The anxiolytic drug opipramol inhibits insulin-induced lipogenesis in fat cells and insulin secretion in pancreatic islets

The antidepressant drug opipramol has been reported to exert antilipolytic effect in human adipocytes, suggesting that alongside its neuropharmacological properties, this agent might modulate lipid utilization by peripheral tissues. However, patients treated for depression or anxiety disorders by this tricyclic compound do not exhibit the body weight gain or the glucose tolerance alterations observed with various other antidepressant or antipsychotic agents such as amitriptyline and olanzapine, respectively. To examine whether opipramol reproduces or impairs other actions of insulin, its direct effects on glucose transport, lipogenesis and lipolysis were investigated in adipocytes while its influence on insulin secretion was studied in pancreatic islets. In mouse and rat adipocytes, opipramol did not activate triglyceride breakdown, but partially inhibited the lipolytic action of isoprenaline or forskolin, especially in the 10–100 μM range. At 100 μM, opipramol also inhibited the glucose incorporation into lipids without limiting the glucose transport in mouse adipocytes. In pancreatic islets, opipramol acutely impaired the stimulation of insulin secretion by various activators (high glucose, high potassium, forskolin...). Similar inhibitory effects were observed in mouse and rat pancreatic islets and were reproduced with 100 μM haloperidol, in a manner that was independent from alpha2-adrenoceptor activation but sensitive to Ca2+ release. All these results indicated that the anxiolytic drug opipramol is not only active in central nervous system but also in multiple peripheral tissues and endocrine organs. Due to its capacity to modulate the lipid and carbohydrate metabolisms, opipramol deserves further studies in order to explore its therapeutic potential for the treatment of obese and diabetic states. (AU)

The anxiolytic drug opipramol inhibits insulin-induced lipogenesis in fat cells and insulin secretion in pancreatic islets.

The antidepressant drug opipramol has been reported to exert antilipolytic effect in human adipocytes, suggesting that alongside its neuropharmacological properties, this agent might modulate lipid utilization by peripheral tissues. However, patients treated for depression or anxiety disorders by this tricyclic compound do not exhibit the body weight gain or the glucose tolerance alterations observed with various other antidepressant or antipsychotic agents such as amitriptyline and olanzapine, respectively. To examine whether opipramol reproduces or impairs other actions of insulin, its direct effects on glucose transport, lipogenesis and lipolysis were investigated in adipocytes while its influence on insulin secretion was studied in pancreatic islets. In mouse and rat adipocytes, opipramol did not activate triglyceride breakdown, but partially inhibited the lipolytic action of isoprenaline or forskolin, especially in the 10-100 µM range. At 100 µM, opipramol also inhibited the glucose incorporation into lipids without limiting the glucose transport in mouse adipocytes. In pancreatic islets, opipramol acutely impaired the stimulation of insulin secretion by various activators (high glucose, high potassium, forskolin...). Similar inhibitory effects were observed in mouse and rat pancreatic islets and were reproduced with 100 µM haloperidol, in a manner that was independent from alpha2-adrenoceptor activation but sensitive to Ca2+ release. All these results indicated that the anxiolytic drug opipramol is not only active in central nervous system but also in multiple peripheral tissues and endocrine organs. Due to its capacity to modulate the lipid and carbohydrate metabolisms, opipramol deserves further studies in order to explore its therapeutic potential for the treatment of obese and diabetic states.

Chronic opipramol treatment extinguishes cocaine craving through Rac1 in responders: A rat model study.

Ras-related C3 botulinum toxin substrate 1 (Rac1), of the Rho small GTPase family, is a key regulator of actin cytoskeleton rearrangement and plays an important role in dendritic morphogenesis. Cocaine produces neuronal alterations, including structural changes in dendritic number and morphology. Emerging data indicate sigma-1 receptors (σ-1Rs) as a promising candidate for the prevention of cocaine craving. Opipramol is a σ-1R agonist approved in some European countries for depression and anxiety. Here we report that opipramol, mediated by Rac1, attenuates cocaine-seeking behavior in a rat model of self-administration. The opipramol effect was shown in two phases. It decreased cocaine-seeking behavior throughout the withdrawal phase and, interestingly, showed a significant reduction of cocaine-primed reinstatement in 75% of the opipramol-treated group (termed 'responders'). All opipramol-treated rats showed a decrease in σ-1R mRNA expression levels in the nucleus accumbens (NAc) versus controls. Responders also exhibited significantly decreased NAc Rac1 mRNA expression levels, compared with non-responder rats. Hence, Rac1 differentiated responders from non-responders. Rac1 correlated positively with σ-1R mRNA levels in opipramol responders. In another experiment, Rac1 inhibitor injected directly into the NAc core decreased active lever presses on the first day of extinction, indicating the critical role of Rac1 in the opipramol effect on drug seeking. We postulate that chronic activation of σ-1R, through a dynamic interaction with Rac1, may suggest a new approach to treat substance use disorder (SUD). Rac1 inhibition is a prerequisite for decreasing drug seeking and rehabilitation, and this can be achieved by opipramol, a medication that can be given during detoxification.

Interaction of sigma-1 receptor modulators with seizure development in pentylenetetrazole-induced kindled mice.

This study aimed to investigate the effects of sigma receptor modulators, opipramol and BD-1063, on epileptogenesis in pentylenetetrazole (PTZ)-kindling model of epilepsy. Mice (n = 6/group) were received PTZ (30 mg/kg), PTZ plus opipramol (5 or 10 mg/kg), PTZ plus opipramol (5 mg/kg) plus BD-1063 (5 mg/kg, a selective sigma-1 receptor antagonist), and PTZ plus BD-1063 on alternate days for 15 days. Opipramol (5 and 10 mg/kg) + PTZ groups became fully kindled and had higher seizure scores compared to the PTZ group. In contrast, the PTZ plus BD-1063 and the PTZ plus opipramol (5 mg/kg) plus BD-1063 group did not show full kindling. These findings indicate that opipramol has a pro-convulsant effect, which is possibly mediated through activation of sigma-1 receptors.

The Dopamine Receptor Antagonism of Opipramol: Relevance to Parkinsonism?

Drug-induced Parkinsonism (DIP) represents the second most-frequent etiology of Parkinson syndromes after neurodegenerative disorders. It has been described mainly for antipsychotics, Ca-channel blockers, antiemetics, and gastrointestinal prokinetics. In this article, we present a clinical case series of 10 patients, retrieved within our movement disorders hospital, with DIP under intake of opipramol. Symptoms completely resolved after drug withdrawal, and associated risk factors were old age, high doses, and presence of cortical atrophy. This frequently prescribed anxiolytic drug has so far not been associated with DIP. Our objective is to raise awareness of DIP as an adverse effect of opipramol.

[The incidence and antibiotic resistance of common nosocomial uropathogens in the urine of urological patients in the Ivanovo region].

AIM: To clarify the etiology of nosocomial UTIs occurring in the urology departments and the outpatient clinic of the Ivanovo Regional Clinical Hospital (IvRCH), to develop recommendations on the empirical use of antibiotic therapy. MATERIALS AND METHODS: Bacterial composition of urine in urological patients was monitored from 1999 to 2015. The sensitivity of the pathogens to the main antibacterial agents was determined using the Kirby-Bauer disk diffusion susceptibility test. RESULTS: The study determined the frequency of detecting pathogens associated with urinary tract infections in adults and children, established the association between the spectrum of pathogens and patient age and determined the most effective antibacterial drugs in patients with nosocomial UTI in the Ivanovo region. High resistance levels of E. coli strains were detected against fluoroquinolones, nalidixic acid, and nitrofurans; they were three times higher than that against cephalosporins. CONCLUSION: The findings show the need to reduce the empirical use of fluoroquinolones, nalidixic acid, and nitrofurans and completely exclude the use of ampicillin in patients with nosocomial UTI in the Ivanovo region. To reduce the occurrence of nosocomial infections, patients discharged from the hospital should be administered empirical therapy with third-generation cephalosporins.

[Update Opipramol]. / Update Opipramol.

Opipramol was developed in the 1960s as an antidepressant and has chemical similarities with tricyclic antidepressants. Pharmacodynamic properties with absent reuptake inhibition of serotonin and noradrenaline and agonism at sigma receptors distinguish opipramol from tricyclics. Furthermore, antidepressive effects are smaller than the anxiolytic ones. The mechanism of action of opipramol is currently not sufficiently understood. Agonistic effects at sigma receptors have been linked with therapeutic effects. Excessive hepatic metabolism (primarily via CYP2D6) should be considered, particularly in patients with impaired hepatic function and polypharmacy. The available clinical data suggest good tolerability and safety within the approved dose range. Mild disturbances of vigilance and anticholinergic adverse events are the predominant side effects. In Germany, opipramol is approved for the treatment of somatoform disorders and generalized anxiety disorder, and there is sufficient evidence for the efficacy of opipramol in these disorders. The agent is still prescribed very often in Germany, yet plays a minor role in the clinical as well as scientific setting. In view of the limited availability of (pharmacologic) treatment options for generalized anxiety disorder and particularly somatoform disorders, opipramol should be considered in the treatment of these entities.

Modeling malaria control intervention effect in KwaZulu-Natal, South Africa using intervention time series analysis.

The change of the malaria control intervention policy in South Africa (SA), re-introduction of dichlorodiphenyltrichloroethane (DDT), may be responsible for the low and sustained malaria transmission in KwaZulu-Natal (KZN). We evaluated the effect of the re-introduction of DDT on malaria in KZN and suggested practical ways the province can strengthen her already existing malaria control and elimination efforts, to achieve zero malaria transmission. We obtained confirmed monthly malaria cases in KZN from the malaria control program of KZN from 1998 to 2014. The seasonal autoregressive integrated moving average (SARIMA) intervention time series analysis (ITSA) was employed to model the effect of the re-introduction of DDT on confirmed monthly malaria cases. The result is an abrupt and permanent decline of monthly malaria cases (w0=-1174.781, p-value=0.003) following the implementation of the intervention policy. The sustained low malaria cases observed over a long period suggests that the continued usage of DDT did not result in insecticide resistance as earlier anticipated. It may be due to exophagic malaria vectors, which renders the indoor residual spraying not totally effective. Therefore, the feasibility of reducing malaria transmission to zero in KZN requires other reliable and complementary intervention resources to optimize the existing ones.

Modern indications for the use of opipramol.

Opipramol is considered as a pharmacological agent that does not fit the classification taking into account the division of antidepressants, antipsychotics and anxiolytics. It has a structure related to tricyclic antidepressants but it has a different mechanism of action, i.e. binding to sigma1 and to sigma2 sites. It has been regarded as an effective drug in general anxiety disorders together with other agents like SSRI`s, SNRI`s, buspirone and pregabalin for many years. It can however also be indicated in other conditions, e.g. it may be used as a premedication in the evening prior to surgery, positive results are also observed in psychopharmacological treatment with opipramol in somatoform disorders, symptoms of depression can be significantly reduced in the climacteric syndrome. The latest data from literature present also certain dangers and side effects, which may result due to opipramol administration. Mania may be induced not only in bipolar patients treated with opipramol, but it can be an adverse drug reaction in generalized anxiety disorder. This analysis shows however that opipramol is an important drug still very useful in different clinical conditions.

Spectroscopic investigation (FT-IR, FT-Raman and SERS), vibrational assignments, HOMO-LUMO analysis and molecular docking study of Opipramol.

FT-IR and FT-Raman spectra of Opipramol were recorded and analyzed. SERS spectrum was recorded in silver colloid. The vibrational wave numbers were computed using DFT quantum chemical calculations. The data obtained from wave number calculations are used to assign vibrational bands obtained in infrared and Raman spectra as well as in SERS of the studied molecule. Potential energy distribution was done using GAR2PED program. The geometrical parameters (DFT) of the title compound are in agreement with the XRD results. The presence of CH2 stretching modes in the SERS spectrum indicates the close of piperazine ring with the metal surface and the interaction of the silver surface with this moiety. NBO analysis, HOMO-LUMO, first hyperpolarizability and molecular electrostatic potential results are also reported. The inhibitor Opipramol forms a stable complex with P4502C9 as is evident from the ligand-receptor interactions and a -9.0 kcal/mol docking score and may be an effective P4502C9 inhibitor if further biological explorations are carried out.

Cutaneous manifestations of injectable drug use: hidden secrets.

Abscesses related to drug use are the most common cutaneous manifestations among injection drug users, often occurring when the veins become less accessible. In these cases, other techniques may be used to administer drugs, such as skin popping (subcutaneous injection) or muscle popping (intramuscular injection). The main risk factors for abscess formation include skin popping, use of unsterilized needles, and injection of speedball (a mixture of cocaine and heroin). We present a case of recurrent abscesses accompanied by fever, hypersomnia alternating with insomnia, diaphoresis, fatigue, recent weight loss, and agitation following subcutaneous injection of a tramadol, opipramol, and clonazepam mixture. Differential diagnoses included pyoderma gangrenosum on the basis of hepatitis C virus, skin lesions connected with human immunodeficiency virus infection, vasculitis, endocarditis, and serotonin syndrome. The patient was treated with oral antibiotics, surgical incision, and drainage of the abscesses, with consequent improvement.

Repetitive injection field-amplified sample stacking for cationic compounds determination.

The development of a field-amplified sample stacking technique is presented. Sensitivity enhancement in this technique was obtained by repetitive injections of a sample followed by steps of sample matrix removal through the application of counter-pressure. Under optimized conditions the background electrolyte (BGE) was composed of 80 mM H3PO4 while the sample matrix contained 0.5mM H3PO4 and 30% (v/v) methanol. The elaborated method enabled a 4-fold effective injection of the sample (53 s, 0.5 psi). Each injection was followed by a focusing step during which the application of a voltage (2 kV) and counter-pressure (-1 psi) was performed for 0.65 min. The method was developed for the determination of six psychiatric drugs (opipramol, hydroxyzine, promazine, amitriptyline, fluoxetine, and thioridazine). The elaborated method was applied for analysis of human urine samples after a simple liquid-liquid extraction procedure. The detection limits obtained were in the range of 2.23-6.21 ng/mL.

Sigma (σ) receptors as potential therapeutic targets to mitigate psychostimulant effects.

Many psychostimulants, including cocaine and methamphetamine, interact with sigma (σ) receptors at physiologically relevant concentrations. The potential therapeutic relevance of this interaction is underscored by the ability to selectively target σ receptors to mitigate many behavioral and physiological effects of psychostimulants in animal and cell-based model systems. This chapter begins with an overview of these enigmatic proteins. Provocative preclinical data showing that σ ligands modulate an array of cocaine and methamphetamine effects are summarized, along with emerging areas of research. Together, the literature suggests targeting of σ receptors as an innovative option for combating undesired actions of psychostimulants through both neuronal and glial mechanisms.

[Modification of perioperative psychiatric drug therapy]. / Perioperative Modifikation der psychiatrischen Dauermedikation - Wann sollte umgestellt oder pausiert werden?

Apart from cardiovascular, pulmonary and metabolic drugs, many patients scheduled for surgery are taking antidepressive or antipsychotic drugs. Some of these psychiatric drugs may interfere with anesthetics. The anesthesiologist has to decide whether or not to continue the psychiatric medication during the perioperative period. Since the discontinuation of psychiatric drugs may lead to withdrawal syndromes, the decision should be made in accordance with the attending psychiatrist. Should the discontinuation of any psychiatric drug be recommended, it may be prudent to involve the attending surgeon in order to postpone the procedure, since the modification of psychiatric drugs may take several days.Prospective randomized data about the perioperative modification of psychiatric drugs are scarce. Thus, recommendations in this regard must rely on physiological and pharmacological principles, case reports and published expert opinions. In this article we use the available data to answer the question of a journal reader regarding the perioperative modification of Opipramol therapy for a 59-year-old patient scheduled for elective shoulder surgery.

Opipramol improves subjective quality of sleep the night prior to surgery: confirmatory testing of a double-blind, randomized clinical trial.

OBJECTIVE: Due to its pharmacological properties, opipramol may be useful in the context of evening premedication in anaesthesiology. This trial examines whether quality of sleep the night prior to surgery can be improved by opipramol and whether this effect is dose dependent. A second objective of this study is to examine whether the emotional state (in particular anxiety) is affected by opipramol. METHOD: 72 female patients were randomly assigned to 100 mg opipramol, 150 mg opipramol or placebo (24 patients per group) in a double-blind trial. Drug application was in the evening prior to an elective surgery. Effects were recorded the next morning by means of self-rating questionnaires regarding subjective sleep quality of the last night and patients' current subjective state. The self-rating was done by use of the Wuerzburg Sleep Questionnaire, by use of mood inventories [BSKE (EWL) and STAI-X1] and by use of the Multidimensional Somatic Symptom List. Further dependent variables were heart rate and blood pressure. Confirmatory data analysis was conducted for subjective quality of sleep. RESULTS: 100 mg opipramol as well as 150 mg opipramol significantly improved subjective quality of sleep (p < 0.001). The drug conditions did not differ in this effect. Opipramol marginally reduced anxiety (STAI-X1). The autonomic variables remained uninfluenced. There were no adverse events and no hints for interaction with anaesthesia. CONCLUSION: Opipramol may be used as a premedication in the evening prior to surgery if the primary target is an impact on the experienced quality of sleep. For this a single dosage of 100 mg opipramol is sufficient and can be recommended.

Sigma nonopioid intracellular receptor 1 mutations cause frontotemporal lobar degeneration-motor neuron disease.

OBJECTIVE: Frontotemporal lobar degeneration (FTLD) is the most common cause of early-onset dementia. Pathological ubiquitinated inclusion bodies observed in FTLD and motor neuron disease (MND) comprise trans-activating response element (TAR) DNA binding protein (TDP-43) and/or fused in sarcoma (FUS) protein. Our objective was to identify the causative gene in an FTLD-MND pedigree with no mutations in known dementia genes. METHODS: A mutation screen of candidate genes, luciferase assays, and quantitative polymerase chain reaction (PCR) was performed to identify the biological role of the putative mutation. Neuropathological characterization of affected individuals and western blot studies of cell lines were performed to identify the pathological mechanism of the mutation. RESULTS: We identified a nonpolymorphic mutation (c.672*51G>T) in the 3'-untranslated region (UTR) of the Sigma nonopioid intracellular receptor 1 (SIGMAR1) gene in affected individuals from the FTLD-MND pedigree. The c.672*51G>T mutation increased gene expression by 1.4-fold, corresponding with a significant 1.5-fold to 2-fold change in the SIGMAR1 transcript or Sigma-1 protein in lymphocyte or brain tissue. Brains of SIGMAR1 mutation carriers displayed a unique pathology with cytoplasmic inclusions immunopositive for either TDP-43 or FUS but not Sigma-1. Overexpression of SIGMAR1 shunted TDP-43 and FUS from the nucleus to the cytoplasm by 2.3-fold and 5.2-fold, respectively. Treatment of cells with Sigma-1 ligands significantly altered translocation of TDP-43 by up to 2-fold. INTERPRETATION: SIGMAR1 is a causative gene for familial FTLD-MND with a unique neuropathology that differs from other FTLD and MND cases. Our findings also suggest Sigma-1 drugs as potential treatments for the TDP-43/FUS proteinopathies.

In vitro studies of DNA damage caused by tricyclic antidepressants: a role of peroxidase in the side effects of the drugs.

Studies show that tricyclic antidepressants prescribed for migraines, anxiety, and child enuresis have numerous adverse effects in living cells. One of the undesired outcomes observed under treatment with these drugs is DNA damage. However, the mechanisms underlying damage have yet to be elucidated. We performed in vitro studies of the DNA damage caused by four tricyclic antidepressants: imipramine, amitriptyline, opipramol, and protriptyline. We focused particularly on the DNA damage aided by peroxidases. As a model of a peroxidase, we used horseradish peroxidase (HRP). At pH 7, reactions of HRP with excess hydrogen peroxide and imipramine yielded an intense purple color and a broad absorption spectrum with the maximum intensity at 522 nm. Reactions performed between DNA and imipramine in the presence of H(2)O(2) and HRP resulted in the disappearance of the DNA band. In the case of the other three drugs, this effect was not observed. Extraction of the DNA from the reaction mixture indicated that DNA is degraded in the reaction between imipramine and H(2)O(2) catalyzed by HRP. The final product of imipramine oxidation was identified as iminodibenzyl. We hypothesize that the damage to DNA was caused by an imipramine reactive intermediate.

Determination of the chemical structure of potential organic impurities occurring in the drug substance opipramol.

The tricyclic antipsychotic and antidepressant drug opipramol (opipramole) was examined with regard to the chemical structure of its organic impurities. Impurities were isolated from the technical product by chromatographic methods and their chemical structures were established by 1H NMR, MS and FTIR and further confirmed by comparison with commercially available products or with products obtained by independent synthesis, and in one case additionally by X-ray structure analysis.

Gastroprotective and antioxidant effects of opipramol on indomethacin-induced ulcers in rats.

Tricyclic antidepressants are particularly useful in the treatment of endogenous depression. Since the 1950s, tricyclic antidepressants (TCAs) have also been used for the treatment of gastric ulcer disease. Many TCAs have been evaluated for their antiulcer effects, but there are presently no data in the literature specifically concerning the antidepressant opipramol. This study aimed to investigate the antiulcer effects of opipramol and to determine its potential relationship with oxidant and antioxidant systems. The antiulcer activities of 25, 50 and 100 mg/kg opipramol have been investigated on indomethacin-induced ulcers in rats. Compared with a control group (indomethacin alone), opipramol decreased indomethacin-induced ulcers significantly at all doses used (52%, 71% and 76% respectively). Opipramol also significantly increased the glutathione (GSH), superoxide dismutase (SOD) and nitric oxide (NO) levels in the stomach tissue, all of which were decreased in the control group given only indomethacin. All doses of opipramol also significantly decreased myeloperoxidase (MPO), malondialdehyde (MDA) and catalase (CAT) levels in stomach tissue compared to the control. In conclusion, the activation of enzymatic and non-enzymatic antioxidant mechanisms, as well as the inhibition of some toxic oxidant mechanisms, appear to play a role in the antiulcer effect of opipramol. This new indication for opipramol prompts a rethinking about the possible clinical application of opipramol, particularly for peptic ulcer patients also presenting depression.