Alexander Yassouridis

The endogenous cannabinoid system affects energy balance via central orexigenic drive and peripheral lipogenesis

The cannabinoid receptor type 1 (CB1) and its endogenous ligands, the endocannabinoids, are involved in the regulation of food intake. Here we show that the lack of CB1 in mice with a disrupted CB1 gene causes hypophagia and leanness. As compared with WT (CB1+/+) littermates, mice lacking CB1 (CB1-/-) exhibited reduced spontaneous caloric intake and, as a consequence of reduced total fat mass, decreased body weight. In young CB1-/- mice, the lean phenotype is predominantly caused by decreased caloric intake, whereas in adult CB1-/- mice, metabolic factors appear to contribute to the lean phenotype. No significant differences between genotypes were detected regarding locomotor activity, body temperature, or energy expenditure. Hypothalamic CB1 mRNA was found to be coexpressed with neuropeptides known to modulate food intake, such as corticotropin-releasing hormone (CRH), cocaine-amphetamine-regulated transcript (CART), melanin-concentrating hormone (MCH), and preproorexin, indicating a possible role for endocannabinoid receptors within central networks governing appetite. CB1-/- mice showed significantly increased CRH mRNA levels in the paraventricular nucleus and reduced CART mRNA levels in the dorsomedial and lateral hypothalamic areas. CB1 was also detected in epidydimal mouse adipocytes, and CB1-specific activation enhanced lipogenesis in primary adipocyte cultures. Our results indicate that the cannabinoid system is an essential endogenous regulator of energy homeostasis via central orexigenic as well as peripheral lipogenic mechanisms and might therefore represent a promising target to treat diseases characterized by impaired energy balance.

The combined dexamethasone/CRH test: A refined laboratory test for psychiatric disorders

This report summarizes our extensive experience with the application of the DEX/CRH test to assess hypothalamic-pituitary-adrenal-system (HPA) alteration in patients with psychiatric disorders. The application of this combined dexamethasone suppression/CRH-challenge (DEX/CRH) test requires individuals to take 1.5 mg dexamethasone (DEX) at 23:00 h orally the previous night. On the day of the test, 100 micrograms human CRH are administered to the subjects under study at 15:00 h intravenously as a bolus, and blood samples for the determination of plasma cortisol and ACTH are drawn every 15 min from 14:00 h to 18:00 h. DEX/CRH-test results from 96 patients with major depression (MDE), 11 with a manic episode (MA), 9 with panic disorder (PD), 24 with a schizophrenic psychosis (SP), and 82 healthy control subjects served as the data base for this report. Three major conclusions can be drawn from statistical analysis of these data: 1. Psychiatric patients (n = 140), regardless of diagnostic classification, release significantly more cortisol and ACTH after DEX and additional CRH in comparison with age-matched controls. This hormonal release pattern (DEX CRH-test phenomenon) supports the assumption that psychiatric patients are prone to an altered glucocorticoid feedback regulation during the acute illness episode. This supports the notion that the DEX/CRH-test phenomenon constitutes a neuroendocrine sign of these various disorders and emphasizes the usefulness of the DEX/CRH test as a laboratory test to monitor the course of these disorders. 2. The sensitivity of the DEX/CRH test for MDE (about 80%) greatly exceeds that of the standard DST (1-2 mg of DEX), which has been reported to average about 44% in a meta-analysis of the literature data; in our sample the sensitivity of the DST was about 25%. 3. The sensitivity of the DEX/CRH test can be further increased to above 90% if subjects are clustered into four different age ranges: age < 35 years, age between 35 and 50 years, age between 50 and 70 years, and age above 70 years. 4. By reducing the time points of blood sampling for ACTH and cortisol to as few as five (15:00, 15:30, 15:45, 16:00, and 16:15 h), the DEX/CRH-test procedure becomes more convenient and more easily applicable without reducing its sensitivity.

Local analgesic effect of endogenous opioid peptides

Opioids produce analgesia by interacting with local opioid receptors in peripheral inflamed tissue. This study investigated whether endogenous ligands of these receptors are present in synovia and whether such opioid peptides can inhibit pain by activation of intra-articular opioid receptors. Samples of synovium from 8 patients undergoing arthroscopic knee surgery were examined by immunohistochemistry for the presence of beta-endorphin, met-enkephalin, and dynorphin. All tissue samples showed synovitis. Inflammatory cells stained strongly for beta-endorphin and met-enkephalin but not for dynorphin. To find out whether blockade of intra-articular opioid receptors affected pain, we randomly assigned 22 patients undergoing arthroscopic knee surgery to receive naloxone (0.04 mg) intra-articularly (n = 10) or intravenously (n = 12); each patient received a placebo injection into the other site. Postoperative pain was assessed by visual analogue scale, a numerical rating scale, the McGill pain questionnaire, and supplementary analgesic consumption during the next 24 h. All pain scores were higher in the intra-articular naloxone group than in the intravenous naloxone group. The differences were significant (p < 0.05) during the first 4 h. Supplementary analgesic consumption was significantly higher in the intra-articular group (52.5 [14.0] vs 15.6 [8.0] mg diclofenac, p < 0.05). Opioid peptides are present in inflamed synovial tissue and can inhibit pain after knee surgery through an action specific to intra-articular opioid receptors. These findings expand the gate control theory of pain and suggest new approaches such as the development of peripherally acting opioid analgesics without central side-effects.

Penetration of Amitriptyline, but Not of Fluoxetine, into Brain is Enhanced in Mice with Blood-Brain Barrier Deficiency Due to Mdr1a P-Glycoprotein Gene Disruption

Mice with a genetic disruption (knockout) of the multiple drug resistance (Mdr1a) gene were used to examine the effect of the absence of the drug-transporting P-glycoprotein at the blood-brain barrier on the uptake of amitriptyline (AMI) and fluoxetine (FLU) and their metabolites into the brain. One hour after intraperitoneal injection of AMI or FLU, knockout (−/−) and wild-type (+/+) mice were sacrificed and drug concentrations of brain, kidney, liver, testis, and plasma were measured. The plasma concentrations of the AMI metabolites and the brain:spleen ratios of AMI, nortriptyline (NOR), 10-OH-AMI and 10-OH-NOR were significantly higher in the −/− mice, demonstrating that AMI and its metabolites are substrates of the P-glycoprotein and that mdr1a activity at the level of the blood-brain barrier reduces the penetration of these substances into the brain. In contrast, tissue distributions of FLU and its metabolites among the various tissues tested were indistinguishable between groups. The herein reported differences in brain penetration of antidepressant drugs depending on the presence of the mdr1a gene may offer an explanation for differences in the treatment response at a given plasma concentration. Moreover, individual differences in mdr1 gene activity may account for variable response patterns at different episodes and development of therapy resistance.

Corticosteroid Receptor Function Is Decreased in Depressed Patients

Decreased feedback control of the hypothalamic-pituitary-adrenocortical (HPA) system as revealed by the combined dexamethasone and corticotropin-releasing hormone (DEX-CRH) test has been documented in the vast majority of patients with affective disorders. This finding was interpreted as a failure at the level of the glucocorticoid receptor (GR)-mediated feedback action, which apparently fails to restrain HPA activity in the presence of elevated plasma corticosteroid levels. To test this hypothesis we conducted the DEX/CRH test using increasing doses of DEX in order to establish a dose-response relationship. We used three different DEX doses (0.75, 1.5, 3.0 mg) in three groups of depressed patients and controls. As expected, increasing DEX doses were associated with decreasing amounts of adrenocorticotropin (ACTH) and cortisol being released after CRH injection. However, dose-response curves for both plasma ACTH and cortisol concentrations were shifted to higher area under the curve (AUC) values among patients compared to controls. Pretreatment with 0.75 and 1.5 mg DEX produced significantly higher AUC values for both plasma ACTH and cortisol values among patients. These differences became less obvious with the higher DEX doses, indicating that the dose of 1.5 mg used in the majority of clinical studies so far is well suited to differentiate between healthy controls and patients. The reported data here are consistent with the hypothesis that an altered GR capacity or function underlies the exaggerated HPA activity in depression.

No tolerance to peripheral morphine analgesia in presence of opioid expression in inflamed synovia.

Pain treatment with centrally acting opiates is limited by tolerance. Tolerance is a decreasing effect of a drug with prolonged administration of that drug or of a related (e.g., endogenous) compound acting at the same receptor. This is often associated with a downregulation of receptors. In peripheral inflamed tissue, both locally expressed opioid peptides and morphine can produce powerful analgesia mediated by similar populations of opioid receptors. We hypothesized that the chronic presence of endogenous opioids in inflamed joints might convey downregulation of peripheral opioid receptors and tolerance to the analgesic effects of intraarticular morphine. We assessed these effects after arthroscopic surgery in patients with and without histologically verified synovial cellular infiltration, and we examined synovial opioid peptides and opioid receptors by immunocytochemistry and autoradiography, respectively. We found that, despite an abundance of opioid-containing cells in pronounced synovitis, morphine is at least as effective as in patients without such cellular infiltrations, and there is no major downregulation of peripheral opioid receptors. Thus, opioids expressed in inflamed tissue do not produce tolerance to peripheral morphine analgesia. Tolerance may be less pronounced for peripherally than for centrally acting opioids, which provides a promising perspective for the treatment of chronic pain in arthritis and other inflammatory conditions.

Clinical and neurobiological effects of tianeptine and paroxetine in major depression

Selective serotonin reuptake inhibitors (SSRIs) are widely used as effective pharmacological agents to treat depressive disorders. In contrast to the SSRIs, which block the presynaptic serotonin (5-HT) transporter and by this route increase the concentration of serotonin in the synaptic cleft, the antidepressant tianeptine enhances the presynaptic neuronal reuptake of 5-HT and thus decreases serotonergic neurotransmission. Both SSRIs and tianeptine are clinically effective; however, their opposite modes of action challenge the prevailing concepts on the need of enhancement of serotonergic neurotransmission. To better understand the differences between these two opposite pharmacological modes of action, we compared the changes induced by tianeptine and paroxetine on psychopathology, the hypothalamic-pituitary-adrenocortical (HPA) system, and cognitive functions in a double-blind, randomized, controlled trial including 44 depressed inpatients over a period of 42 days. Depressive symptomatology significantly improved in all efficacy measures, with no significant differences between tianeptine and paroxetine. There was a trend toward better response to the SSRI among women. Assessment of the HPA system showed marked hyperactivity before the beginning of treatment, which then normalized in most of the patients, without significant differences between the two antidepressants. Cognitive assessments showed no significant differences between the two drugs investigated. The results of the current study suggest that the initial effect, i.e., enhancement or decrease of 5-HT release, is only indirectly responsible for antidepressant efficacy, and they support the notion that downstream adaptations within and between nerve cells are crucial. The normalization of the HPA system as a common mode of action of different antidepressants seems to be of special interest.

Intraarticular morphine versus dexamethasone in chronic arthritis.

Intraarticular morphine inhibits pain after knee surgery without overt toxicity. This study examined intraarticular morphine in chronic arthritis. We undertook a randomized double-blind comparison between intraarticular morphine (3 mg), dexamethasone (4 mg) and saline (3 ml) in 44 patients with chronic inflammatory arthritis or osteoarthritis of the knee. Pain (the primary outcome measure) was assessed at rest and during activity for 6 days using a visual analog scale (VAS) and the McGill pain questionnaire. Before drug injections and on day 6 synovial leukocyte counts (the secondary outcome measure) were taken. During the first 6 h after injection both morphine and dexamethasone significantly reduced VAS and pain rating indices (PRI) in comparison to saline. Both substances also produced a significant reduction of PRI compared to saline during the subsequent 5 days. No patient displayed untoward side effects. Synovial leukocyte counts were lower after morphine than after saline. In conclusion, intraarticular morphine produces analgesia of similar magnitude to dexamethasone and it may have antiinflammatory actions in chronic arthritis.

Heritability of Sleep Electroencephalogram

BACKGROUND Understanding the basis of sleep-related endophenotypes might help to pinpoint factors modulating susceptibility to psychiatric disorders. However, the genetic underpinnings of sleep microarchitecture in humans remain largely unknown. Here we report on the results of a classical twin study in monozygotic (MZ) and dizygotic (DZ) twin pairs examining the genetic effect on sleep electroencephalogram (EEG) composition. METHODS Polysomnographic recordings were obtained in 35 pairs of MZ (26.4 +/- 5.4 years, 17-43 years, 17 male pairs, 18 female pairs) and 14 same-gender pairs of DZ twins (22.1 +/- 2.7 years, 18-26 years, 7 male pairs, 7 female pairs). The EEG power spectra were generated on the basis of Fast Fourier transformations combined with conventional sleep parameters, according to standardized criteria. RESULTS We tested the genetic variance contributing to the observed overall variance of the sleep measures and found that the relative contributions of the delta, theta, alpha, and sigma frequency bands at central derivations were significantly correlated to the genetic background. In these frequency bands, MZ twins also showed within-pair concordance in spectral power that was significantly higher than that of DZ twins. CONCLUSIONS The broad overlap of EEG frequencies during non-REM sleep and wakefulness, which shows a significant genetic variance, supports the hypothesis of common neuronal mechanisms generating EEG oscillations in humans. Our findings strongly support the suitability of the spectral composition of non-REM sleep for defining endophenotypes.

Creatine supplementation lowers brain glutamate levels in Huntington’s disease

AbstractThere is evidence from in vitro and animal experiments that oral creatine (Cr) supplementation might prevent or slow down neurodegeneration in Huntington’s disease (HD). However, this neuroprotective effect could not be replicated in clinical trials, possibly owing to treatment periods being too short to impact on clinical endpoints. We used proton magnetic resonance spectroscopy (1H-MRS) as a surrogate marker to evaluate the effect of Cr supplementation on brain metabolite levels in HD.Twenty patients (age 46±7.3 years, mean duration of symptoms 4.0±2.1 years, number of CAG repeats 44.5±2.7) were included. The primary endpoint was metabolic alteration as measured by 1H-MRS in the parieto-occipital cortex before (t1) and after 8–10 weeks (t2) of Cr administration. Secondary measures comprised the motor section of the Unified Huntington’s Disease Rating Scale and the Mini Mental State Examination. 1H-MRS showed a 15.6% decrease of unresolved glutamate (Glu)+glutamine (Gln; Glu+Gln=Glx; p<0.001) and a 7.8% decrease of Glu (p<0.027) after Cr treatment. N-acetylaspartate trended to fall (p=0.073) whereas total Cr, choline-containing compounds, glucose, and lactate remained unchanged. There was no effect on clinical rating scales.This cortical Glx and Glu decrease may be explained by Cr enhancing the energy-dependent conversion of Glu to Gln via the Glu-Gln cycle, a pathway known to be impaired in HD. Since Glu-mediated excitotoxicity is presumably pivotal in HD pathogenesis, these results indicate a therapeutic potential of Cr in HD. Thus, longterm clinical trials are warranted.