Spadin, a Sortilin-Derived Peptide, Targeting Rodent TREK-1 Channels: A New Concept in the Antidepressant Drug Design

We found that spadin, a natural peptide derived from sortilin, blocks the mouse TREK-1 channel and might be an efficient and fast-acting antidepressant

Genetic rodent models of depression

Are there appropriate rodent models for human depressive disorders? A model that targets a core aspect of depression can become a helpful tool in the analysis of the causes, genetic or environmental, that result in symptoms homologous to those of depressed patients. Rodent models can also allow the study of the pathophysiology of specific behaviors, and can help in predicting therapeutic responses to pharmacological agents. A rodent model of depression should satisfy as many of the three main criteria as possible similar etiology, similar pathophysiology, and similar treatment to the human condition. A wide range of rodent models of depression has been developed so far, including genetic models

Two novel genetic models of major depressive disorders displayheterogeneous sensitivity to treatments

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Two novel genetic models of major depressive disorders displayheterogeneous sensitivity to treatments

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Antidepressant‐like effect of low dose of scopolamine in the H/Rouen genetic mouse model of depression

International audienceRodent models of depression are useful for the investigation of cellular and neuronal mechanisms of antidepressant drugs and for the discovery of potential new targets. In this study, we examined the antidepressant-like effect of scopolamine, a non-selective muscarinic antagonist, in a genetic mouse model of depression obtained through a selective breeding strategy and called H/Rouen. In this model, we observed that scopolamine was active both in males and females at a lower dose (0.03 mg/kg) in the tail suspension test, 30 min following its administration, than observed in CD-1 mice. In addition, we showed this antidepressant-like effect was partly inhibited by an injection of 10 mg/kg of the AMPA receptor antagonist NBQX in both males and females, suggesting the anti-depressant like effect of scopolamine was mainly driven by AMPA receptors in the H/Rouen mouse line. Altogether, our results showed the high sensitivity of the H/Rouen mouse model of depression to study the antidepressant-like effects of pharmacological compounds

Two novel genetic models of major depressive disorder called H-TST and H-FST display heterogeneous sensitivity to treatments

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Adenosine A2A receptors and depression

Adenosine and its analogues have been shown to induce "behavioral despair" in animal models believed to be relevant to depression. Recent data have shown that selective adenosine A2A receptor antagonists (e.g., SCH 58261, ZM241385, and KW6002) or genetic inactivation of the receptor was effective in reversing signs of behavioral despair in the tail suspension and forced swim tests, two screening procedures predictive of antidepressant activity. A2A antagonists were active in the tail suspension test using either mice previously screened for having high immobility scores or mice that were selectively bred for their spontaneous "helplessness" in this test. At stimulant doses, caffeine, a nonselective A1/A2A receptor antagonist, was effective in the forced swim test. The authors have hypothesized that the antidepressant-like effect of selective A2A antagonists is linked to an interaction with dopaminergic transmission, possibly in the frontal cortex. In support of this idea, administration of the dopamine D2 receptor antagonist haloperidol prevented antidepressant-like effects elicited by SCH 58261 in the forced swim test (putatively involving cortex), whereas it had no effect on stimulant motor effects of SCH 58261 (putatively linked to ventral striatum). The interaction profile of caffeine with haloperidol differed markedly from that of SCH 58261 in the forced swim and motor activity tests. Therefore, a clear-cut antidepressant-like effect could not be ascribed to caffeine. In conclusion, available data support the proposition that a selective blockade of the adenosine A2A receptor may be an interesting target for the development of effective antidepressant agents

Electrical characterization of the fluoride K3Fe5F15 by impedance spectroscopy

The ac response of the fluoride K3Fe5F15 has been investigated over the temperature range 293-773K using impedance spectroscopy. Impedance spectra show a curve that can be considered as an envelop of two depressed semicircles corresponding to bulk and grain boundary properties, and the modulus complex show two almost arcs..

Electrical characterization of the fluoride K3Fe5F15 by impedance spectroscopy

The ac response of the fluoride K3Fe5F15 has been investigated over the temperature range 293-773K using impedance spectroscopy. Impedance spectra show a curve that can be considered as an envelop of two depressed semicircles corresponding to bulk and grain boundary properties, and the modulus complex show two almost arcs..

The anxiogenic-like effect of caffeine in two experimental procedures measuring anxiety in the mouse is not shared by selective A(2A) adenosine receptor antagonists.

RATIONALE: The elevated plus-maze and the light/dark box are two established anxiety tests in rodents, which are useful to screen putative anxiogenic effects of drugs. OBJECTIVE: Caffeine is well known to promote anxious behaviour in humans and animal models, but the precise site of action of the drug is still a matter of debate. The present study investigated whether the anxiogenic effects of caffeine observed in mice depend on the blockade of A(2A) receptor. First, the effects induced by the non-selective drug caffeine were compared with those elicited by two selective A(2A) receptor antagonists over a wide range of doses in the same experimental conditions. The effects of A(2A) or A(1 )adenosine receptor agonists and of a selective A(1) adenosine receptor antagonist were also investigated. Second, wild-type and A(2A) receptor knockout mice offered another approach to delineate the role played by A(2A) receptor in caffeine's anxiogenic effects. METHODS: Mice were exposed to the elevated plus-maze or to the light/dark box for 5 min after acute or chronic administration of tested drugs. RESULTS: Caffeine acutely administered (50 or 100 mg/kg IP) induced anxiety-like effects in both procedures. Its chronic administration (50 mg/kg IP twice daily) for 1 week or consumption in the drinking water (0.3 g/l) for 8 days or 2 months were also anxiogenic in the plus-maze test. The A(2A) receptor antagonists ZM241385 (up to 60 mg/kg IP) and SCH58261 (up to 10 mg/kg IP) were devoid of acute effects in both tests. One week administration of ZM241385 (30 mg/kg IP) or SCH58261 (3 mg/kg IP) had no effects in the plus-maze test. An antagonist (DPCPX) and an agonist (CPA) at A(1) receptors had no acute effects on anxiety-related indices, whereas an A(2A) receptor agonist (CGS 21680) displayed non-specific motor effects in the plus-maze test. Acute administration of caffeine (50 mg/kg IP) induced no clear-cut anxiety-like effects in the plus-maze test in A(2A) receptor knockout mice that exhibited higher basal anxiety levels than wild-type mice. Chronic administration (50 mg/kg IP twice daily) for 1 week elicited less anxiety-like behaviour in A(2A) receptor knockout than in wild-type mice. CONCLUSIONS: Adaptative mechanisms following mutation in A(2A) receptors or their long-term blockade after chronic ingestion of caffeine may be responsible for increase proneness to anxiety. However, the short-term anxiety-like effect of caffeine in mice might not be related solely to the blockade of adenosine A(2A) receptors, since it is not shared by A(2A) selective antagonists.Journal ArticleResearch Support, Non-U.S. Gov'tinfo:eu-repo/semantics/publishe