Lipopolysaccharide-induced oestrogen receptor regulation in the paraventricular hypothalamic nucleus of lewis and Fischer rats.

Oestrogen receptor (ER) regulation of gene transcription in neurosecretory and pituitary cells has been proposed as an important mechanism for increased hypothalamic-pituitary-adrenal (HPA) axis responses in females of several mammalian species, including humans. Inbred female Fischer (F344/N) and Lewis (LEW/N) rats have similar oestrogen levels, although Fischer rats exhibit hyper- and Lewis rats hypo-HPA axis responses. The blunted HPA axis response of Lewis rats has been associated with their blunted hypothalamic corticotropin releasing hormone (CRH) expression. To determine if the female CRH expression deficiency in Lewis rats is associated with defective ER expression and regulation, hypothalamic paraventricular nucleus (PVN) transcript levels of CRH and ER were determined under basal conditions and after immune challenge. Microdissected PVN were obtained from control and lipopolysaccharide (LPS) treated Lewis and Fischer rats and CRH, ERalpha and beta mRNA levels were determined by semiquantitative reverse-transcriptase-polymerase chain reaction. In addition, ERalpha and beta protein levels were determined by semiquantitative Western blots. ERalpha and beta mRNA and protein levels in the PVN of control Fischer rats were significantly higher than in control Lewis rats. ERalpha and beta mRNA and protein levels in Fischer rats were reduced by LPS administration at the time of maximal CRH mRNA levels but did not change in Lewis rats, an effect independent of oestrogen levels. These data indicate that defective neuroendocrine HPA axis responses are associated with defective ER expression and regulation in Lewis PVN despite oestrogen concentrations.

Effects of cross fostering on open-field behavior, acoustic startle, lipopolysaccharide-induced corticosterone release, and body weight in Lewis and Fischer rats.

Lewis (LEW/N) and Fischer (F344/N) rats differ on a myriad of behavioral and physiological endpoints, some of which have been reported to be affected by maternal experience in outbred rats and other strains. To assess whether epigenetic factors contribute to the differential behavioral responses to stress and pro-inflammatory challenges in these strains, the effects of cross fostering on open-field, acoustic startle, and glucocorticoid reactivity to lipopolysaccharide (LPS) were examined in the present experiment. In the open-field test, although in-fostered female LEW/N and F344/N strains did not differ, female LEW/N rats displayed significantly greater activity than female F344/N rats in the cross-fostered condition. Differences between males of the two strains were increased by cross fostering, with the LEW/N strain displaying greater total activity. In acoustic startle, there was little strain difference between in-fostered or cross-fostered female rats. On the other hand, in-fostered male LEW/N rats had a significantly greater startle response than in-fostered male F344/N rats, an effect that was dramatically reduced by cross fostering. In-fostered female LEW/N rats displayed a blunted corticosterone response relative to in-fostered female F344/N rats, an effect that was reduced by cross fostering. Conversely, although there was no strain difference between male in-fostered rats, cross-fostered male F344/N rats displayed a significantly greater corticosterone response to LPS than cross-fostered male LEW/N rats. Finally, body weight differences between in-fostered LEW/N and F344/N rats were reduced by cross fostering. Together, these data illustrate that maternal factors play a role in the behavioral and physiological responses to stress between the two strains.

Exclusion of angiotensin I-converting enzyme as a candidate gene involved in exudative inflammatory resistance in F344/N rats.

BACKGROUND: Inbred LEW/N and F344/N rats respectively, are susceptible and relatively resistant to a broad range of inflammatory/autoimmune diseases. We recently identified a quantitative trait locus (QTL) on chromosome 10 that protects the F344/N rat from carrageenan-induced exudation in a dominant fashion. Angiotensin I-converting enzyme (ACE) is one of the candidate genes located in this QTL region that plays an important role in inflammation. MATERIALS AND METHODS: RNA was extracted from both LEW/N and F344/N rat strains and used to produce full length cDNA by reverse transcription polymerase chain reaction (RT-PCR). Both strands of the PCR products were entirely sequenced to determine nucleotide differences between strains. ACE activity was measured using the synthetic substrate 3H-hippuryl-glycylglycine. ACE protein levels were determined by Western blot using a specific ACE antibody. ACE kinetic and inhibition studies were performed using specific substrates (Hip-His-Leu and Acetyl-Seryl-Aspartyl-Acetyl-Lysyl-Proline) and inhibitors (lisinopril, captopril and quinaprilat) for each C- and N-terminal active site. Finally, the dose-effects of lisinopril treatment on carrageenen-induced exudate volume and ACE activity was studied. RESULTS: In this study, we report for the first time a missense mutation in the coding region of ACE cDNA at 5' 1021 from C to T, resulting in a Leu-341 to Phe substitution, close to the N-domain active site in the F344/N rats. Full characterization of soluble and tissue ACE in both LEW/N and F344/N rat strains showed that soluble ACE levels in serum and exudate were 1.5 fold higher in the F344/N rats than those in LEW/N rats. In addition, the soluble ACE level was inversely correlated with the exudate volume. However, the specific ACE activity and its catalytic properties were identical in both strains. Furthermore, the chronic inhibition of serum and exudate ACE levels by lisinopril treatment did not affect the exudate volume in F344/N rats, indicating that several factors besides ACE were involved in the control of carrageenan-induced exudation. CONCLUSIONS: This report describes a complete molecular, biochemical, enzymatic and pharmacologic study of a missense mutation in the ACE cDNA in F344/N rats, that taken together, excludes ACE as a candidate gene involved with resistance to carrageenan-induced exudation in F344/N rats.

Oral administration of a corticotropin-releasing hormone receptor antagonist significantly attenuates behavioral, neuroendocrine, and autonomic responses to stress in primates.

We evaluated the effects of the lipophilic nonpeptide corticotropin-releasing hormone (CRH) type 1 receptor antagonist antalarmin on the behavioral, neuroendocrine, and autonomic components of the stress response in adult male rhesus macaques. After oral administration, significant antalarmin concentrations were detected in the systemic circulation and the cerebrospinal fluid by a mass spectrometry-gas chromatography assay developed specifically for this purpose. Pharmacokinetic and dose-response studies suggested that an oral dose of 20 mg/kg was optimal for behavioral and endocrine effects. We then administered this dose in a double-blind, placebo-controlled fashion to monkeys exposed to an intense social stressor: namely, placement of two unfamiliar males in adjacent cages separated only by a transparent Plexiglas screen. Antalarmin significantly inhibited a repertoire of behaviors associated with anxiety and fear such as body tremors, grimacing, teeth gnashing, urination, and defecation. In contrast, antalarmin increased exploratory and sexual behaviors that are normally suppressed during stress. Moreover, antalarmin significantly diminished the increases in cerebrospinal fluid CRH as well as the pituitary-adrenal, sympathetic, and adrenal medullary responses to stress. We conclude that CRH plays a broad role in the physiological responses to psychological stress in primates and that a CRH type 1 receptor antagonist may be of therapeutic value in human psychiatric, reproductive, and cardiovascular disorders associated with CRH system hyperactivity.

Pronounced and sustained central hypernoradrenergic function in major depression with melancholic features: relation to hypercortisolism and corticotropin-releasing hormone.

Both stress-system activation and melancholic depression are characterized by fear, constricted affect, stereotyped thinking, and similar changes in autonomic and neuroendocrine function. Because norepinephrine (NE) and corticotropin-releasing hormone (CRH) can produce these physiological and behavioral changes, we measured the cerebrospinal fluid (CSF) levels each hour for 30 consecutive hours in controls and in patients with melancholic depression. Plasma adrenocorticotropic hormone (ACTH) and cortisol levels were obtained every 30 min. Depressed patients had significantly higher CSF NE and plasma cortisol levels that were increased around the clock. Diurnal variations in CSF NE and plasma cortisol levels were virtually superimposable and positively correlated with each other in both patients and controls. Despite their hypercortisolism, depressed patients had normal levels of plasma ACTH and CSF CRH. However, plasma ACTH and CSF CRH levels in depressed patients were inappropriately high, considering the degree of their hypercortisolism. In contrast to the significant negative correlation between plasma cortisol and CSF CRH levels seen in controls, patients with depression showed no statistical relationship between these parameters. These data indicate that persistent stress-system dysfunction in melancholic depression is independent of the conscious stress of the disorder. These data also suggest mutually reinforcing bidirectional links between a central hypernoradrenergic state and the hyperfunctioning of specific central CRH pathways that each are driven and sustained by hypercortisolism. We postulate that alpha-noradrenergic blockade, CRH antagonists, and treatment with antiglucocorticoids may act at different loci, alone or in combination, in the treatment of major depression with melancholic features.

Identification of a novel inflammation-protective locus in the Fischer rat.

Inbred LEW/N rats are relatively susceptible, while histocompatible inbred F344/N rats are relatively resistant to development of a wide variety of inflammatory diseases in response to a range of pro-inflammatory stimuli. In a LEW/N vs. F344/N F2 intercross, we identified a quantitative trait locus (QTL) on Chr 10 that protects in a dominant fashion against the exudate volume component of innate inflammation in the F344/N rat, as well as a suggestive QTL on Chr 2 near the Fibrinogen cluster region. The exudate volume linkage region on Chr 10 may be similar to one of the multiple regions found to link to inflammatory arthritis phenotypes in other crosses. The suggestive linkage on Chr 2 has not been previously reported and does not seem to contribute to this phenotype in the same manner as the QTL on Chr 10. These findings are consistent with the hypothesis that the innate exudate volume trait is a sub-phenotype of more complex inflammatory phenotypes, such as arthritis, and genes within the Chr 10 linkage region could account for differences in this non-specific acute phase component of the inflammatory response. Since the rat Chr 10 exudate volume linkage region we have identified is syntenic with a region of human Chr 17 that has been shown to link to a variety of autoimmune/inflammatory diseases, including insulin-dependent diabetes mellitus, multiple sclerosis, and psoriasis, identification of genes within this linkage region will shed light on genes relevant to the earliest inflammatory component and to susceptibility and resistance to such human autoimmune/inflammatory diseases.

Intracerebroventricular transplantation of embryonic neuronal tissue from inflammatory resistant into inflammatory susceptible rats suppresses specific components of inflammation.

To more directly define the role of central nervous system factors in susceptibility to peripheral inflammatory disease, we examined the effect of intracerebroventricular transplantation of neuronal tissue from inflammatory resistant into inflammatory susceptible rats on subcutaneous carrageenan-induced inflammation (a measure of innate immunity), and on the relative percentage of naive and memory T helper cells in peripheral blood (a measure of the anamnestic immune response). Female inflammatory disease susceptible Lewis (LEW/N) rats transplanted with hypothalamic tissue from inflammatory resistant Fischer (F344/N) rats exhibited > 85% decrease in carrageenan inflammation compared to naive LEW/N rats, LEW/N rats transplanted with F344/N spinal cord, or sham-operated animals. LEW/N rats transplanted with LEW/N hypothalamic tissue exhibited > 50% decrease in carrageenan inflammation. In contrast, intracerebroventricular transplantation of neuronal tissue did not affect the characteristically twofold higher percentage of naive versus memory T helper cells in LEW/N rats, suggesting that the central nervous system (CNS) and hypothalamus play a greater role in the innate inflammatory response than in the acquired immune processes. Grafted tissue survived well and did not show extensive gliosis or inflammation. Compared to naive LEW/N rats, LEW/N rats transplanted with F344/N or LEW/N hypothalamic tissue expressed significantly greater hypothalamic corticotropin releasing hormone mRNA. LEW/N rats transplanted with F344/N hypothalamic tissue also showed significant increases in plasma corticosterone responses to lipopolysaccharide. These data indicate that intracerebroventricular transplantation of fetal hypothalamic tissue from inflammatory resistant into inflammatory susceptible rats suppresses peripheral inflammation partially through hypothalamic factors. These findings have implications for understanding the contribution of specific neuronal tissue in regulation of components of the immune/inflammatory response and in susceptibility to inflammatory disease. Furthermore, this model could be used in the development of potential new treatments for inflammatory/autoimmune diseases aimed specifically at sites within the CNS.

The human mineralocorticoid receptor gene promoter: its structure and expression.

The structure and expression of a clone containing the promoter region, all of exon 1, and part of the first intron of the human mineralocorticoid receptor (hMR) gene is presented. The clone has three sets of CAAT and TATA elements, one located at the very 5'-end of the clone, one located just 5'- to the start of transcription, and one set located in intron A, approximately 300 bp into the intron. The major start of transcription site by primer extension analysis and ribonuclease protection assays is located 26 bp downstream of a TATA-like box (TTTAA) and 90 and 143 bp downstream, respectively, of two CCAAT boxes. Putative cis-transcription factor binding sites are as follows: two potential AP1 sites, one potential AP2 site, two ATF/CREB sites, six potential GC boxes or SP1 sites, one potential perfect half-palindromic estrogen response element, and three potential PEA3 sites. Therefore, the hMR promoter region contains elements characteristic of both regulated genes and "housekeeping" genes. CAT assays of overlapping deletions of the promoter region demonstrated tissue-specific regulation in human neuroepithelioma (SK-N-MC-IXC) and non-neuronal, peripheral choriocarcinoma cell lines (JEG-3).

No apparent mineralocorticoid receptor defect in a series of sporadic cases of pseudohypoaldosteronism.

Pseudohypoaldosteronism (PHA) is characterized by congenital resistance of the kidney and/or other mineralocorticoid target tissues to aldosterone, resulting in excessive salt wasting. Although the mineralocorticoid receptor (MR) was suggested as a potential locus of the defect in this disease, no such abnormality was found in 3 recently reported cases, one of whom belongs to this series of 5 patients. Molecular studies of the MR complementary DNA and gene in this series of sporadic cases of pseudohypoaldosteronism are reported. Four of these patients had multiple mineralocorticoid target tissue resistance, whereas 1 had transient isolated resistance in the kidney. A nonconservative homozygous mutation (C944-->T944, Ala241-->Val241) was identified in the complementary DNA of 4 of the patients but was also found in 62 of 100 normal alleles. One of these 4 patients had an additional conservative heterozygous mutation (A760-->G760, Ileu180-->Val180), which was also present in 11 of 100 normal alleles. None of the patients had any abnormalities in the first untranslated exon and 0.9 kilobases of the 5'-regulatory region of the MR gene, which were fully sequenced and compared with the normal sequence. It is concluded that the mutations identified in 4 of these 5 patients with PHA are polymorphisms, which on their own have no apparent pathophysiological significance. It is hypothesized that the defect causing PHA might be in a post-MR step of aldosterone action or in an unsuspected nonclassic receptor for this hormone.

Physiological and molecular aspects of mineralocorticoid receptor action in pseudohypoaldosteronism: a responsiveness test and therapy.

Pseudohypoaldosteronism (PHA), characterized by congenital resistance to aldosterone and excessive salt loss, has been traditionally treated with salt replacement. Although the mineralocorticoid receptor (MR) has been suggested as a potential locus of the defect in this disease, no such abnormality has been identified as yet. We studied a 17-yr-old male patient with congenital multifocal target organ resistance to aldosterone. Both carbenoxolone, an 11 beta-hydroxysteroid dehydrogenase inhibitor, and a high dose of fludrocortisone normalized the patient's serum electrolyte concentrations and decreased his urinary excretion of sodium, suggesting that this patient's resistance was partial and could be overcome by high concentrations of endogenous or exogenous mineralocorticoids. We hypothesized that the beneficial effect of these treatments was mostly mediated by the MR, because the administration of dexamethasone, while this patient was receiving a therapeutic dose of carbenoxolone, caused its reversal. These findings convinced us that there was functional, albeit possibly defective, MR in this patient and led us to perform molecular studies. Both alleles of the MR gene were expressed in the patient and his clinically and biochemically normal father. A conservative heterozygous mutation (A760-->G760, Ileu180-->Val180) and a nonconservative homozygous mutation (C944-->T944, Ala241-->Val241) were identified in the complementary DNA of both the patient and his father. The first untranslated exon and 0.9 kilobase of the 5'-regulatory region were also identical in the two men. It appears that the mutations causing amino acid substitutions represent polymorphisms, as we found high frequencies of both in the general population. We conclude that carbenoxolone and fludrocortisone may help define the presence of functional MR in patients with PHA and that the former could be used in the long term therapy of this disease. We hypothesize that the defect causing PHA in this patient might be in a post-MR step of aldosterone action.

Diurnal variation of cerebrospinal fluid immunoreactive corticotropin-releasing hormone levels in healthy volunteers.

CRH is not only secreted into hypophyseal protal blood where it is believed to regulate the circadian rhythm of pituitary-adrenal activity, but is also measurable in cerebrospinal fluid (CSF). Altered CSF immunoreactive CRH (IR-CRH) levels have been found in patients with a number of neuropsychiatric disorders and have been implicated in some of the symptoms of these disorders. To further study the potential functional relevance of CRH in human CSF, we examined whether a nonuniform temporal pattern of IR-CRH levels existed in CSF using hourly sampling over a 30-h period in six healthy volunteers. CSF was withdrawn continuously at 6 mL/h through a catheter placed in the lumbar subarachnoid space and connected to a miniroller pump and fraction collector. A significant diurnal variation in CSF IR-CRH levels was observed (P < 0.001), with highest levels between 1830-2330 h and lowest levels around 0730 h. This pattern was nearly opposite that of plasma cortisol levels, which showed the expected peak around 0800 h and nadir around 2000-2200 h. In addition, CSF IR-CRH levels in three of the six volunteers showed significant negative correlations with simultaneous plasma cortisol levels. These data suggest that CSF IR-CRH concentrations are negatively modulated by peripheral cortisol secretion, which may be one factor involved in the entrainment of this rhythm. Although the functional significance of this diurnal variation in CSF IR-CRH levels is unknown, the presence of a distinct temporal organization of CRH release into the CSF in humans is compatible with the idea that CSF may play a functional role in or otherwise reflect nonsynaptic information processing in the central nervous system. Diurnal factors should be taken into account in future studies of CRH concentrations in human CSF.

The effect of clozapine on plasma norepinephrine: relationship to clinical efficacy.

Clozapine is an atypical neuroleptic medication with superior efficacy to conventional antipsychotic agents for patients with chronic, symptomatic schizophrenia. Neurochemical characteristics that distinguish clozapine from other neuroleptics and contribute to its differential efficacy are not known. We assessed the effects of clozapine on plasma levels of norepinephrine (NE) in a double-blind, parallel groups comparison of clozapine (n = 11) and haloperidol (n = 15) in chronic schizophrenic outpatients who had been previously treated with fluphenazine. Simultaneous measurements were obtained for plasma levels of the catecholamine precursor dopa, the dopamine metabolite dihydroxyphenylacetic acid (DOPAC), the NE metabolite 3,4-dihydroxyphenylglycol (DHPG), adrenocorticotropin (ACTH), cortisol, and hemodynamic parameters. Clozapine produced marked increases (471%) in plasma NE levels, whereas haloperidol had no significant effects on plasma NE levels. Clozapine also increased dopa and tended to increase DOPAC levels, without effects on DHPG, ACTH, or cortisol levels and without consistent changes in blood pressure. Across patients, the magnitude of clozapine-induced increments in plasma NE levels was positively related to improvement in positive symptoms and global symptomatology and was unrelated to the occurrence of extrapyramidal symptoms. The results suggest that clozapine differs importantly from other neuroleptics in increasing plasma NE levels, with the peripheral noradrenergic stimulation related to its superior efficacy profile. The unchanged DHPG levels and absence of hypertension suggest a more complex mechanism of action of clozapine than heightened NE release alone.

Role of CRH in glucopenia-induced adrenomedullary activation in rats.

Acute glucoprivation profoundly stimulated hypothalamic-pituitary-adrenocortical (HPA) and adrenomedullary outflows. Whether these responses reflect a single central mechanism regulated by corticotropin-releasing hormone (CRH) has been unclear. This study examined the role of endogenous CRH in HPA and adrenomedullary responses to hypoglycemia in Sprague-Dawley rats, by using anti-CRH immune serum or a CRH antagonist (alpha-helical h/r CRH9-41, and in Lewis rats, a strain characterized by deficient hypothalamic CRH responses during stress. In conscious Sprague-Dawley rats with indwelling arterial and venous cannulas, insulin (0.3 U/kg was injected iv, and responses of serum glucose concentrations and plasma levels of corticotropin (ACTH) and catechols (including epinephrine, EPI; norepinephrine, NE; dihydroxyphenylalanine, DOPA; dihydroxyphenylglycol, DHPG; and dihydroxyphenylacetic acid, DOPAC) were assessed, with or without pretreatment with anti-CRH immune serum (0.5 or 1.0 ml iv or 10 microl icv) or alpha-helical h/r CRH9-41 (130 nmol iv or 13 nmol icv). Responses to insulin (1.0 U/kg iv) were also measured in conscious juvenile Lewis and Fischer 344/N rats. Insulin-induced hypoglycemia markedly increased plasma levels of EPI and ACTH in all groups. Pretreatment iv with 1/0 ml of anti-CRH immune serum blocked the ACTH response to insulin but failed to attenuate the EPI response. alpha-helical h/r CRH9-41, whether given iv or icv, failed to alter ACTH or EPI responses to insulin, although the antagonist did block EPI responses to icv CRH. Hypoglycemia elicited similar increments in ACTH levels in Lewis rats and Fischer 344/N control rats; and although Lewis rats had lower baseline EPI and smaller responses of NE, DHPG, DOPA, and DOPAC levels, the groups did not differ in proportionate increments in EPI levels. The results indicate that the ACTH response to hypoglycemia depends on availability of CRH outside the blood-brain barrier--presumably in the pituitary gland. The findings with icv alpha-helical h/r CRH9-41 can be explained by failure of the antagonist to reach effective concentrations at central sites of action of endogenous CRH, or by mechanisms other than CRH release determining the adrenomedullary response to hypoglycemia. Lewis rats seem to have less adrenomedullary secretion at baseline and smaller responses of NE synthesis and release during hypoglycemia than do Fischer 344/N rats. Neurochemical evidence for differential adrenomedullary and sympathoneural responses during hypoglycemia in all three rat strains is inconsistent with Cannon's view of a functionally unitary sympathoadrenal system. Lewis rats have deficient CRH responses to some stressors but not to others, or else pituitary-adrenomedullary responses in this setting depend on mechanisms other than CRH release in the brain. Both explanations are inconsistent with the doctrine of non-specificity, the main tenet of Selye's stress theory.

Effects of the glucocorticoid antagonist RU 486 on pituitary-adrenal function in patients with anorexia nervosa and healthy volunteers: enhancement of plasma ACTH and cortisol secretion in underweight patients.

To further explore whether the hypercortisolism of anorexia nervosa reflects an alteration in the set point for corticotropin-releasing hormone (CRH) secretion or is a manifestation of glucocorticoid resistance, we examined plasma ACTH and cortisol responses to the competitive glucocorticoid antagonist RU 486 (10 mg/kg, p.o. at 8.00 h) versus placebo (PBO) in 7 healthy female volunteers and 8 patients with DSM-III-R anorexia nervosa, all of whom were studied while underweight [64.3 +/- 2.1% average body weight (ABW), mean +/- SE] and 5 of whom were restudied longitudinally following refeeding (> or = 85% ABW, mean 87.4 +/- 0.4% ABW). Blood samples were obtained from 16.00 to 16.30 h and from 4.00 to 8.00 h following dosing. Underweight anorexics were significantly hypercortisolemic by 24 h urinary free cortisol excretion compared with controls (239 +/- 37 vs. 119 +/- 12 nmol/day, p < 0.01). Both controls and underweight anorexics had robust early morning (4.00-8.00 h) plasma cortisol responses to RU 486 (465 +/- 61 and 719 +/- 49 nmol/l) compared with PBO (370 +/- 52 and 451 +/- 31 nmol/l; p < 0.02 and p < 0.01, respectively). The underweight anorexics showed a significant mean early morning plasma ACTH response to RU compared with placebo (3.28 +/- 0.63 vs. 2.01 +/- 0.24 pmol/l, p < 0.05), while the controls showed a trend toward an increase in mean plasma ACTH after RU (3.11 +/- 0.36 pmol/l) compared with PBO (2.31 +/- 0.41 pmol/l, p < 0.13); plasma ACTH means were greater on the RU day than the placebo day at 20 of 25 sampling points (p < 0.001). However, the increment in ACTH on the RU day compared to the placebo day was greater in the underweight anorexics at the first 20 of 25 consecutive time points of the early morning sampling period (p < 0.001). Moreover, underweight anorexics showed a significant plasma ACTH and cortisol response to RU 486 at 16.00-16.30 h (8-8.5 h following administration), while the controls showed no significant response of plasma ACTH or cortisol at this time. When restudied following weight recovery, anorexic patients showed reductions in 24-hour urinary free cortisol excretion (to 191 +/- 40 nmol/day) which were no longer significantly elevated compared with control values.(ABSTRACT TRUNCATED AT 400 WORDS)

Association of fluoxetine treatment with reductions in CSF concentrations of corticotropin-releasing hormone and arginine vasopressin in patients with major depression.

The authors measured CSF concentrations of corticotropin-releasing hormone (CRH) and arginine vasopressin in nine depressed patients before and after fluoxetine treatment. They found significant decreases in CSF CRH, CSF arginine vasopressin, and Hamilton depression ratings. Thus, the therapeutic effect of this serotonin-uptake inhibitor may be related to diminution of these arousal-promoting neuropeptides.

Plasma catecholamine, renin activity, and ACTH responses to the serotonin receptor agonist DOI in juvenile spontaneously hypertensive rats.

Mean arterial blood pressure (MAP), heart rate (HR) and arterial plasma levels of corticotropin (ACTH), renin activity (PRA) and catechols [norepinephrine (NE), epinephrine (EPI), and the intraneuronal NE metabolite dihydroxyphenylglycol (DHPG)] at baseline and in response to the serotonin-1C/2 (5-HT1C/5-HT2) agonist 1-(2,5-dimethoxy-4-iodophenyl)2-aminopropane (DOI, 1.0 mg/kg i.a.) in conscious, freely-moving, juvenile (4 week old) spontaneously hypertensive rats (SHR's) and age-matched Wistar-Kyoto (WKY) normotensive control rats were measured simultaneously. Baseline levels of MAP, NE, DHPG, and EPI all were significantly higher in the SHR's. There was a similar trend for PRA, but ACTH did not differ between the two strains. DOI produced marked increases in levels of MAP, ACTH, EPI, and also PRA but did not affect NE or DHPG concentrations. HR decreased only in the WKY group after administration of DOI. The magnitudes of the EPI and ACTH responses did not differ between the rat strains. Responses of MAP and PRA were significantly larger in SHR's. These results suggest that there is a selective hyperresponsiveness of PRA and blood pressure to 5-HT2 receptor stimulation parallel to a deficient baroreceptor reflex in juvenile SHR's.

Effects of alprazolam on pituitary-adrenal and catecholaminergic responses to metabolic stress in humans.

Concurrent effects of benzodiazepines on stress-induced activation of the three classical "stress" systems: pituitary-adrenal, adrenomedullary, and sympathoneural systems have not been extensively investigated in humans. In the present study, the effects of alprazolam (1.5 mg) on plasma levels of adrenocorticotropin hormone (ACTH), epinephrine, norepinephrine, dihydroxyphenylglycol (DHPG, the intraneuronal metabolite of norepinephrine), and mood states were examined in 10 healthy volunteers undergoing glucoprivic stress. Glucoprivic stress was induced by intravenous administration of the glucose analog, 2-deoxyglucose (2DG), at a dose (50 mg/kg) that impairs cellular glucose metabolism and produces a state comparable to hypoglycemia. Alprazolam and 2DG were administered in a double-blind, placebo-controlled manner. 2DG produced robust elevations in plasma ACTH and epinephrine levels, modest elevations in plasma norepinephrine levels, and decreases in plasma DHPG levels. Alprazolam significantly attenuated the 2DG-induced increases in plasma ACTH and epinephrine, but did not significantly effect plasma norepinephrine and DHPG. These data suggest that benzodiazepines attenuate metabolic stress-induced activation of the pituitary-adrenal and adrenomedullary systems but do not effect 2DG-related effects on peripheral sympathoneural function. The possible mechanisms involved are discussed.

Pulsatile activation of the hypothalamic-pituitary-adrenal axis during major surgery.

To examine the response of the hypothalamic-pituitary-adrenal (HPA) axis to severe surgical stress, we measured the immunoreactive plasma levels of corticotropin-releasing hormone (CRH), corticotropin, cortisol, arginine-vasopressin (AVP), atrial natriuretic factor (ANF), neuropeptide Y (NPY), interleukin-1 (IL-1), IL-6, interferon gamma (INF), and tumor necrosis factor-alpha (TNF-alpha) in eight patients with Zollinger-Ellison syndrome (ZES) or mediastinal parathyroid carcinoma, all undergoing major surgery with a standardized anesthetic technique. Blood samples were drawn the morning before surgery, every 10 to 30 minutes throughout surgery (average, 308.7 +/- 15 minutes), and every morning for the next 4 postoperative days (POD). During surgery, plasma CRH concentrations were slightly but not significantly elevated compared with those before surgery and with those of the next 4 POD. However, the values were within the normal range (less than 2.2 pmol/L) and showed 8.9 +/- 0.6 pulses (one pulse every 34.7 +/- 1.6 minutes). Plasma corticotropin, on the other hand, was quite elevated, but was also released in a pulsatile fashion during the surgical procedure (one pulse every 36.7 +/- 1.6 minutes). Most of these secretory episodes of corticotropin were temporally related to those of CRH. Corticotropin returned to basal levels on the first POD and remained so for all 4 POD. Plasma cortisol concentrations increased steadily during surgery and remained elevated the first POD. Cortisol showed 6.2 +/- 1.1 pulses during the operative sampling period (one pulse every 71.8 +/- 13 minutes). Plasma AVP concentrations were also markedly elevated during surgery, but individual secretory pulses were not detected.(ABSTRACT TRUNCATED AT 250 WORDS)

Plasma and cerebrospinal fluid measures of arginine vasopressin secretion in patients with bulimia nervosa and in healthy subjects.

Bulimia nervosa is a psychiatric syndrome associated with intense hunger, deficient satiety mechanisms, an obsessional preoccupation with the adverse consequences of eating, ritualistic binge eating, and subsequent purging to forestall the effects of the binge. The morbidity of this illness reflects both the psychological suffering associated with a life organized around pathological eating behaviors, as well as medical complications such as fluid and electrolyte imbalances that occur largely as a result of purging and laxative abuse. We report here a study of the osmoregulation of plasma arginine vasopressin secretion and of vasopressin levels in the cerebrospinal fluid. This study was undertaken because vasopressin not only functions as the antidiuretic hormone, and thus as a principal modulator of fluid and electrolyte balance, but also because, in animals, centrally directed vasopressin delays the extinction of behaviors acquired during aversive conditioning. Thirteen normal-weight female patients with bulimia nervosa were studied after at least 1 month of nutritional stabilization and supervised abstinence from binge eating and purging. Plasma vasopressin, plasma sodium, and subjective thirst were measured serially before and during a 2-h infusion of 3% hypertonic saline (0.1 ml/kg min). In addition, cerebrospinal fluid was obtained by lumbar puncture upon admission and at 1 week before hypertonic saline infusion in 11 of these patients and in an additional 11 female patients who did not participate in the hypertonic infusion study. Fifteen healthy normal weight individuals (4 female, 11 male) served as controls for the hypertonic saline infusion and a separate group of 11 healthy normal weight female controls underwent puncture. Compared to controls, bulimic subjects showed a significant reduction in the plasma vasopressin response to hypertonic saline; in 12/13, plasma vasopressin correlated closely with plasma sodium, whereas in one patient vasopressin fluctuated erratically, with no relation to plasma sodium. Cerebrospinal fluid vasopressin levels were significantly higher in patients, and correlated positively with basal thirst level, which was enhanced in bulimics. Compared to controls, patients showed significant polyuria. We conclude that patients with bulimia nervosa have abnormal levels of vasopressin in their plasma and cerebrospinal fluid during abstinence from binge eating and purging. The disturbance in osmoregulation may aggravate the maintenance of adequate fluid volume in these patients, while the increase in centrally directed vasopressin may have relevance to their obsessional preoccupation with the aversive consequences of eating and weight gain.

Cerebrospinal fluid neurochemistry in children and adolescents with obsessive-compulsive disorder.

Cerebrospinal fluid hormones, monoaminergic metabolites, and dynorphin A (1-8 sequence) were examined in 43 children with severe, primary obsessive-compulsive disorder. Cerebrospinal fluid levels of 5-hydroxyindoleacetic acid were positively correlated with one of eight obsessive-compulsive disorder severity ratings and three of seven measures of improvement following 5 weeks of treatment with clomipramine hydrochloride. Arginine vasopressin concentration was significantly and negatively correlated with several ratings of obsessive-compulsive disorder symptom severity, while oxytocin concentration was positively correlated with depressive symptoms. The ratio of arginine vasopressin to oxytocin was also negatively correlated with obsessive-compulsive disorder and depressive symptoms. Comorbid affective disorder was associated with decreased arginine vasopressin concentrations, while concomitant anxiety disorder was associated with increased oxytocin. Dynorphin A (1-8 sequence), homovanillic acid, corticotropin, 3-methoxy-4-hydroxyphenylglycol, and corticotropin releasing hormone were not significantly related to obsessive-compulsive disorder symptoms. These results seem to indicate that arginine vasopressin may be related to obsessive-compulsive disorder symptom severity, while 5-hydroxyindoleacetic acid might be associated with drug response.