Hypothalamic-pituitary-adrenal axis targets for the treatment of epilepsy.

Stress is a common seizure trigger in persons with epilepsy. The body's physiological response to stress is mediated by the hypothalamic-pituitary-adrenal (HPA) axis and involves a hormonal cascade that includes corticotropin releasing hormone (CRH), adrenocorticotropin releasing hormone (ACTH) and the release of cortisol (in humans and primates) or corticosterone (in rodents). The prolonged exposure to stress hormones may not only exacerbate pre-existing medical conditions including epilepsy, but may also increase the predisposition to psychiatric comorbidities. Hyperactivity of the HPA axis negatively impacts the structure and function of the temporal lobe of the brain, a region that is heavily involved in epilepsy and mood disorders like anxiety and depression. Seizures themselves damage temporal lobe structures, further disinhibiting the HPA axis, setting off a vicious cycle of neuronal damage and increasing susceptibility for subsequent seizures and psychiatric comorbidity. Treatments targeting the HPA axis may be beneficial both for epilepsy and for associated stress-related comorbidities such as anxiety or depression. This paper will highlight the evidence demonstrating dysfunction in the HPA axis associated with epilepsy which may contribute to the comorbidity of psychiatric disorders and epilepsy, and propose treatment strategies that may dually improve seizure control as well as alleviate stress related psychiatric comorbidities.

Medical Management of Cushing's Syndrome: Current and Emerging Treatments.

Endogenous Cushing's syndrome is a chronic disease associated with increased morbidity and mortality if not appropriately treated. Recurrence and/or persistence of hypercortisolemia after surgical treatment, especially for Cushing's disease, are high, and long-term medical treatment is used to decrease cortisol levels and risk of metabolic comorbidities. Medical treatment is also often required while waiting for radiation effects to take place. In some cases, severe or life-threatening hypercortisolism must be urgently and medically treated, via intravenous medications or with combination therapy, before patients can undergo surgery. In the last decade, medical treatment has progressed from a few steroidogenesis inhibitors to three novel drug groups: new inhibitors for steroidogenic enzymes with possibly fewer side effects, pituitary-directed drugs that aim to inhibit the pathophysiological pathways of Cushing's disease, and glucocorticoid receptor antagonists that block cortisol's action. Understanding the pathophysiology of Cushing's syndrome has also led to the identification of potential targets that may decrease adrenocorticotrophic hormone and/or cortisol excess, and/or decrease tumor cell proliferation, and induce senescence or apoptosis. We provide here a review of current and near-future medical options to treat Cushing's syndrome, and discuss updates on clinical trials and the efficacy and safety of novel or in-development drugs, as well as future potential targets.

AT-101 acts as anti-proliferative and hormone suppressive agent in mouse pituitary corticotroph tumor cells.

PURPOSE: Gossypol, a naturally occurring compound in cottonseeds, has anticancer effects against several tumor cell lines. It has been extensively studied in clinical trials and is well tolerated with a favorable safety profile. AT-101, a derivative of R (-)-gossypol, binds to Bcl-2 family proteins and induces apoptosis in vitro. Although transsphenoidal surgical excision of the pituitary corticotroph adenoma is the gold standard of care, it is not successful all the time. Medical therapy for Cushing's disease still remains a challenge for the clinicians. We aimed to investigate the cytotoxic and apoptotic effects of AT-101 in mouse pituitary corticotroph tumor AtT20 cells. METHODS: Cytotoxic effect of AT-101 was assessed by XTT cell viability assay. Apoptosis was shown by measuring DNA fragmentation and Caspase-3/7 activity. Changes in mRNA expressions of apoptosis-related genes were investigated by qPCR array after treatment with AT-101. ACTH was measured by ACTH-EIA Kit. RESULTS: AT-101 induced cytotoxicity and apoptosis in AtT20 cells. mRNA levels of pro-apoptotic genes such as TNFR-SF-10B, Bid, PYCARD, Caspase-8, Caspase-3, and Caspase-7 were induced by 2.0-, 1.5-, 1.7-, 1.5-, 1.6-, and 2-fold, respectively, in AtT20 cells by AT-101 treatment. Moreover, some of the anti-apoptotic genes such as BCL2L10, NAIP1, and PAK-7 were reduced by 2.1-, 2.3-, 4.0-fold, respectively, in AtT20 cells. AT-101 also decreased ACTH secretion significantly. CONCLUSION: AT-101 induces apoptosis in mouse pituitary corticotroph tumor cells.

ALD1613, a Novel Long-Acting Monoclonal Antibody to Control ACTH-Driven Pharmacology.

Adrenocorticotropic hormone (ACTH) is the primary regulator of adrenal glucocorticoid production. Elevated levels of ACTH play a critical role in disease progression in several indications, including congenital adrenal hyperplasia and Cushing disease. We have generated a specific, high-affinity, neutralizing monoclonal antibody (ALD1613) to ACTH. In vitro, ALD1613 neutralizes ACTH-induced signaling via all 5 melanocortin receptors and inhibited ACTH-induced cyclic adenosine monophosphate accumulation in a mouse adrenal cell line (Y1). ALD1613 administration to wild-type rats significantly reduced plasma corticosterone levels in a dose-dependent manner. In rodent models with either chronic infusion of ACTH or acute restraint stress-induced ACTH, corticosterone levels were significantly reduced by ALD1613. Administration of ALD1613 to nonhuman primates on days 1 and 7 stably reduced plasma cortisol levels >50% for 57 days. ALD1613 demonstrates the potential of a monoclonal antibody to be an effective therapeutic for conditions with elevated ACTH levels.

ABCC1 confers tissue-specific sensitivity to cortisol versus corticosterone: A rationale for safer glucocorticoid replacement therapy.

The aim of treatment in congenital adrenal hyperplasia is to suppress excess adrenal androgens while achieving physiological glucocorticoid replacement. However, current glucocorticoid replacement regimes are inadequate because doses sufficient to suppress excess androgens almost invariably induce adverse metabolic effects. Although both cortisol and corticosterone are glucocorticoids that circulate in human plasma, any physiological role for corticosterone has been neglected. In the brain, the adenosine 5'-triphosphate-binding cassette transporter ABCB1 exports cortisol but not corticosterone. Conversely, ABCC1 exports corticosterone but not cortisol. We show that ABCC1, but not ABCB1, is expressed in human adipose and that ABCC1 inhibition increases intracellular corticosterone, but not cortisol, and induces glucocorticoid-responsive gene transcription in human adipocytes. Both C57Bl/6 mice treated with the ABCC1 inhibitor probenecid and FVB mice with deletion of Abcc1 accumulated more corticosterone than cortisol in adipose after adrenalectomy and corticosteroid infusion. This accumulation was sufficient to increase glucocorticoid-responsive adipose transcript expression. In human adipose tissue, tissue corticosterone concentrations were consistently low, and ABCC1 mRNA was up-regulated in obesity. To test the hypothesis that corticosterone effectively suppresses adrenocorticotropic hormone (ACTH) without the metabolic adverse effects of cortisol, we infused cortisol or corticosterone in patients with Addison's disease. ACTH suppression was similar, but subcutaneous adipose transcripts of glucocorticoid-responsive genes were higher after infusion with cortisol rather than with corticosterone. These data indicate that corticosterone may be a metabolically favorable alternative to cortisol for glucocorticoid replacement therapy when ACTH suppression is desirable, as in congenital adrenal hyperplasia, and justify development of a pharmaceutical preparation.

Effect of retinoic acid on human adrenal corticosteroid synthesis.

AIMS: Retinoic acid has recently yielded promising results in the treatment of Cushing's disease, i.e., excess cortisol secretion due to a pituitary corticotropin (ACTH)-secreting adenoma. In addition to its effect on the tumoral corticotrope cell, clinical results suggest an additional adrenal site of action. Aim of this study was to evaluate whether retinoic acid modulates cortisol synthesis and secretion by human adrenals in vitro. MAIN METHODS: Primary cultures from 10 human adrenals specimens were incubated with 10nM, 100nM and 1µM retinoic acid with and without 10nM ACTH for 24h. Cortisol levels were measured by radioimmunoassay and CYP11A1, STAR and MC2R gene expression analyzed by real-time PCR. KEY FINDINGS: Retinoic acid increased cortisol secretion (149.5±33.01%, 151.3±49.45% and 129.3±8.32% control secretion for 10nM, 100nM and 1µM respectively, p<0.05) and potentiated STAR expression (1.51±0.22, 1.56±0.15 and 1.59±0.14 fold change over baseline, for 10nM, 100nM and 1µM respectively, p<0.05). Concurrently, retinoic acid markedly blunted constitutional and ACTH-induced MC2R expression (0.66±0.11, 0.62±0.08 and 0.53±0.07 fold change over baseline, for 10nM, 100nM and 1µM respectively, p<0.05; 0.71±0.10, 0.51±0.07 and 0.51±0.08 fold change over ACTH alone, for 10nM, 100nM and 1µM respectively, p<0.05). No effect on CYP11A1 was observed. SIGNIFICANCE: Retinoic acid stimulates cortisol synthesis and secretion in human adrenals and at the same time markedly blunts ACTH receptor transcription. These results reveal a novel, adrenal effect of retinoic acid which may contribute to its efficacy in patients with Cushing's disease.

FGF1 and FGF19 reverse diabetes by suppression of the hypothalamic-pituitary-adrenal axis.

Fibroblast growth factor-1 (FGF1) and FGF19 have been shown to improve glucose metabolism in diabetic rodents, but how this occurs is unknown. Here to investigate the mechanism of action of these growth factors, we perform intracerebroventricular (i.c.v.) injections of recombinant FGF1 or FGF19 in an awake rat model of type 1 diabetes (T1D) and measure rates of whole-body lipolysis, hepatic acetyl CoA content, pyruvate carboxylase activity and hepatic glucose production. We show that i.c.v. injection of FGF19 or FGF1 leads to a ∼60% reduction in hepatic glucose production, hepatic acetyl CoA content and whole-body lipolysis, which results from decreases in plasma ACTH and corticosterone concentrations. These effects are abrogated by an intra-arterial infusion of corticosterone. Taken together these studies identify suppression of the HPA axis and ensuing reductions in hepatic acetyl CoA content as a common mechanism responsible for mediating the acute, insulin-independent, glucose-lowering effects of FGF1 and FGF19 in rodents with poorly controlled T1D.

Melanocortins contribute to sequential differentiation and enucleation of human erythroblasts via melanocortin receptors 1, 2 and 5.

In this study, we showed that adrenocorticotropic hormone (ACTH) promoted erythroblast differentiation and increased the enucleation ratio of erythroblasts. Because ACTH was contained in hematopoietic medium as contamination, the ratio decreased by the addition of anti-ACTH antibody (Ab). Addition of neutralizing Abs (nAbs) for melanocortin receptors (MCRs) caused erythroblast accumulation at specific stages, i.e., the addition of anti-MC2R nAb led to erythroblast accumulation at the basophilic stage (baso-E), the addition of anti-MC1R nAb caused accumulation at the polychromatic stage (poly-E), and the addition of anti-MC5R nAb caused accumulation at the orthochromatic stage (ortho-E). During erythroblast differentiation, ERK, STAT5, and AKT were consecutively phosphorylated by erythropoietin (EPO). ERK, STAT5, and AKT phosphorylation was inhibited by blocking MC2R, MC1R, and MC5R, respectively. Finally, the phosphorylation of myosin light chain 2, which is essential for the formation of contractile actomyosin rings, was inhibited by anti-MC5R nAb. Taken together, our study suggests that MC2R and MC1R signals are consecutively required for the regulation of EPO signal transduction in erythroblast differentiation, and that MC5R signal transduction is required to induce enucleation. Thus, melanocortin induces proliferation and differentiation at baso-E, and polarization and formation of an actomyosin contractile ring at ortho-E are required for enucleation.

High incidence of adrenal suppression in children with Kawasaki disease treated with intravenous immunoglobulin plus prednisolone.

Combination treatment with intravenous immunoglobulin (IVIG) plus prednisolone, newly designed for children with severe Kawasaki disease (KD), reduces coronary artery abnormalities significantly. As prednisolone is administered for approximately 20 days in this regimen, we examined whether adrenal function of the treated patients is suppressed. A prospective study was performed at one medical institution in 21 children with KD (age range 0.3-10.4 years, median 3.1 years) who were treated with the regimen between February and June, 2012. We assessed cortisol and ACTH values before the initiation and after the cessation of prednisolone administration as well as peak cortisol and ACTH values at corticotropin-releasing hormone (CRH) stimulation tests, which were repeated 0, 2, and 6 months after the treatment. Morning cortisol and ACTH values after the cessation of prednisolone treatment were suppressed. Peak cortisol values at the first CRH stimulation test ranged from 5.1 to 25.4 µg/dL and were less than 20 µg/dL in 17 of 21 patients, but were restored to more than 14.6 µg/dL in all patients by 6 months after the prednisolone treatment. A significant positive correlation was observed between cortisol values at 09:00 h after the prednisolone treatment and peak cortisol values at the following CRH stimulation test (r = 0.727, p < 0.001). We conclude that adrenal suppression can occur in a high proportion of children with KD treated with IVIG plus prednisolone, despite rather short duration and relatively small amounts of administered glucocorticoids.

Alterations in the profile of blood neutrophil membrane receptors caused by in vivo adrenocorticotrophic hormone actions.

Elevated levels of adrenocorticotrophic hormone (ACTH) mobilize granulocytes from bone marrow into the blood, although these neutrophils are refractory to a full migratory response into inflamed tissues. Here, we investigated the dependence of glucocorticoid receptor activation and glucocorticoid-regulated protein annexin A1 (ANXA1) on ACTH-induced neutrophilia and the phenotype of blood neutrophil after ACTH injection, focusing on adhesion molecule expressions and locomotion properties. ACTH injection (5 µg ip, 4 h) induced neutrophilia in wild-type (WT) mice and did not alter the elevated numbers of neutrophils in RU-38486 (RU)-pretreated or ANXA1(-/-) mice injected with ACTH. Neutrophils from WT ACTH-treated mice presented higher expression of Ly6G⁺ANXA1(high), CD18(high), CD62L(high), CD49(high), CXCR4(high), and formyl-peptide receptor 1 (FPR1(low)) than those observed in RU-pretreated or ANXA1(-/-) mice. The membrane phenotype of neutrophils collected from WT ACTH-treated mice was paralleled by elevated fractions of rolling and adherent leukocytes to the cremaster postcapillary venules together with impaired neutrophil migration into inflamed air pouches in vivo and in vitro reduced formyl-methionyl-leucyl-phenylalanine (fMLP) or stromal-derived factor-1 (SDF-1α)-induced chemotaxis. In an 18-h senescence protocol, neutrophils from WT ACTH-treated mice had a higher proportion of ANXAV(low)/CXCR4(low), and they were less phagocytosed by peritoneal macrophages. We conclude that alterations on HPA axis affect the pattern of membrane receptors in circulating neutrophils, which may lead to different neutrophil phenotypes in the blood. Moreover, ACTH actions render circulating neutrophils to a phenotype with early reactivity, such as in vivo leukocyte-endothelial interactions, but with impaired locomotion and clearance.

Inhibitory effects of SOM230 on adrenocorticotropic hormone production and corticotroph tumor cell proliferation in vitro and in vivo.

Adrenocorticotropic hormone (ACTH) production by pituitary corticotroph adenomas is the main cause of Cushing's disease. A drug that targets pituitary ACTH-secreting adenomas would aid treatment of Cushing's disease. Octreotide, a somatostatin receptor type 2 (SSTR2)-preferring somatostatin analogue, has no effect on ACTH secretion in patients with Cushing's disease. The multiligand SOM230 (pasireotide) displays a much higher affinity for SSTR1 and SSTR5 than octreotide and suppresses ACTH secretion in cultures of human corticotroph tumors to a greater extent than octreotide. In the present in vitro and in vivo study, we determined the effect of SOM230 on ACTH production and cell proliferation of AtT-20 corticotroph tumor cells. SOM230 decreased proopiomelanocortin (POMC) mRNA levels in AtT-20 cells and ACTH levels in the culture medium of these cells, suggesting that SOM230 suppresses ACTH synthesis and secretion in corticotroph tumor cells. SOM230 also decreased cell proliferation and both cyclic adenosine monophosphate response element-binding protein and Akt phosphorylation in AtT-20 cells. SSTR5 knockdown inhibited the SOM230-induced decreases in cell proliferation. Fluorescence-activated cell sorting analyses revealed that SOM230 did not attenuate cell cycle progression. Tumor weight in mice xenografted with AtT-20 cells and treated with SOM230 was significantly lower than in AtT-20-xenografted control mice. SOM230 also significantly decreased plasma ACTH levels, and POMC and pituitary tumor transforming gene mRNA levels in the tumor cells. Thus, SOM230 inhibits ACTH production and corticotroph tumor cell proliferation in vitro and in vivo.

Pasireotide and mifepristone: new options in the medical management of Cushing's disease.

OBJECTIVE: To review and evaluate medical therapies for Cushing's disease (CD), with an emphasis on recent clinical trial experience with pasireotide and mifepristone, and to discuss the therapeutic potential and appropriate selection of these compounds in this patient population. METHODS: Recently published Phase III trial data for each compound are reviewed and assessed, and relative benefits and risks are examined and compared where possible. RESULTS: Mifepristone and pasireotide are both potentially beneficial for CD patients but have greatly dissimilar mechanisms of action and adverse event (AE) profiles. Pasireotide acts at the level of the pituitary adenoma, reducing cortisol levels through inhibition of adrenocorticotropic hormone (ACTH) release. However, pasireotide reduces insulin secretion and incretin hormone response and is associated with significant risk for new or worsening hyperglycemia. Mifepristone ameliorates the signs and symptoms of hypercortisolemia via glucocorticoid receptor (GR2) blockade, but this approach raises serum cortisol levels and increases risk for adrenal insufficiency (AI), hypokalemia, and endometrial thickening. While response to pasireotide can be monitored via measurements of serum, urine, or late-night salivary cortisol, evaluation of response to mifepristone is solely based on changes in clinical parameters (e.g., hyperglycemia, hypertension, body weight/composition). CONCLUSION: Management of persistent CD is challenging, and the decision to initiate medical treatment hinges on many factors. Pasireotide may be a more attractive option for most patients due to its action at the underlying tumor and the ability to monitor biochemical responses. However, mifepristone may be more appropriate when it is necessary to avoid or minimize risk for hyperglycemia-related complications.

Hypothalamic and pituitary clusterin modulates neurohormonal responses to stress.

Clusterin is a sulfated glycoprotein abundantly expressed in the pituitary gland and hypothalamus of mammals. However, its physiological role in neuroendocrine function is largely unknown. In the present study, we investigated the effects of intracerebroventricular (ICV) administration of clusterin on plasma pituitary hormone levels in normal rats. Single ICV injection of clusterin provoked neurohormonal changes seen under acute stress condition: increased plasma adrenocorticotropic hormone (ACTH), corticosterone, GH and prolactin levels and decreased LH and FSH levels. Consistently, hypothalamic and pituitary clusterin expression levels were upregulated following a restraint stress, suggesting an involvement of endogenous clusterin in stress-induced neurohormonal changes. In the pituitary intermediate lobe, clusterin was coexpressed with proopiomelanocortin (POMC), a precursor of ACTH. Treatment of clusterin in POMC expressing AtT-20 pituitary cells increased basal and corticotropin-releasing hormone (CRH)-stimulated POMC promoter activities and intracellular cAMP levels. Furthermore, clusterin treatment triggered ACTH secretion from AtT-20 cells in a CRH-dependent manner, indicating that increased clusterin under stressful conditions may augment CRH-stimulated ACTH production and release. In summary, hypothalamic and pituitary clusterin may function as a modulator of neurohormonal responses under stressful conditions.

Pasireotide: a review of its use in Cushing's disease.

Pasireotide (Signifor(®)) is a new subcutaneous somatostatin analogue that acts via somatostatin receptors to inhibit the secretion of corticotropin from the pituitary adenoma in patients with Cushing's disease. Pasireotide has a receptor binding profile that is distinct from that of other somatostatin analogues, binding with high affinity to somatostatin receptor subtype 5, which is strongly over expressed in corticotroph adenoma cells. Pasireotide is the first pituitary-directed agent to be approved for use in Cushing's disease. In a phase III clinical trial in patients with Cushing's disease, twice-daily pasireotide 600 or 900 µg for 6 months led to normalization of urinary free cortisol (UFC) levels in up to a quarter of all patients (primary endpoint) and significantly reduced mean UFC levels. The reduction in UFC levels is rapid (within one to two months) and sustained (up to 24 months). Most patients who do not have an early response to pasireotide do not respond at a later time point. Decreases in UFC levels achieved during pasireotide treatment are accompanied by decreases in serum and salivary cortisol levels, as well as improvements in clinical signs and symptoms, including body weight, blood pressure and health-related quality-of-life. Pasireotide has a generally similar tolerability profile to that of other somatostatin analogues, but is associated with a relatively high incidence of hyperglycaemia, requiring the addition or intensification of glucose-lowering medication in a substantial proportion of patients. Thus, pasireotide, together with on-going patient monitoring, provides a promising new option for the medical management of Cushing's disease.

Impact and timing of bilateral adrenalectomy for refractory adrenocorticotropic hormone-dependent Cushing's syndrome.

INTRODUCTION: In patients with refractory adrenocorticotropic hormone-dependent Cushing's syndrome,we evaluated steroidogenesis inhibition (SI) and bilateral adrenalectomy (BA) to predict which patients might benefit most from each treatment modality. METHODS: Clinical data from patients treated 1970-2012 were reviewed retrospectively by treatment group (SI or SI+BA). Validated severity scales were used to calculate metabolic (M) score (hypokalemia, hyperglycemia, hypertension, proximal muscle weakness) and adverse events (AE) score (thrombosis, fracture, infection). RESULTS: A total of 65 patients (16 pituitary, 49 ectopic) were treated with SI+BA (n = 21,32%) or SI alone (n = 44,68%). Presenting M scores and source of adrenocorticotropic hormone excess (ectopic versus pituitary) were similar. Both groups improved metabolically after treatment. Over one-third of AEs in the SI+BA group occurred within 12 months of presentation. Half (n = 24, 55%) of the patients treated with SI died (median survival, 24.0 months). Steroid excess contributed to 71% of complications. Six SI+BA patients died (29%), including all 3 patients with recurrent Cushing's syndrome after BA. Minor perioperative complications occurred in 7 patients (33%). CONCLUSION: Posttreatment M and AE scores improved for all patients and 70% of AEs occurred in SI+BA patients within 12 months of presentation, emphasizing the importance of early operative intervention. These data argue for the safety and efficacy of early BA in selected patients with uncontrollable Cushing's syndrome.

Nuevas perspectivas en el tratamiento farmacologico de la enfermedad de Cushing / New prospects for drug treatment in Cushing disease

Los farmacos que en la actualidad estan mereciendo mas atencion son aquellos con accion directa sobre el tumor inhibiendo la secrecion de ACTH: analogos de la somatostatina (..) (AU)

Hypercortisolism induced by Cushing disease causes high morbidity and mortality.The treatment of choice is pituitary surgery, but it often fails to achieve cure, and othertreatment modalities (radiotherapy, bilateral adrenalectomy) may therefore be required. Ifthese treatments are not effective or while waiting for their results, hypercortisolism shouldbe controlled with drugs.The classical drug treatments are those that act by inhibiting cortisol secretion by the adrenalgland (ketoconazole, metyrapone, mitotane, etomidate). The preliminary results of a new drug (LCI699) which is a potent enzyme inhibitor of cortisolsecretion have been reported.A clinical trial of the safety and efficacy of mifepristone, a glucocorticoid receptor antagonist,has just been published.The drugs deserving more attention today are those with a direct action on the tumor by inhibiting ACTH secretion: somatostatin analogues (pasireotide), dopamine agonists (cabergoline),PPAR- , and retinoic acid.A special review is made of the available clinical trials with pasireotide and cabergoline (AU)

Depressive-like behavior in adrenocorticotropic hormone-treated rats blocked by memantine.

Hyperactivity of the hypothalamic pituitary-adrenal (HPA) axis plays a role in the pathophysiology of major depressive disorder (MDD). Recent studies suggest the role of the glutamatergic system in the pathophysiology of MDD, and N-methyl-D-aspartate (NMDA) receptor antagonists have shown antidepressant effects in both preclinical and clinical studies. However, little is known about the role of adrenocorticotropic hormone (ACTH) specifically in the glutamatergic response to HPA axis activation. Glutamate is an NMDA receptor agonist, and glycine and D-serine act as co-agonists. Here, we measured brain concentrations of these amino acids in rats given repeated administration of ACTH (100 µg/rat/day, sc, for 14 days). Further, we also evaluated behavioral effects of memantine, a non-competitive NMDA antagonist, on immobility time in the forced swimming test and on locomotor activity in ACTH-treated rats. Compared with control rats, glutamine, glycine, L-serine, and D-serine levels were increased in the hippocampus of ACTH-treated rats; glutamate, glutamine, glycine, L-serine, and D-serine were increased in the cerebellum; and glutamine and glycine were increased in the frontal cortex and striatum, all with statistical significance. Remarkably, these increases in agonists and co-agonists might have led to the augmentation of NMDA receptor activity. ACTH treatment increased immobility time in the forced swimming test and decreased locomotor activity in rats. On the contrary, memantine (10 mg/kg, ip) significantly decreased immobility time in the forced swimming test and increased locomotor activity in ACTH-treated rats. Furthermore, imipramine (15 mg/kg, ip) did not alter immobility time in the forced swimming test whereas this drug significantly decreased locomotor activity in ACTH-treated rats. These results suggest that depressive-like behaviors by chronic ACTH treatment could be blocked by memantine.

Gene profiling reveals a role for stress hormones in the molecular and behavioral response to food restriction.

BACKGROUND: Food restriction is known to enhance learning and motivation. The neural mechanisms underlying these responses likely involve alterations in gene expression in brain regions mediating the motivation to feed. METHODS: Analysis of gene expression profiles in male C57BL/6J mice using whole-genome microarrays was completed in the medial prefrontal cortex, nucleus accumbens, ventral tegmental area, and the hypothalamus following a 5-day food restriction. Quantitative polymerase chain reaction was used to validate these findings and determine the time course of expression changes. Plasma levels of the stress hormone corticosterone (CORT) were measured by enzyme-linked immunosorbent assay. Expression changes were measured in adrenalectomized animals that underwent food restriction, as well as in animals receiving daily injections of CORT. Progressive ratio responding for food, a measure of motivated behavior, was assessed after CORT treatment in restricted and fed animals. RESULTS: Brief food restriction results in an upregulation of peripheral stress responsive genes in the mammalian brain. Time-course analysis demonstrated rapid and persistent expression changes in all four brain regions under study. Administration of CORT to nonrestricted animals was sufficient to induce a subset of the genes, and alterations in gene expression after food restriction were dependent on intact adrenal glands. CORT can increase the motivation to work for food only in the restricted state. CONCLUSIONS: These data demonstrate a central role for CORT in mediating both molecular and behavioral responses to food restriction. The stress hormone-induced alterations in gene expression described here may be relevant for both adaptive and pathological responses to stress.