The ghrelin system was previously proposed to mediate an independent branch of the stress response that curbs fear processing. Interestingly, the ghrelin system was also shown to control the activity of midbrain dopamine neurons. Given that dopamine neurons of the ventral tegmental area appear to have a critical role in fear processing, we aimed to investigate their contribution to the effects of ghrelin on fear processing. Our data show that systemic administration of the ghrelin receptor agonist MK0677, in a dose that induces food intake, has no significant effect on auditory fear processing and does not significantly affect dopamine release in the nucleus accumbens of male C57BL/6J mice. Local administration of the ghrelin receptor agonist MK0677 into the ventral tegmental area significantly increases food intake and it also significantly increased dopamine release in the nucleus accumbens, the medial prefrontal cortex and the amygdala. Nevertheless, it did not significantly affect auditory fear extinction. Our data indicate that pharmacological activation of midbrain dopamine neurons using a ghrelin receptor agonist does not affect auditory fear extinction. We also investigated the effect of non‐pharmacological manipulation of the ghrelin system on auditory fear processing. However, we found that neither overnight food deprivation nor genetic ablation of the ghrelin receptor had a significant effect on auditory fear extinction. We conclude that the effects of manipulation of the ghrelin system on fear processing are subject to boundary conditions that remain poorly understood.
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Introduction: Single housing of laboratory mice is a common practice to meet experimental needs, or to avoid intermale aggression. However, single housing is considered to negatively affect animal welfare and may compromise the scientific validity of experiments. The aim of this study was to investigate whether the use of a cage with a cage divider, which avoids physical contact between mice while maintaining sensory contact, may be a potential refinement strategy for experiments in which group housing of mice is not possible.Methods: Eight-week-old male C57BL/6JRj mice were single housed, pair housed or pair housed with a cage divider for four (experiment 1) or ten (experiment 2) weeks, after which we performed an open field test, Y-maze spontaneous alternation test, elevated plus maze test, an auditory fear conditioning task, and assessed responsiveness of the hypothalamic-pituitary-adrenal (HPA) axis.Results: Housing conditions did not affect body weight, exploratory activity, anxiety, working memory, fear memory processing or markers for HPA-axis functioning in either experiment 1 or experiment 2. There was an increased distance traveled in mice housed with a cage divider compared to pair housed mice after 4 weeks, and after 10 weeks mice housed with a cage divider made significantly more arm entries in the Y-maze spontaneous alternation test.Conclusion: Taken together, our study did not provide evidence for robust differences in exploratory activity, anxiety, working memory and fear memory processing in male C57BL/6JRj mice that were single housed, pair housed or pair housed with a cage divider.
Two closely related glycogen synthase kinase-3 (GSK-3) isoforms have been identified in mammals: GSK-3α and GSK-3β. GSK-3β is the most prominent in the central nervous system and was previously shown to control neuronal excitability. We previously demonstrated that indirubin and its structural analogue and the nonselective GSK-3 inhibitor BIO-acetoxime exerted anticonvulsant effects in acute seizure models in zebrafish, mice, and rats. We here examined for the first time the anticonvulsant effect of TCS2002, a specific and potent inhibitor of GSK-3β, in two models for limbic seizures: the pilocarpine rat model for focal seizures and the acute 6 Hz corneal mouse model for refractory seizures. Next, we additionally used the 6 Hz kindling model to establish differences in seizure susceptibility and seizure progression in mice that either overexpress human GSK-3β (GSK-3β OE) or lack GSK-3β (GSK-3β −/− ) in neurons. We demonstrate that TCS2002 exerts anticonvulsant actions against pilocarpine-and 6 Hz-evoked seizures. Compared to wild-type littermates, GSK-3β OE mice are less susceptible to seizures but are more rapidly kindled. Interestingly, compared to GSK-3β +/+ mice, neuronal GSK-3β −/− mice show increased susceptibility to 6 Hz-induced seizures. These contrasting observations suggest compensatory neurodevelopmental mechanisms that alter seizure susceptibility in GSK-3β OE and GSK-3β −/− mice. Although the pronounced anticonvulsant effects of selective and acute GSK-3β inhibition in the 6 Hz model identify GSK-3β as a potential drug target for pharmacoresistant seizures, our data on the sustained disruption of GSK-3β activity in the transgenic mice suggest a role for GSK-3 in kindling and warrants further research into the long-term effects of selective pharmacological GSK-3β inhibition.
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