N-Methyl-D-aspartate receptor (NMDAR)-mediated neurotransmission in the hippocampus is implicated in cognitive and emotional disturbances during stress-related disorders. Here, using quantitative RT-PCR, we investigated the hippocampal expression of NR2A, NR2B and NR1 subunit mRNAs in a mouse stress paradigm that mimics clinically relevant conditions of simultaneously affected emotionality and hippocampus-dependent functions. A 2-week stress procedure, which comprised ethologically valid stressors, exposure to a rat and social defeat, was applied to male C57BL/6J mice. For predation stress, mice were introduced into transparent containers that were placed in a rat home cage during the night; social defeat was applied during the daytime using aggressive CD1 mice. This treatment impaired hippocampusdependent performance during contextual fear conditioning. A correlation between this behavior and food displacement performance was demonstrated, suggesting that burrowing behavior is affected by the stress procedure and is hippocampus-dependent. Stressed mice (n ¼ 22) showed behavioral invigoration and anomalous anxiolytic-like profiles in the O-maze and brightly illuminated open field, unaltered short-term memory in the step-down avoidance task and enhanced aggressive traits, as compared to non-stressed mice (n ¼ 10). Stressed mice showed increased basal serum corticosterone concentrations, hippocampal mRNA expression for the NR2A subunit of the NMDAR and in the NR2A/NR2B ratio; mRNA expression of NR2B and NR1 was unchanged. Thus, stress-induced aberrations in both hippocampal-dependent performance and emotional abnormalities are associated with alterations in hippocampal mRNA NR2A levels and the NR2A/NR2B ratio and not with mRNA expression of NR2B or NR1.
Multiple models of human neuropsychiatric pathologies have been generated during the last decades which frequently use chronic dosing. Unfortunately, some drug administration methods may result in undesirable effects creating analysis confounds hampering model validity and preclinical assay outcomes. Here, automated analysis of floating behaviour, a sign of a depressive-like state, revealed that mice, subjected to a three-week intraperitoneal injection regimen, had increased floating. In order to probe an alternative dosing design that would preclude this effect, we studied the efficacy of a low dose of the antidepressant imipramine (7 mg/kg/day) delivered via food pellets. Antidepressant action for this treatment was found while no other behavioural effects were observed. We further investigated the potential efficacy of chronic dosing via food pellets by testing the antidepressant activity of new drug candidates, celecoxib (30 mg/kg/day) and dicholine succinate (50 mg/kg/day), against standard antidepressants, imipramine (7 mg/kg/day) and citalopram (15 mg/kg/day), utilizing the forced swim and tail suspension tests. Antidepressant effects of these compounds were found in both assays. Thus, chronic dosing via food pellets is efficacious in small rodents, even with a low drug dose design, and can prevail against potential confounds in translational research within depression models applicable to adverse chronic invasive pharmacotherapies.
Objective:We sought to investigate the efficacy of oral dosing in mice with imipramine (7mg/kg/day) via water or in food pellets, and to compare its effects in the paradigms of learned helplessness, locomotion, hedonic state, and anxiety. Methods: Water and food consumption were measured to determine daily imipramine dosage in C57BL/6N mice. Next, baseline scores for O-maze, dark/light box, and sucrose tests were measured. Mice were then subjected to a 4-week treatment of voluntary ingestion of drinking water or food pellets containing imipramine. Lastly, all groups were subjected to novel cage, open field, O-maze, dark/light box, sucrose test, and forced swim test to assess the effects of the treatment. Results: In naïve mice, imipramine delivered via food, induced a reduction of total floating and increased latency in the forced swim test, i.e., antidepressant-like effects. No other significant effects were found. Dosing with water did not change behavior in the forced swim, sucrose preference test, anxiety, or locomotor paradigms, but increased exploration in the novel cage. Conclusions: Voluntary ingestion is an effective method of chronic dosing with imipramine in naïve mice. Delivery of imipramine with food pellets elicits antidepressant-like effects in the forced swim test, with no effects on anxiety, locomotion, or preference behaviors. In contrast, no such effects were observed with treatment via drinking water, suggesting that a higher dose may be required. Our work argues for a broader use of oral delivery using food-treated pellets, in small rodent models of pre-clinical depression. It may substantially improve animal welfare and overcome potential confounds in translational research, which are frequently associated with adverse chronic invasive pharmacotherapies. Citation Costa-Nunes JP, Bakhmet A, Araújo-Correia M, Valença AB, Strekalova T, Steinbusch HWM. Effects of voluntary imipramine intake via food and water in paradigms of anxiety and depression in naïve mice. Transl. Neurosci. Clin. 2016, 2(3): 172-182.
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