Klaus Wiedemann

Effects of Growth Hormone-Releasing Hormone and Somatostatin on Sleep EEG and Nocturnal Hormone Secretion in Male Controls

When applied centrally to animals, growth hormone-releasing hormone (GHRH) stimulates slow-wave sleep (SWS), whereas somatostatin (SRIF) increases REM sleep. We investigated whether these peptides also affect the sleep EEG in humans when given intravenously by comparing polysomnographically the effects of four boluses of (1) placebo, (2) 50 micrograms GHRH or (3) 50 micrograms SRIF administered at 22.00, 23.00, 24.00 and 1.00 h to 7 male controls. In addition, we collected blood samples through a long catheter every 20 min from 22.00 to 7.00 h and measured plasma cortisol and growth hormone (GH) levels. In comparison with SRIF and placebo, GHRH produced a significant increase in plasma GH concentration throughout the night (mean +/- SD: 10.8 +/- 2.0 ng/ml after GHRH; 3.0 +/- 1.7 ng/ml after SRIF and 3.2 +/- 2.0 ng/ml after placebo). SRIF failed to substantially attenuate the nocturnal GH release. Nocturnal cortisol secretion was blunted after GHRH but remained unaffected by SRIF (61.4 +/- 12.9 ng/ml after placebo; 46.6 +/- 19.7 ng/ml after GHRH and 70.8 +/- 12.6 ng/ml after SRIF). Quantitative sleep EEG staging showed a significant increase in SWS after GHRH administration but no change after SRIF (percent spent in SWS per night: 14.0 +/- 5.6 after placebo, 20.2 +/- 6.6 after GHRH and 15.1 +/- 8.2 after SRIF). Application of SRIF was accompanied by a trend toward increased REM density. The effects of episodic GHRH administration upon SWS, GH and cortisol secretion were opposite to those previously reported for corticotropin-releasing hormone, which supports the view that neuroregulation of human sleep involves an interaction of central GHRH and corticotropin-releasing hormone.

Atrial natriuretic factor inhibits the CRH-stimulated secretion of ACTH and cortisol in man

Corticotrophic secretion of ACTH is stimulated by corticotropin-releasing hormone (CRH) and arginine vasopressin (AVP), and suppressed by glucocorticoids. In vitro and preclinical studies suggest that atrial natriuretic factor (ANF) may be a peptidergic inhibitor of pituitary-adrenocortical activity. The aim of this study was to elucidate a possible role of ANF as a modulator of ACTH release in humans. A bolus injection of 100 micrograms human CRH (hCRH) during a 30 min intravenous infusion of 5 micrograms/min human alpha atrial natriuretic factor (h alpha ANF) was administered at 19:00 to six healthy male volunteers. In comparison to saline, a blunted CRH-stimulated secretion of ACTH (mean maximum plasma level +/- SD 45 min after hCRH: saline 46.2 +/- 14.2 pg/ml, h alpha ANF 34.6 +/- 13.8 pg/ml, p-value = 0.007) and a delayed rise (10 min) in cortisol were detected. The maximum plasma cortisol levels remained nearly unchanged between saline and h alpha ANF administration (mean maximum plasma level +/- SD 60 min after hCRH: saline 182 +/- 26 ng/ml, h alpha ANF 166 +/- 54 ng/ml). No effects of h alpha ANF on basal cortisol levels were observed; in contrast, basal ACTH plasma levels were slightly reduced. Basal blood pressure and heart rate remained unaffected. In the control experiment, infusion of 3 IU AVP in the same experimental paradigm increased basal and stimulated ACTH and cortisol levels significantly in comparison to saline. These observations suggest that intravenously administered haANF inhibits the CRH-stimulated release of ACTH in man.

Pharmacological Relapse Prevention of Alcoholism: Clinical Predictors of Outcome

Objective: The efficacy of pharmacological relapse prevention in alcoholism with acamprosate and naltrexone has been supported by several controlled trials. It remains uncertain whether any differential indication for treatment exists. Methods: We evaluated outcome data of a controlled trial on acamprosate and naltrexone in patients with low vs. high baseline somatic distress, depression and anxiety (Symptom Checklist-90, SCL-90), low vs. high baseline craving, and according to typological differentiation as proposed by Cloninger and Lesch. These variables have previously been suggested to be predictors of outcome. Results: Comparing the course of abstinence rates, acamprosate was mainly efficacious in patients with low baseline somatic distress, whereas naltrexone was effective especially in patients with high baseline depression. Baseline craving showed no predictive value. Pharmacological treatment was efficacious in type II alcoholics according to Cloninger. Applying Lesch’s typological differentiation, acamprosate was shown to be mainly effective in type I, whereas naltrexone revealed best treatment effects in type III and IV. Conclusion: The study supports the hypothesis that different subgroups of alcohol dependent subjects might benefit from a differential treatment with either naltrexone or acamprosate. Baseline psychopathology and especially typological differentiation might be useful in matching patients to distinct pharmacotherapeutic interventions.

Leptin: a modulator of alcohol craving?

BACKGROUND Leptin has been shown to regulate food intake and energy expenditure. Because leptin acts via regulation of appetite, we studied the hypothesis that suggests leptin modulates craving for alcohol as well. METHODS We studied leptin plasma concentrations (RIA) both in alcoholic subjects during inpatient detoxification (day 1: n = 78, day 14: n = 60) and in healthy control subjects (n = 30). To rule out interference with the activation of the HPA axis during alcohol withdrawal, we also evaluated cortisol plasma levels (RIA). RESULTS We found plasma leptin and cortisol elevated at onset of withdrawal, decreasing significantly up to day 14. Leptin (and the body-mass corrected ratio leptin/BMI) was highly correlated with self-rated craving. No correlations of craving with cortisol and BMI were observed. CONCLUSIONS We suggest that leptin may modulate withdrawal-induced craving in alcoholic subjects.

The hypothalamic-pituitary-adrenocortical system and sleep in man

This review article summarizes the major findings about the interactions of human sleep structure and the hypothalamo-pituitary-adrenocortical (HPA) system under physiological and pathophysiological conditions, including studies that probe the sleep effects of systemically administered HPA hormones. Human sleep is regulated by a concerted action of various signal compounds acting at sleep-generating neurons whose central organization is not yet fully understood. During nocturnal sleep the endocrine system is remarkably active, the longest established finding being that growth hormone (GH) release is associated with the initiation of sleep and that there is a steep morning rise of cortisol (Weitzman et al., 1966; Takahashi et al., 1968). Moreover, the effects of exogenously administered corticosteroids and of their excessive endogenous release (e.g. Cushings disease) were recognized more than 20 years ago.

Steroid effects on central neurons and implications for psychiatric and neurological disorders

Acute and chronic stress as well as a number of psychiatric and neurological disorders are accompanied by profound disturbances of the HPA system. These neuroendocrine alterations act back on the central nervous tissue mainly via corticosteroids-affecting glucocorticoid and mineralocorticoid receptors. The major conclusions drawn from studies probing these receptors in clinical investigations are: (1) In many such conditions central corticosteroid receptors are weakened in their capacity to curtail spontaneous and stress-elevated corticosteroid levels; (2) the combined DEX-CRH test is the best neuroendocrine tool currently available for identifying HPA abnormalities in psychiatric patients; (3) in depression the decreased corticosteroid receptor capacity in transient, and antidepressants act through reinstatement of GR and MR function probably resulting in reduced hypothalamic CRH and AVP production; (4) several neurological disorders such as MS and HIV infection are often accompanied by altered HPA function, which has therapeutic implications; and (5) various corticosteroids, their biosynthetic precursors and their metabolites have differentiable effects on the sleep EEG, which can be attributed to their mode of action; specifically, steroids such as pregnenolone and DHEA most likely are produced in glia cells and act in a paracrine fashion at neurons, thus modifying the sleep EEG in humans in a manner that suggests their potential as memory enhancers.

Blockade of the mineralocorticoid receptor in healthy men: effects on experimentally induced panic symptoms, stress hormones, and cognition.

Animal studies have shown that blockade of central mineralocorticoid receptors (MR) has anxiolytic effects and impairs several aspects of cognitive function. No study to date assessed the effects of MR blockade on anxiety and cognitive function in humans. In the present study, 16 healthy young men were treated either with placebo or with 300 mg spironolactone, a MR-antagonist, at 1100, 1330, and 1630 hours in a balanced cross-over design with the two study conditions being 1 week apart. At 1500 hours, the panic symptoms provoking compound cholecystokinin-tetrapeptide (CCK-4) was administered i.v. on both occasions and panic symptoms were assessed. We measured plasma ACTH and cortisol between 1300 and 1900 hours and assessed cognitive function between 1800 and 1900 hours. CCK-4 elicited panic symptoms and increased ACTH and cortisol secretion in both conditions. Intensity of panic symptoms after CCK-4 was not different between spironolactone and placebo. Spironolactone significantly impaired selective attention and delayed recall of visuospatial memory, and diminished set shifting/mental flexibility on a trend level. Pretreatment with spironolactone led to higher baseline cortisol levels compared to placebo whereas no differences in stimulated cortisol, baseline ACTH, and stimulated ACTH emerged. Blockade of MR with spironolactone increases baseline cortisol secretion and impairs cognitive function but has no effect on experimentally induced panic symptoms in humans, for the study design and dosage of spironolactone used. The domains of cognitive function that are impaired after blockade of MR in men, that is, selective attention, visuospatial memory, and mental flexibility/set shifting appear to be remarkably similar to those described in animal studies.

Effects of pulsatile cortisol infusion on sleep-EEG and nocturnal growth hormone release in healthy men

SUMMARY  This study investigates the short‐term effects of pulsatile cortisol administrations upon sleep electroencephalogram (EEG) and spontaneous release of growth hormone (GH) in humans. Ten young healthy male volunteers received intravenous injections of either placebo or cortisol every 60 min between 17.00 hours and 06.00 hours (1 mg kg‐1 BW with a loading dose of 20% starting at 17.00 hours, followed by a dose of 6% every hour until 06.00 hours). The amount of rapid eye‐movement (REM) sleep was significantly reduced (placebo: 19.9 ± 1.8; cortisol: 12.2 ± 1.5%; P < 0.05), whereas the time spent in slow‐wave sleep (SWS) was significantly increased (placebo: 9.4 ± 1.6; cortisol: 13.9 ± 1.9%; P < 0.05). The SWS‐promoting effect was most prominent during the first hours of sleep, but tended to persist also during the second half of the night. The pulsatile cortisol administration augmented the total amount of plasma GH concentrations (mean area under the time course curve, AUC, placebo: 3.2 ± 0.5; cortisol: 4.4 ± 0.6 [ng × 1000 × ml min‐1]; P < 0.05) due to an increase of GH release before sleep onset, and during the second half of the night, while the GH surge at sleep onset remained unchanged.

Peptide Fingerprinting of Alzheimer's Disease in Cerebrospinal Fluid: Identification and Prospective Evaluation of New Synaptic Biomarkers

Background Today, dementias are diagnosed late in the course of disease. Future treatments have to start earlier in the disease process to avoid disability requiring new diagnostic tools. The objective of this study is to develop a new method for the differential diagnosis and identification of new biomarkers of Alzheimers disease (AD) using capillary-electrophoresis coupled to mass-spectrometry (CE-MS) and to assess the potential of early diagnosis of AD. Methods and Findings Cerebrospinal fluid (CSF) of 159 out-patients of a memory-clinic at a University Hospital suffering from neurodegenerative disorders and 17 cognitively-healthy controls was used to create differential peptide pattern for dementias and prospective blinded-comparison of sensitivity and specificity for AD diagnosis against the Criterion standard in a naturalistic prospective sample of patients. Sensitivity and specificity of the new method compared to standard diagnostic procedures and identification of new putative biomarkers for AD was the main outcome measure. CE-MS was used to reliably detect 1104 low-molecular-weight peptides in CSF. Training-sets of patients with clinically secured sporadic Alzheimers disease, frontotemporal dementia, and cognitively healthy controls allowed establishing discriminative biomarker pattern for diagnosis of AD. This pattern was already detectable in patients with mild cognitive impairment (MCI). The AD-pattern was tested in a prospective sample of patients (n = 100) and AD was diagnosed with a sensitivity of 87% and a specificity of 83%. Using CSF measurements of beta-amyloid1-42, total-tau, and phospho181-tau, AD-diagnosis had a sensitivity of 88% and a specificity of 67% in the same sample. Sequence analysis of the discriminating biomarkers identified fragments of synaptic proteins like proSAAS, apolipoprotein J, neurosecretory protein VGF, phospholemman, and chromogranin A. Conclusions The method may allow early differential diagnosis of various dementias using specific peptide fingerprints and identification of incipient AD in patients suffering from MCI. Identified biomarkers facilitate face validity for the use in AD diagnosis.

Cognitive impairment correlates with hypothalamo–pituitary–adrenal axis dysregulation in multiple sclerosis

Hypothalamo-pituitary-adrenal (HPA) dysregulation has recently been demonstrated in multiple sclerosis (MS) by means of combined dexamethasone corticotropin-releasing hormone (Dex-CRH) suppression tests. Authors found a correlation with course of disease and to a lesser extent with depressive symptoms. In this study, we aimed to further evaluate whether HPA disturbances in MS are correlated with cognitive impairment, disability status, and fatigue. Dex-CRH tests were performed in a total of 40 patients and 11 healthy controls. Concomitantly, cognitive impairment was evaluated using the symbol digit modalities test and fatigue was assessed by different fatigue severity scales. When comparing patient subpopulations to healthy subjects, Dex-CRH stimulation tests indicated an HPA hyperactivity in primary and secondary progressive MS, while relapsing-remitting patients had response patterns similar to controls. However, results were only significant for one of the six analysed parameters, i.e. area under the curve calculations of ACTH stimulation. Within the patient sample, clear-cut differences emerged between groups of different cognitive impairment, being significant for all ACTH response parameters. Our results suggest an HPA hyperactivation related to increased cognitive impairment. Indicators of HPA axis activation further correlated substantially with neurologic disability, but only moderately with duration of disease and even less with depressive symptoms and fatigue. We conclude that the observed dysregulation is more likely a secondary effect of the extent of brain damage rather than primarily involved in the pathogenesis of MS.