Asymptomatic pituitary apoplexy induced by corticotropin-releasing hormone in a 14 year-old girl with Cushing's disease.

OBJECTIVES: Pituitary apoplexy is a rare complication of Cushing's disease (CD), especially in the paediatric age and even more rarely it can occur following anterior pituitary stimulation tests. CASE PRESENTATION: We report a case of a 14-year-old girl who was admitted to our Hospital for evaluation of a possible Cushing's syndrome (CS). Her symptoms and initial laboratory tests were suggestive of CD. Magnetic resonance imaging (MRI) revealed a microadenoma of the pituitary gland. As part of her evaluation she was submitted to a corticotropin-releasing hormone (CRH) stimulation test. Two and a half months later the patient was re-evaluated and presented with both clinical improvement of CS, biochemical resolution of hypercortisolism and tumour size reduction in the MRI, also evidencing a haemorrhagic component favouring the diagnosis of pituitary apoplexy after CRH stimulation test. The patient denied any episodes of severe headache, nausea, vomiting or visual changes. CONCLUSIONS: To our knowledge, the authors report the first case of a pituitary apoplexy after a CRH stimulation test in the paediatric age.

Electroacupuncture ameliorates corticotrophin-releasing factor-induced jejunal dysmotility in a rat model of stress.

BACKGROUND: Central injection of corticotrophin-releasing factor (CRF) mimics the effect of stress on gastrointestinal (GI) responses, including inhibition of GI motility. This study was designed to explore the effects of electroacupuncture (EA) on disordered jejunal motility in a rat model of stress induced by intracisternal (IC) injection of CRF. METHODS: A stress model was established by IC injection of CRF in Sprague-Dawley rats. GI motility was evaluated by assessing gastric emptying (GE), gastrointestinal transit (GIT) and jejunal motility in vivo. EA was performed at ST36. The functional roles of CRF receptor subtype 1 and subtype 2 (CRFr1 and CRFr2) were examined by IC administration of the corresponding selective CRF antagonists. Protein expression of CRFr1 and CRFr2 in the hypothalamus and jejunum was detected by Western blotting. RESULTS: IC injection of CRF significantly inhibited GE, GIT and jejunal motility. EA treatment remarkably improved the disturbed GI motility. Intriguingly, the disordered jejunal motility induced by central CRF was abolished by IC injection of a selective CRFr2 antagonist, indicating the essential role of central CRFr2 in mediating the stress-induced jejunal motor disorder. EA at ST36 decreased central and peripheral expression of CRFr2, which might be one of the potential mechanisms underlying the beneficial effect of EA on jejunal dysmotility in this rat model of stress. CONCLUSION: This study suggested that EA at ST36 could ameliorate disordered jejunal motility induced by stress, and that this might be associated with the down-regulation of CRFr2.

Cardiovascular Effects of Urocortin-2: Pathophysiological Mechanisms and Therapeutic Potential.

Urocortin-2 (Ucn-2) is a peptide of the corticotrophin releasing factor-related family with several effects within the cardiovascular system. A variety of molecular mechanisms has been proposed to underlie some of these effects, although others remain mostly hypothetical. Growing interest in the cardiovascular properties of this peptide promoted several pre-clinical studies in the settings of heart failure and ischemia, as well as some experiments in the fields of systemic and pulmonary arterial hypertension. Most of these studies report promising results, with Ucn-2 showing therapeutic potential in these settings, and few clinical trials to date are trying to translate this potential to human cardiovascular disease. Ucn-2 also appears to have potential as a biomarker of diagnostic/prognostic relevance in cardiovascular disease, this being a recent field in the study of this peptide needing further corroboration. Regarding the increasing amount of evidence in Ucn-2 investigation, this work aims to make an updated review on its cardiovascular effects and molecular mechanisms of action and therapeutic potential, and to identify some research barriers and gaps in the study of this cardioprotective peptide.

When mothers neglect their offspring: an activated CRF system in the BNST is detrimental for maternal behavior.

Becoming a mother is an intense experience that not only changes a woman's life but is also paralleled by multiple central adaptations. These changes evolve before parturition and continue to persist into lactation, thereby ensuring the full commitment of the mother to care for the newborns. Most of our knowledge on these adaptations that drive the peripartum brain come from rodent animal models. On one side, it is known that maternal behavior is initiated and maternal mood is stabilized by an upregulation of the pro-maternal neuropeptide systems' activity of oxytocin and arginine-vasopressin. On the other side, signaling of the rather anti-maternal corticotropin-releasing factor system triggers maternal neglect and increases maternal anxiety. Here, we discuss how the corticotropin-releasing factor system based in the limbic bed nucleus of the stria terminalis negatively affects maternal behavior and maternal mood. Moreover, we apply microdialysis and acute pharmacological interventions to demonstrate how the corticotropin-releasing factor system potentially interacts with the pro-maternal oxytocin system in the posterior bed nucleus of the stria terminalis to trigger certain aspects of maternal behavior.

Changes in Intestinal Motility and Gut Microbiota Composition in a Rat Stress Model.

BACKGROUND: Irritable bowel syndrome (IBS) causes chronic abdominal pain and abnormal bowel movements. The etiology involves complicated interactions among visceral hypersensitivity, disorders related to bowel movements, and stress. Changes in the microbiota affect the IBS pathophysiology. We investigated changes in colorectal motility, structure, and microbiota in response to stress due to maternal separation (MS) and corticotropin-releasing hormone (CRH) administration in rats. SUMMARY: Neonatal rats were separated from their mothers for 3 h daily from postnatal day (PND) 2 to PND14. The control group included rats of the same age that were not separated. After MS, the rats were undisturbed for 5 weeks. At 8 weeks of age, 10 µg of CRH or saline was intravenously administered to MS and control groups. Two hours later, the number of fecal pellets was counted. Three hours after CRH or saline administration, the rats were sacrificed and colorectal tissue samples and cecal contents were collected to analyze the fecal microbiota. The number of fecal pellets was significantly greater in MS with the CRH group. Both stressors altered the microbiota composition. Key Messages: Among rats that received CRH, MS increased the colorectal motility. Stress due to MS altered the gut microbiota composition.

Opposing roles of corticotropin-releasing factor and neuropeptide Y within the dorsolateral bed nucleus of the stria terminalis in the negative affective component of pain in rats.

Pain is a complex experience composed of sensory and affective components. Although the neural systems of the sensory component of pain have been studied extensively, those of its affective component remain to be determined. In the present study, we examined the effects of corticotropin-releasing factor (CRF) and neuropeptide Y (NPY) injected into the dorsolateral bed nucleus of the stria terminalis (dlBNST) on pain-induced aversion and nociceptive behaviors in rats to examine the roles of these peptides in affective and sensory components of pain, respectively. In vivo microdialysis showed that formalin-evoked pain enhanced the release of CRF in this brain region. Using a conditioned place aversion (CPA) test, we found that intra-dlBNST injection of a CRF1 or CRF2 receptor antagonist suppressed pain-induced aversion. Intra-dlBNST CRF injection induced CPA even in the absence of pain stimulation. On the other hand, intra-dlBNST NPY injection suppressed pain-induced aversion. Coadministration of NPY inhibited CRF-induced CPA. This inhibitory effect of NPY was blocked by coadministration of a Y1 or Y5 receptor antagonist. Furthermore, whole-cell patch-clamp electrophysiology in dlBNST slices revealed that CRF increased neuronal excitability specifically in type II dlBNST neurons, whereas NPY decreased it in these neurons. Excitatory effects of CRF on type II dlBNST neurons were suppressed by NPY. These results have uncovered some of the neuronal mechanisms underlying the affective component of pain by showing opposing roles of intra-dlBNST CRF and NPY in pain-induced aversion and opposing actions of these peptides on neuronal excitability converging on the same target, type II neurons, within the dlBNST.

Bilateral inferior petrosal sinus sampling with desmopressin.

In this technical note, the use of desmopressin to stimulate pituitary adrenocorticotropic hormone secretion in place of the commercially available corticotropin releasing hormone (CRH) in bilateral inferior petrosal sinus sampling is described. Although the use of CRH is the standard of practice, it is currently unavailable in the USA and desmopressin provides reliable results with no additional observed side effects.

L-ornithine attenuates corticotropin-releasing factor-induced stress responses acting at GABAA receptors in neonatal chicks.

I.c.v. injection of L-ornithine has been shown to have sedative and hypnotic effects on neonatal chicks exposed to acute stressful conditions. To clarify the mechanism, we conducted three experiments under strengthened stressful conditions with corticotropin-releasing factor (CRF). In Experiment 1, the effect of i.c.v. injection of CRF, L-ornithine (0.5 µmol) or CRF with L-ornithine on the stressful response of chicks was investigated. Compared with the vehicle control, CRF increased distress vocalizations and the time spent in active wakefulness. L-ornithine increased the time spent in sleeping posture, even following stimulation with CRF. In Experiment 2, dose-dependent effects of L-ornithine were investigated using i.c.v. administration with vehicle, CRF alone or CRF plus L-ornithine (0.125, 0.25 or 0.5 µmol). L-ornithine decreased the CRF-stimulated distress vocalizations in a dose-dependent manner. In Experiment 3, the chicks were injected i.c.v. with either CRF, CRF plus L-ornithine (0.5 µmol), CRF plus the γ-aminobutyric acid (GABA)A receptor antagonist picrotoxin or L-ornithine with picrotoxin. The sedative and hypnotic effects induced by L-ornithine were blocked with co-administration of picrotoxin. These results suggest that L-ornithine could attenuate CRF-stimulated stress behaviors acting at GABAA receptors.

Corticorelin, a synthetic human corticotropin-releasing factor analog, for the treatment of peritumoral brain edema.

Corticorelin is a synthetic analog of the naturally occurring human peptide corticotropin-releasing factor (CRF). Several studies have indicated the ability of CRF to reduce the brain edema caused by brain tumors. Peritumoral brain edema (PBE), caused by an intracerebral tumor, manifests several features of vasogenic edema, which is a type of edema characterized by disruption of the blood-brain barrier. Traditionally, PBE has been treated using corticosteroids, primarily dexamethasone. Introduced more than four decades ago, dexamethasone revolutionized the treatment of PBE, but the side effects and withdrawal symptoms associated with corticosteroids propelled the investigation of other drugs. Clinical trials with the synthetic human CRF (hCRF) corticorelin (Xerecept, NEU-3002; Celtic Pharmaceutical Holdings) have indicated that this drug has a distinct advantage over classical corticosteroids in the treatment of PBE. Fewer and/or milder side effects have been reported for corticorelin compared with dexamethasone, although at higher doses of corticorelin several side effects, including hypotension and transient flushing, have been reported. Nevertheless, corticorelin was reasonably well tolerated in patients and healthy volunteers, and may be a good candidate for reducing PBE and associated neural damage, as well as improving neurological symptoms.

[Selective influence of dehydroepiandrosterone-sulphate on anxiety induced by corticotropin-releasing hormone injection].

The objective of this study was to ascertain the effect of dehydroepiandrosterone-sulphate (DHEA-S) on changes of anxiety level, induced by corticotropin-releasing hormone (CRH) injection. Active and passive rats were selected from Wistar rats on the basis of T-maze testing. Active rats were then divided into the groups with high (HA) and low anxiety (LA) level after testing in elevated-plus maze. Intranasal injection of CRH induced increase of anxiety level in the LA rats, while in HA rats it remained unchanged. DHEA-S exerted a moderate anxiolytic effect on the LA rats and sedative effect--on the HA rats. DHEA-S injection had no effect on anxiety level in passive rats that typically demonstrate high level of trait-anxiety and resistance to CRH. These results suggest that DHEA-S effect depends on the individual psycho-emotional status and responsiveness to CRH.

Cognitive modulation of endocrine responses to CRH stimulation in healthy subjects.

BACKGROUND: The hypothalamic-pituitary adrenal (HPA) axis is critical for biobehavioral adaptation to challenge and appears dysregulated in a range of psychiatric disorders. Its precise role in psychopathology remains unclear and discrepant and difficult to explain findings abound in the clinical literature. Basic research suggests this system is sensitive to psychosocial cues, but psychosocial milieu factors are rarely controlled or examined in psychiatric studies using biological probes of the HPA axis. To test the hypothesis that psychological factors might complicate HPA study results even in direct, pharmacological challenge paradigms, endocrine responses to corticotropin-releasing hormone (CRH) were examined under two different cognitive preparation conditions. METHODS: Healthy subjects (n=32) received standard instructions or a cognitive intervention (CI) prior to injection with CRH and placebo, given on separate days in random order. The CI combined access to control over drug exposure with novelty reduction and coping enhancement. Blood samples were obtained via intravenous catheter before and after CRH. RESULTS: Cognitive intervention reduced corticotropin (ACTH) levels, but only when CRH was given first (intervention by order interaction). It did not reduce cortisol response. The CI and visit (1st or 2nd) both impacted cortisol levels on placebo day. CONCLUSIONS: Modifiable psychological factors may amplify or inhibit HPA axis activity in pharmacological activation paradigms, including CRH stimulation tests. The factors manipulated by the CI (novelty/familiarity, control and coping) may have particular salience to the HPA axis. Differential sensitivity to such factors could impact results in studies applying biological HPA probes to psychiatric populations.

Corticorelin acetate injections for the treatment of peritumoral brain edema.

BACKGROUND: The use of corticosteroids has been shown to be effective in the management of vasogenic edema caused by brain tumors, and is currently the standard of care. The associated systemic side effects, however, can be even more debilitating than the primary disease process, ultimately warranting premature discontinuation of steroids in some patients. In response, corticorelin acetate, a synthetic targeted human corticotropin-releasing factor (hCRF) analogue, has been developed to simulate the benefits of corticosteroids in treating peritumoral brain edema (PBE), while sparing the systemic toxicity. OBJECTIVE: This article reviews the development of corticorelin acetate and its potential role in treating PBE as an alternative to standard corticosteroid therapy. METHODS: Relevant articles and abstracts were obtained from searches of the medical and chemical literature databases, as well as from the references from published articles. RESULTS/CONCLUSION: Animal studies and a Phase I randomized trial have demonstrated that hCRF is well tolerated and effective in reducing PBE and its associated signs and symptoms. In addition, the effectiveness of this drug may be helpful in sparing the use of corticosteroid therapy in patients with brain tumors, with the results from several multicenter, randomized, placebo-controlled, Phase III clinical trials currently pending.

[Delayed behavioral and morphological consequences in activation of the stress-antistress system in early ontogeny stages in rats].

Wistar rat pups aged 4-10-17 days were injected intraperitoneally with corticoliberin (corticotrophin-releasing hormone, CRH) in doses of 0.5 - 1.0 - 2.0 mg/rat, respectively (single administration for each rat), which activates the stress system, or with 70-kDa heat-shock protein (HSP-70) in doses of 5 - 10 - 20 mg/rat, respectively, which plays the role of intracellular shaperons and possesses antistress properties. The effect of drugs on the emotional and motor behavior was assessed in 5 tests (open field, elevated plus-maze, intruder-resident, Porsolt's depression test, and rotation test) in adult rats 90- 100-days-old. The activation of stress or antistress systems by CRH or HSP-70, respectively, changed the behavior of adult rats. These effects depended on the animal gender, being different in males and females: male rats were more sensitive in Porsolt's depression test, elevated plus-maze anxiety test, and rotation test, while being less sensitive in the open field and intruder-resident tests. These results indicate that the initial sensitivity of males and females with respect to CRH and HSP-70 is also different. The experimental data exhibited correlation with the results of morphological investigation of the limbic structures of the brain. In particular, CRH increased the relief (volume) of neurons of substantia nigra and ventral tegmental region without changing their density, while HSP-70 produced moderate degeneration of neurons and decreased their density. It is suggested the obtained data have to be taken into account in planning and conducting experimental investigations devoted to the influence of various pharmacological agents on the behavior.

Primary hyperaldosteronism is associated with derangement in the regulation of the hypothalamus-pituitary-adrenal axis in humans.

Hippocampal mineralocorticoid receptors (MR) play a major role in the control of hypothalamus- pituitary-adrenal (HPA) axis. The functional profile of HPA axis and the impact of MR blockade under chronic exposure to mineralocorticoid excess are unknown. To clarify this issue, ACT H, cortisol, and aldosterone secretions were studied in 6 patients with primary hyperaldosteronism (HA) and 8 controls (NS) during placebo, placebo+human CR H (hCR H) (2 microg/kg iv bolus at 22:00 h), potassium canrenoate (CAN, 200 mg iv bolus at 20:00 h followed by 200 mg infused over 4 h) or CAN+hCR H. During placebo, both aldosterone and ACT H levels were higher (p<0.01) in HA than in NS, while cortisol levels were not significantly different. Both HA and NS showed significant ACT H and cortisol responses to hCR H (p<0.004), although the hormonal responses in HA were higher (p<0.02) than in NS. CAN infusion did not modify aldosterone levels in both HA and NS. Under CAN infusion, ACT H showed progressive rise in NS (p<0.05) but not in HA, while cortisol levels showed a significant (p<0.05) but less marked and delayed increase in HA compared to NS. CAN enhanced hCRH-induced ACTH and cortisol responses in NS (p<0.05), but not in HA. In conclusion, in humans primary hyperaldosteronism is associated with deranged function of the HPA axis. In fact, hyperaldosteronemic patients show basal and hCR H-stimulated HPA hyperactivity that is, at least partially, refractory to further stimulation by mineralocorticoid blockade with canrenoate. Whether this hormonal alteration can influence the clinical feature of hypertensive patients with primary hyperaldosteronism needs to be clarified.

Non-invasive measurement of stress in dairy cows using infrared thermography.

The possibility that changes in eye temperature, measured using infrared thermography (IRT), can detect stress in dairy cattle was examined by six different stimulations of the stress axis. Six cows were given six treatments in a random Latin-square design: 1) Control (saline) 2) ACTH (0.05 mg Synacthen) 3) bCRH (20 mug) 4) bCRH (40 mug) 5) epinephrine (1.4 mug /kg liveweight) and 6) social isolation. Treatments were administered at time 0 and blood samples were taken at -30, -15, 0, 5, 10, 15, 20, 30, 40, 50, 60, 75, 90, 120, 180 and 240 min except for epinephrine which was sampled at -30, -15, -10, -5, 0, 2, 5, 10, 15, 20, 30, 45, 60, 90 and 120 min. Core body temperature was recorded every 10 min and eye images collected every 2 min. Eye temperature and cortisol increased following catheterization (P<0.05). ACTH increased following bCRH, cortisol increased following ACTH and bCRH (P<0.001) and NEFA increased following epinephrine (P<0.001). Core body temperature was unaffected by treatments. Eye temperature was unaffected by CRH and epinephrine but was higher 30 and 60 min following control and ACTH (P<0.001). Our results provide evidence that exogenous HPA stimulation does not increase eye temperature. The increases in eye temperature following catheterization however raise the possibility that a cognitive component may be required for an eye temperature response to occur.

An investigation of hypothalamic-pituitary-adrenal axis hyperactivity in anorexia nervosa: the role of CRH and AVP.

We hypothesised that hypothalamic-pituitary-adrenal (HPA) axis hyperactivity in anorexia nervosa (AN) is associated with (a) elevated arginine vasopressin (AVP) activity and (b) enhanced pituitary sensitivity to AVP, as it is in depressive illness. 16 Healthy women and 18 women with active AN participated in a combined dexamethasone (DXM)/corticotrophin releasing hormone (CRH) challenge test and an AVP challenge test. This combination of tests is designed to assess the functional contribution of AVP to HPA axis activity. 10 of the active AN group repeated participation after weight gain. The cortisol response to AVP was reduced by 138% in the active AN group, suggesting an impairment of pituitary sensitivity to AVP, which began to normalise with weight gain. The cortisol and adreno-corticotrophin (ACTH) responses to the DXM/CRH test were not significantly enhanced in the active AN group, suggesting that there was no elevated endogenous AVP activity augmenting the response to CRH in AN. Weight gain was associated with blunting of the endocrine response to the DXM/CRH test, which may have been related to rising oestrogen levels. Thus, contrary to the hypotheses, we did not find (a) evidence of upregulated AVP activity or (b) enhanced pituitary sensitivity to AVP in AN. These findings suggest that the mechanism of HPA axis hyperactivity differs in depression and AN, with greater involvement of AVP in depressive disorder and perhaps more reliance on CRH to drive the axis in AN. The powerful anorexigenic effect of CRH could contribute to the severity of weight loss associated with AN.

Analgesia and hyperalgesia from CRF receptor modulation in the central nervous system of Fischer and Lewis rats.

This study examines the contribution of central corticotropin-releasing factor (CRF) to pain behavior. CRF is the principal modulator of the hypothalamo-pituitary-adrenal (HPA) axis, in addition to acting on many other areas of the central nervous system. We compared nociceptive thresholds (heat and mechanical) and pain behavior in response to a sustained stimulus (formalin test) between Fischer and Lewis rats that have different HPA axis activity. Intracerebroventricular (i.c.v.) administration of CRF produced dose-dependent antinociception at a lower dose in Lewis (40 ng, paw pinch 71+/-0 g) compared to Fischer rats (200 ng, 112+/-3 g). The antinociceptive effect of CRF was mostly preserved in adrenalectomized Fischer rats. The i.c.v. administration of the CRF receptor antagonist, astressin, had a hyperalgesic effect, suggesting that CRF is tonically active. Lewis rats required higher doses of astressin (5 ng, paw pinch 51+/-1 g) to show nociceptive effects compared to Fischer rats (1 ng, 79+/-1 g). Only Lewis rats vocalized during mechanical stimulus, and this behavior was prevented by diazepam or morphine but was worsened by CRF, despite its antinociceptive property. In the formalin test, CRF and astressin had the largest effect on the interphase suggesting that they act on the endogenous pain inhibitory system. CRF also increased anxiety/fear-like behaviors in the forced swim and predator odor tests. Our results establish that central CRF is a key modulator of pain behavior and indicates that CRF effects on nociception are largely independent of its mood modulating effect as well as its control of the HPA axis.

Corticorelin: ACTH RF, corticoliberin, corticotrophin-releasing hormone, corticotropin-releasing factor, human corticotropin-releasing hormone, ovine corticotrophin-releasing factor, Xerecept.

Neurobiological Technologies in the US is clinically developing corticorelin [ACTH RF, corticoliberin, corticotrophin-releasing hormone, corticotropin-releasing factor, human corticotropin-releasing hormone; Xerecept], a synthetic preparation of the peptide hormone Corticotropin-Releasing Factor (CRF), as a potential treatment for the reduction of cerebral oedema associated with brain cancer (peritumoral brain oedema). Corticorelin may be a safer alternative than the use of current treatments such as synthetic corticosteroids. In addition, the company believe the agent may enhance radiation therapy for brain tumours. Neurobiological Technologies licensed human corticorelin from the Salk Institute in the US. Various phase I/II trials have shown improvement in neurological function with corticorelin, which was well tolerated. In 1998, corticorelin received orphan drug status from the US FDA for the treatment of peritumoral brain oedema.

Pituitary apoplexy induced by corticotrophin-releasing hormone in a patient with Cushing's disease.

Pituitary apoplexy can occur spontaneously or following anterior pituitary stimulation tests. Apoplexy is a rare complication of Cushing's disease. We report a 19-year-old woman who was admitted to the National Institutes of Health for evaluation of possible Cushing's syndrome. Her symptoms and initial laboratory work were suggestive of Cushing's disease. Magnetic resonance imaging (MRI) revealed a macroadenoma of the pituitary gland. As part of her evaluation she received corticotrophin-releasing hormone (CRH). Two days later she developed severe headache, accompanied by nausea and vomiting, followed by meningismus, ptosis and diplopia. A diagnosis of pituitary apoplexy was made and she was treated conservatively with dexamethasone. Her neurological symptoms resolved shortly afterwards. By the time of discharge her anterior pituitary function was suppressed. All symptoms and signs of Cushing's syndrome resolved thereafter. This is the first case to demonstrate that CRH administration can induce pituitary apoplexy in a patient with Cushing's disease. Therapy with glucocorticoids was effective in our case, suggesting that conservative treatment can be successfully and safely applied in certain cases with pituitary apoplexy.