responses to naloxone administrations. There were significant negative relationships between cortisol response to naloxone and [(11)C]CFN BP(ND) in ventral striatum, putamen and caudate. When sex and smoking were added as covariates to the model, these correlations were strengthened and there was a significant correlation with the hypothalamus. There were no significant correlations between ACTH and any volumes of interest. The opioid receptor antagonist naloxone is not merely a non-specific pharmacologic activator of the HPA axis; it provides information about individual differences in opioid receptor availability.     

Hypothalamo-pituitary-adrenal cortical responses to low-dose physostigmine and arginine vasopressin administration: sex differences between major depressives and matched control subjects

Of heuristic value in understanding the neurochemistry of major depression is whether the hypothalamo-pituitary-adrenocortical (HPA) axis hyperactivity that occurs in this illness can be related to putative neurotransmitter dysfunction(s). Cholinergic neurotransmission stimulates hypothalamic corticotropin releasing hormone (CRH) and arginine vasopressin (AVP) secretion, both of which stimulate pituitary corticotropin (ACTH) secretion, but whether the HPA axis in humans is activated only by doses of cholinergic agonists that produce noxious side effects remains controversial. To test the hypothesis of increased cholinergic sensitivity in major depression, physostigmine (PHYSO), a reversible cholinesterase inhibitor, was administered to patients and control subjects at a dose that elevated plasma ACTH, cortisol, and AVP concentrations but produced few or no side effects. Exogenous AVP also was administered to determine if it would augment the effect of low-dose PHYSO on the HPA axis. Twelve premenopausal or estrogen-replaced female major depressives, 12 individually matched female control subjects, eight male major depressives, and eight matched male control subjects underwent four test sessions 5-7 days apart: PHYSO (8 microg/kg IV), AVP (0.08 U/kg IM), PHYSO + AVP, and saline control. Serial blood samples were taken before and after pharmacologic challenge and analyzed for ACTH1-39, cortisol, and AVP. Estradiol and testosterone were also measured at each test session. PHYSO (8 microg/kg) significantly increased plasma ACTH, cortisol, and AVP, while producing no side effects in approximately half the subjects and predominantly mild side effects in the other half. These hormone increases following PHYSO occurred primarily in the female depressives and the male control subjects and were not significantly related to the presence or absence of side effects. The greater the ACTH and AVP responses to PHYSO, the stronger their correlation, suggesting that AVP may have been acting as a secretagogue for ACTH. Administered AVP significantly increased the secretion of ACTH in the patients and control subjects to a similar degree, and AVP given after PHYSO did not augment the HPA axis response to a greater degree in the depressives than in the control subjects. Plasma estradiol and testosterone were within the normal range for all four groups of subjects and were not significantly related to their HPA axis hormone responses. The study results support the hypothesis of heightened cholinergic sensitivity in premenopausal female, but not in male, patients with major depression. The low dose of PHYSO used may represent a useful paradigm for central cholinergic stimulation of the HPA axis.     

Provocation of kainic acid receptor mRNA changes in the rat paraventricular nucleus by insulin-induced hypoglycaemia

Hypoglycaemia induced by insulin injection is a powerful stimulus to the hypothalamic-pituitary-adrenal (HPA) axis and drives the secretion of corticotropin-releasing hormone and vasopressin from the neurones in the paraventricular nucleus (PVN), as well as the downstream hormones, adrenocorticotropic hormone and corticosterone. In some brain regions, hypoglycaemia also provokes increases in extracellular fluid concentrations of glutamate. Regulation of glutamatergic mechanisms could be involved in the control of the HPA axis during hypoglycaemic stress and one potential site of regulation might be at the receptors for glutamate, which are expressed in the PVN. Insulin (2.0 IU/kg, i.p.) or saline was administered to adult male Sprague-Dawley rats and the animals were sacrificed 30 min, 180 min and 24 h after injection. The amount of several kainic acid-preferring glutamate receptor mRNAs (i.e. KA2, GluR5 and GluR6) were assessed in the PVN by in situ hybridisation histochemistry. Injection of insulin induced a rapid fall in plasma glucose concentrations, which was mirrored by an increase in plasma corticosterone concentrations. KA2 and GluR5 mRNAs are highly expressed within the rat PVN, and responded to hypoglycaemia with robust increases in expression that endured beyond the period of hypoglycaemia itself. However, GluR6 mRNA is expressed in the areas adjacent to the PVN and hypoglycaemic stress failed to alter expression of this mRNA. These experiments suggest that kainic acid-preferring glutamate receptors are responsive to changes in plasma glucose concentrations and may participate in the activation of the PVN neurones during hypoglycaemic stress.     

Cortisol and adrenocorticotropic hormone responses to naloxone in subjects with high and low neuroticism.

BACKGROUND: Neuroticism is a highly heritable personality trait that is a risk factor for certain affective and anxiety disorders. Studies link neuroticism with alterations in the Hypothalamic-Pituitary-Adrenal (HPA) stress response. We interrogated HPA axis dynamics as a function of neuroticism, employing the opioid receptor antagonist, naloxone. METHODS: Subjects were assigned to either high or low neuroticism groups on the basis of Revised Neuroticism, Extraversion, Openness Personality Inventory (NEO-PI-R) scores and received naloxone hydrochloride (0, 125 microg/kg, and 375 microg/kg). Serum adrenocorticotropic hormone (ACTH) and cortisol levels were monitored. RESULTS: Significant, dose-dependent differences in cortisol response were observed between neuroticism groups, whereas no differences were observed in ACTH. The low neuroticism group demonstrated a dose-dependent cortisol response with a plateau at the 125 microg/kg dose of naloxone. In contrast, the high neuroticism group demonstrated a graded cortisol response to all doses of naloxone. CONCLUSIONS: These findings show that neuroticism is associated with altered cortisol responses to opioid receptor blockade, suggesting that alterations in HPA axis function already exist in persons at increased risk for certain depressive and anxiety disorders.     

Opioid influences on pituitary function in sheep under basal conditions and during psychological stress

The effects of intravenous injections of naloxone (2 mg/kg), morphine (0.3 mg/kg) and saline vehicle on plasma concentrations of cortisol, prolactin, vasopressin and oxytocin were assessed in sheep (N=10) when in their social groups (basal conditions) and during a period of isolation (psychological stress). Blood samples were collected by jugular venipuncture before and during the 60-min period following drug administration. Plasma hormone concentrations were determined by radioimmunoassay.

Under basal conditions, cortisol levels were increased after naloxone (36–48%), but not after morphine or saline, and concentrations of prolactin, vasopressin and oxytocin did not change. Under stress conditions, (1) cortisol concentrations were elevated throughout the 60-min sampling period after naloxone or saline but for only 20 min after morphine; maximum increases observed were 161% (naloxone), 150% (saline) and 112% (morphine); (2) prolactin levels were raised after saline (85–129%) and morphine (55–61%) but were unchanged after naloxone; (3) vasopressin concentrations decreased transiently (43%) after saline but not following naloxone or morphine; and (4) oxytocin levels did not change after any treatment.

These results indicate that endogenous and exogenous opioids modulate cortisol release in non-stressed sheep, and cortisol and prolactin secretion in sheep subjected to psychological stress. The nature of the anterior pituitary responses induced, together with the absence of a discernible effect on posterior pituitary function, suggest that the central opioid systems involved are similar in sheep and primates but different from those in the rat.     

Suckling and Salsolinol Attenuate Responsiveness of the Hypothalamic‐Pituitary‐Adrenal Axis to Stress: Focus on Catecholamines,Corticotrophin‐Releasing Hormone,Adrenocorticotrophic Hormone,Cortisol and Prolactin Secretion in Lactating Sheep

In mammals, the responsiveness of the hypothalamic‐pituitary‐adrenal (HPA) axis to stress is reduced during lactation and this mainly results from suckling by the offspring. The suckling stimulus causes a release of the hypothalamic 1‐metyl‐6,7‐dihydroxy‐1,2,3,4‐tetrahydroisoquinoline (salsolinol) (a derivative of dopamine), one of the prolactin‐releasing factors. To investigate the involvement of salsolinol in the mechanism suppressing stress‐induced HPA axis activity, we conducted a series of experiments on lactating sheep, in which they were treated with two kinds of isolation stress (isolation from the flock with lamb present or absent), combined with suckling and/or i.c.v infusion of salsolinol and 1‐methyl‐3,4‐dihydro‐isoqinoline (1‐MeDIQ; an antagonistic analogue of salsolinol). Additionally, a push–pull perfusion of the infundibular nucleus/median eminence (IN/ME) and blood sample collection with 10‐min intervals were performed during the experiments. Concentrations of perfusate corticotrophin‐releasing hormone (CRH) and catecholamines (noradrenaline, dopamine and salsolinol), as well as concentrations of plasma adenocorticotrophic hormone (ACTH), cortisol and prolactin, were assayed. A significant increase in perfusate noradrenaline, plasma ACTH and cortisol occurred in response to both kinds of isolation stress. Suckling and salsolinol reduced the stress‐induced increase in plasma ACTH and cortisol concentrations. Salsolinol also significantly reduced the stress‐induced noradrenaline and dopamine release within the IN/ME. Treatment with 1‐MeDIQ under the stress conditions significantly diminished the salsolinol concentration and increased CRH and cortisol concentrations. Stress and salsolinol did not increase the plasma prolactin concentration, in contrast to the suckling stimulus. In conclusion, salsolinol released in nursing sheep may have a suppressing effect on stress‐induced HPA axis activity and peripheral prolactin does not appear to participate in its action.     

The Insulin Hypoglycemia Test: Hypoglycemic Criteria and Reproducibility

The insulin hypoglycemia test (IHT) is widely regarded as the "gold standard" for dynamic stimulation of the hypothalamic-pituitary-adrenal (HPA) axis. This study aimed to investigate the temporal relationship between a rapid decrease in plasma glucose and the corresponding rise in plasma adenocorticotropic hormone (ACTH), and to assess the reproducibility of hormone responses to hypoglycemia in normal humans. Ten normal subjects underwent IHTs, using an insulin dose of 0.15 U/kg. Of these, eight had a second IHT (IHT2) and three went on to a third test (IHT3). Plasma ACTH and cortisol were measured at 15-min intervals and, additionally, in four IHT2s and the three IHT3s, ACTH was measured at 2.5- or 5-min intervals. Mean glucose nadirs and mean ACTH and cortisol responses were not significantly different between IHT1, IHT2 and IHT3. Combined data from all 21 tests showed the magnitude of the cortisol responses, but not the ACTH responses, correlated significantly with the depth and duration of hypoglycemia. All subjects achieved glucose concentrations of of < or = 1.6 mmol/l before any detectable rise in ACTH occurred. In the seven tests performed with frequent sampling, an ACTH rise never preceded the glucose nadir, but occurred at the nadir, or up to 15 min after. On repeat testing, peak ACTH levels varied markedly within individuals, whereas peak cortisol levels were more reproducible (mean coefficient of variation 7%). In conclusion, hypoglycemia of < or = 1.6 mmol/l was sufficient to cause stimulation of the HPA axis in all 21 IHTs conducted in normal subjects. Nonetheless, our data cannot reveal whether higher glucose nadirs would stimulate increased HPA axis activity in all subjects. Overall, the cortisol response to hypoglycemia is more reproducible than the ACTH response but, in an individual subject, the difference in peak cortisol between two IHTs may exceed 100 nmol/l.     

The HPA axis response to insulin hypoglycemia in depression

Dysfunction of the hypothalamic-pituitary-adrenal (HPA) axis, demonstrated by failure to suppress cortisol secretion after dexamethasone, is found in approximately 50% of patients with major depression (MD). In this study, we examined the response of adrenocorticotrophic hormone (ACTH) and cortisol to insulin-induced hypoglycemia in 20 healthy controls and 18 inpatients with MD [12 dexamethasone suppressors (S) and 5 dexamethasone nonsuppressors (NS)]. After the administration of 0.15 U/kg of regular insulin, both controls and patients with MD showed an increase in plasma ACTH and cortisol levels. Controls had a significantly higher ACTH peak (p less than 0.01) and ACTH increment (p less than 0.01) than MD patients. There were no statistically significant differences between patients who were S and NS. Although baseline plasma cortisol levels were significantly higher in MD patients, there were no significant differences in the peak cortisol or increment in plasma cortisol after hypoglycemia between patients with MD and controls or between patients who were S and those who were NS. These findings suggest that a defect exists in the regulation of the HPA axis at the pituitary level in MD and that this defect is not necessarily reflected in the dexamethasone suppression status of the patient.     

Neuroendocrine effects of a short-term osmotic stimulus in patients with chronic schizophrenia.

We studied the effects of a short-term hypertonic stimulus on plasma levels of the stress hormones adrenocorticotropin (ACTH), cortisol, prolactin, and the blood volume- and electrolyte-controlling hormones arginine vasopressin (AVP) and atrial natriuretic peptide (ANP). Seven patients suffering from chronic schizophrenia with negative symptoms and ten healthy control subjects were investigated by a 20-minute infusion of 10 ml/kg body weight of hypertonic (2.5%) versus isotonic (0.9%) saline. All patients, who were medication-free for at least one week prior to the study, and all control subjects participated in two investigations in randomized order according to a single-blind cross-over design. During hypertonic infusion, plasma osmolarity and sodium levels were increased similarly in both groups and significantly more than during isotonic saline. Hypertonic saline caused a significant increase of plasma ACTH, cortisol and prolactin in patients in contrast to controls. AVP and ANP plasma concentrations were elevated after infusion of hypertonic saline, however, only patients showed a significant rise in plasma ANP. These results show that a dysregulation of the hypothalamic-pituitary-adrenal (HPA) system in a subset of patients with chronic schizophrenia may become overt during an osmotic stimulation, indicating an increased sensitivity of patients with schizophrenia to osmotic stress.     

Gender differences in hypothalamic-pituitary-adrenal (HPA) axis reactivity

The present study was designed to determine whether there are gender differences in hormonal response patterns to HPA axis activation. To this end, two methods of activating the HPA axis were employed: a standardized psychological stress test and a pharmacological challenge. Healthy subjects (mean age 23.4 years, SD 7.0 years) completed a naloxone challenge and/or the modified Trier Social Stress Test (TSST). For the naloxone challenge, two baseline blood samples were obtained. Placebo was then administered (0 min), followed by increasing doses of intravenous naloxone (50, 100, 200 and 400 microg/kg) at 30-min intervals. Post-placebo blood samples were collected at 15-min intervals for 180 min. The TSST consisted of 5 min of public speaking followed by 5 min of mental arithmetic exercises. Three baseline and five post-TSST blood samples were drawn. Eighty subjects (53 male, 27 female) underwent the TSST. Following the psychological stressor, adrenocorticotropin (ACTH) and cortisol responses were significantly greater in male subjects compared to female subjects (z=-2.34, p=0.019 and z=-2.12, p=0.034, respectively). Seventy-two subjects (52 male, 20 female) underwent HPA axis activation induced by naloxone. In contrast to the TSST, cortisol responses to the naloxone challenge were significantly greater in female subjects compared to male subjects (z=4.11, p<0.001). Forty-one subjects (25 male, 16 female) completed both the TSST and naloxone challenge. In this subset, ACTH and cortisol responses to the TSST did not differ significantly by gender, although the effect size was moderate to large. Adrenocorticotropin and cortisol responses to the naloxone challenge were significantly greater in female subjects compared to male subjects (z=2.29, p=0.022 and z=4.34, p<0.001, respectively). In summary, male subjects had greater HPA axis responses to a psychological stressor than female subjects, and females had greater hormonal reactivity than males to pharmacological stimulation with naloxone. Such differences are of interest as potential contributors to gender differences in health risks.     

Pituitary-adrenal response to acute and repeated mild restraint, forced swim and change in environment stress in arginine vasopressin receptor 1b knockout mice

Arginine vasopressin and corticotrophin-releasing hormone synthesised and released from the hypothalamic paraventricular nucleus are the prime mediators of the hypothalamic-pituitary-adrenal (HPA) axis response to stress. These neurohormones act synergistically to stimulate adrenocorticotophin (ACTH) secretion from the anterior pituitary, culminating in an increase in circulating glucocorticoids. Arginine vasopressin mediates this action at the arginine vasopressin 1b receptor (Avpr1b) located on pituitary corticotrophs. Arginine vasopressin is regarded as a minor ACTH secretagogue in rodents but evidence suggests that it has a role in mediating the neuroendocrine response to some acute and chronic stressors. To investigate the role of the Avpr1b in the HPA axis response to an acute and chronic (repeated) stress, we measured the plasma ACTH and corticosterone concentrations in three stress paradigms in both Avpr1b knockout and wild-type mice. Single acute exposure to restraint, forced swim and change in environment stressors elevated both plasma ACTH and corticosterone concentrations in wild-type animals. Conversely, the ACTH response to the acute stressors was significantly attenuated in Avpr1b knockout mice compared to their wild-type counterparts. Plasma corticosterone concentrations were reduced in Avpr1b knockout mice in response to change in environment but not to mild restraint or forced swim stress. Irrespective of genotype, there was no difference in the plasma ACTH or corticosterone concentrations in response to acute and repeated stressors. The data show that a functional Avpr1b is required for an intact pituitary ACTH response to the acute and chronic stressors used in this study. Furthermore, the normal corticosterone response to repeated exposure to change in environment stress also requires the Avpr1b to drive HPA axis responsiveness.     

Plasma ACTH and cortisol concentrations before and after dexamethasone

Alteration in the hypothalamic-pituitary-adrenal (HPA) axis occurs in up to 50% of depressed patients and is demonstrated by the failure to suppress cortisol concentrations after dexamethasone administration. Evidence suggesting that these cortisol abnormalities reflect hypothalamic-pituitary dysfunction has been inconsistent. We administered the dexamethasone suppression test to 28 psychiatric inpatients, including 17 cortisol suppressors and 11 nonsuppressors. Adrenocorticotropic hormone (ACTH) concentrations at 8 a.m. pre- and postdexamethasone were significantly greater in cortisol nonsuppressors than in suppressors. Our data support the hypothesis that pituitary ACTH secretion is altered in depressed patients who have HPA axis abnormalities demonstrated by plasma cortisol measurements.     

The Renin-Angiotensin-Aldosterone system in patients with depression compared to controls – a sleep endocrine study

Background  

Hypercortisolism as a sign of hypothamamus-pituitary-adrenocortical (HPA) axis overactivity and sleep EEG changes are frequently observed in depression. Closely related to the HPA axis is the renin-angiotensin-aldosterone system (RAAS) as 1. adrenocorticotropic hormone (ACTH) is a common stimulus for cortisol and aldosterone, 2. cortisol release is suppressed by mineralocorticoid receptor (MR) agonists 3. angiotensin II (ATII) releases CRH and vasopressin from the hypothalamus. Furthermore renin and aldosterone secretion are synchronized to the rapid eyed movement (REM)-nonREM cycle.     

The Central Effects of Orexin-A in the Hypothalamic-Pituitary-Adrenal Axis In Vivo and In Vitro in Male Rats

Orexin-A is synthesized in the posterolateral hypothalamus and immunoreactive fibres project to many central nervous system structures, including the paraventricular nucleus, which is rich in corticotropin releasing factor (CRF) neurones and neuropeptide Y (NPY) innervation. We investigated the central effects of orexin-A on the hypothalamic-pituitary-adrenal (HPA) axis by measuring plasma concentrations of corticosterone and adrenocorticotropic hormone (ACTH) in vivo. We explored the potential neuropeptide pathways involved by investigating the effects of orexin-A on CRF, NPY, arginine vasopressin (AVP) and noradrenaline release from hypothalamic explants in vitro. Intracerebroventricular (i.c.v.) injection of orexin-A (3 nmol) in male rats stimulated increases in plasma concentrations of corticosterone between 10 and 40 min after injection, and of plasma ACTH at 20 and 90 min after injection. Orexin-A significantly stimulated CRF and NPY release from hypothalamic explants in vitro. Orexin-A did not stimulate CRF release in the presence of the selective NPY Y1 receptor antagonist, BIBP3226. BIBP3226 alone did not alter CRF release from hypothalamic explants. Orexin-A had no effect in vitro on the release of other neuropeptides, AVP and noradrenaline, involved in the central regulation of the HPA axis. These results suggest that orexin-A is involved in activation of the HPA axis, and that these effects could be mediated via the release of NPY.     

Effects of mu, kappa, and delta opioid receptor agonists on the function of hypothalamic-pituitary-adrenal axis in monkeys

Opioids can modulate neuroendocrine function. Less is known about the involvement of opioid receptor subtypes in the stimulatory effects of opioids on the primate hypothalamic-pituitary-adrenal (HPA) axis. The aim of this study was to investigate the stimulatory effects of opioids selective for each receptor subtype on plasma adrenocorticotropic hormone (ACTH) and cortisol levels in both male and female monkeys. The blood collection procedure was conducted in home-caged and unanesthetized rhesus monkeys that showed low and stable basal ACTH and cortisol levels. Three opioid receptor agonists, fentanyl, U-50488H, and SNC80, were used in behaviorally active doses; they are highly selective for mu, kappa, and delta opioid receptors, respectively. Plasma samples were collected at multiple time points before and after IV administration of each compound and were quantified by radioimmunoassay. Neither fentanyl (0.0003-0.02mg/kg) nor SNC80 (0.03-0.3mg/kg) changed either ACTH or cortisol basal levels. In contrast, U-50488H (0.01-1mg/kg) dose-dependently stimulated ACTH and cortisol release in both male and female monkeys. Importantly, the stimulatory effects of U-50488H on the secretion of ACTH were blocked by a selective kappa opioid receptor antagonist, nor-Binaltorphimine. The antagonist effect of nor-binaltorphimine lasted up to 20 weeks. These results indicate that only synthetic kappa, but not mu or delta opioid receptor agonists stimulate HPA axis activity after acute administration in primates.     

Inhibition of Naloxone-Stimulated Adrenocorticotropin Release by Alprazolam in Myotonic Dystrophy Patients

Myotonic dystrophy (DM) is an autosomal dominant disorder causing myotonia, progressive muscle weakness, and endocrine abnormalities including hypothalamic-pituitary-adrenal (HPA) axis hyperresponsiveness to CRH-mediated stimuli. This ACTH hyperresponsiveness appears directly related to the underlying genetic abnormality. Naloxone (Nal)-mediated CRH release causes ACTH release in normal humans and an ACTH hyperresponse in DM. Alprazolam (APZ) attenuates the ACTH release in response to Nal in normal individuals, probably by inhibiting CRH release. This study investigates the effects of APZ on Nal-induced HPA axis stimulation in DM. The ACTH response to Nal in DM subjects was significantly reduced by APZ. Despite this DM patients have a relative resistance to APZ inhibition of Nal-induced ACTH/cortisol release. APZ caused a smaller percentage reduction in AUC for ACTH in DM compared with controls. These findings provide further insight into the mechanism(s) of the HPA axis abnormalities in DM. In DM, there may be an increase in tonic opioid inhibition to CRH release with compensatory increases in stimulatory pathways. Alternatively, these patients may have a basal increase in pituitary vasopressin levels or an enhanced AVP/CRH synergistic mechanism at the level of the corticotroph.     

Modulation of the hypothalamo-pituitary-adrenocortical axis by caffeine

Although caffeine is the most consumed psychoactive substance in the world, the extents of many of its effects are unknown. High doses of caffeine have been shown to activate the HPA axis while the effects of low to moderate doses have usually not been described in detail. Moreover, although several lines of evidence suggest that low doses of caffeine may restrain some negative affective states, the possible modulatory role of caffeine on HPA axis activation induced by a stressful stimulus has not been described. Thus, the present studies investigated the possible modulatory effects of low to moderate doses of caffeine on moderate to high HPA axis activation induced by different intensities of loud noise. First, in order to test this modulation, time courses for adrenocorticotropic hormone (ACTH) and corticosterone responses to loud noise stress and to caffeine were defined, in rats. Plasma ACTH and corticosterone levels peaked 30 min from the onset of noise presentation, and rapidly declined after noise termination. A low caffeine dose of 2 mg/kg significantly increased plasma corticosterone and ACTH levels 30 min following injections, but levels returned to baseline 60 min following injections. Caffeine doses of 30 mg/kg and higher elevated plasma hormone levels for at least 2h. Doses of 2 or 10mg/kg, however, did not modulate endocrine responses to loud noise presentation. It is concluded that although caffeine activates the HPA axis, low to moderate doses do not modulate HPA axis responses to stressful stimuli.     

Changes in the hypothalamic-pituitary-adrenal axis and leptin levels during antidepressant treatment

BACKGROUND: In depressed patients, overstimulation of the hypothalamo-pituitary-adrenocortical (HPA) system, probably caused by glucocorticoid receptor resistance, is the most consistent neurobiological finding. Glucocorticoids themselves are reported to increase leptin synthesis and secretion in humans. METHODS: We examined alterations in plasma levels of leptin as well as changes in the HPA system function using the combined dexamethasone/corticotropin-releasing hormone (dex/CRH) test on admission and at discharge in 74 depressed inpatients. RESULTS: Mean leptin concentration did not change significantly between admission and discharge. However, changes in ACTH response and partial cortisol response to the combined dex/CRH test between admission and discharge were significantly correlated with leptin levels at discharge. CONCLUSIONS: Leptin levels at discharge rise as the HPA axis normalizes. These findings may be explained by an improvement in glucocorticoid receptor sensitivity among depressed patients during antidepressant therapy and a consecutively increased influence of glucocorticoids on leptin levels via the glucocorticoid receptor.