Injection of Anti-proBDNF in Anterior Cingulate Cortex (ACC) Reverses Chronic Stress-Induced Adverse Mood Behaviors in Mice.

Foraging behavior is a species-specific behavior which is considered to involve the decision making and higher cognitive functions. We previously established a novel method to detect the foraging behavior in chronic unpredictable mild stress (CUMS)-induced depression mice, in which the food foraging activity of mice was significantly reduced. Furthermore, it is generally assumed that the bilateral anterior cingulate cortex (ACC) is related to foraging activity in rat. Brain-derived neurotrophic factor (BDNF) is widely expressed in many regions of the brain and is down-regulated in depressive patients. However, the relationship between the precursor of brain-derived neurotrophic factor (proBDNF) and depression has not been fully elucidated. The results showed that CUMS in mice induced anxiety- and depression-like behaviors and significant reduction in BDNF messenger RNA (mRNA) in the brain. In this study, we evaluated the effect of anti-BDNF and anti-proBDNF in the ACC on the CUMS-induced depression mice. In contrast to the normal IgG group (normal IgG microinjection into the ACC), bilateral ACC treatment with anti-proBDNF microinjection not only reversed depressive activity but also significantly increased the amount of foraged food and BDNF mRNA in the brain. There was no significant alteration in the group of anti-BDNF microinjection into the ACC. Our data indicate that the proBDNF signaling pathway might down-regulate the foraging activity in CUMS rodents and be involved in the depression.

Mice deficient for wild-type p53-induced phosphatase 1 display elevated anxiety- and depression-like behaviors.

Mood disorders are a severe health burden but molecular mechanisms underlying mood dysfunction remain poorly understood. Here, we show that wild-type p53-induced phosphatase 1 (Wip1) negatively responds to the stress-induced negative mood-related behaviors. Specifically, we show that Wip1 protein but not its mRNA level was downregulated in the hippocampus but not in the neocortex after 4 weeks of chronic unpredictable mild stress (CUMS) in mice. Moreover, the CUMS-responsive WIP1 downregulation in the hippocampus was restored by chronic treatment of fluoxetine (i.p. 20 mg/kg) along with the CUMS procedure. In addition, Wip1 knockout mice displayed decreased exploratory behaviors as well as increased anxiety-like and depression-like behaviors in mice without impaired motor activities under the non-CUMS condition. Furthermore, the Wip1 deficiency-responsive anxiety-like but not depression-like behaviors were further elevated in mice under CUMS. Although limitations like male-alone sampling and multiply behavioral testing exist, the present study suggests a potential protective function of Wip1 in mood stabilization.

Enhanced aggressive behaviour in a mouse model of depression.

Depression is one of the most common chronic mental disorders, which is a leading cause of morbidity and mortality in patients. Depression often leads to offensive and defensive behaviours but the underlying mechanisms are not known. We propose that the aggressive behaviours in depression can be modelled in animal experiments. In this study, we successfully established a mouse model of depression using the chronic unpredictable mild stress (CUMS) paradigm and detected aggressive and social dominance behaviours in rodents by resident/intruder test and social dominance tube test (SDTT), respectively. The CUMS-exposed mice showed increased defensive, offensive and aggressive behaviours in the resident-intruder test. In the SDTT, these mice showed enhanced social dominance. These alterations were associated with reduced MAP-2 expression in the hippocampus while no difference in ß-tubulin expression was detected. In addition, the treatment of anti-depressant fluoxetine reversed the aggressive behaviours without reducing the social dominance behaviour induced by CUMS. However, fluoxetine did effectively reverted the changes in MAP-2 expression in the hippocampus. In addition, the nonspecific tricyclic antipsychotic drug, clozapine, reversed all symptoms of CUMS-exposed mice including aggressive tendencies, impulsive violence, social dominance behaviour and MAP-2 expression in the hippocampus. The results suggests that social maladjustment such as competition and social dominance are likely related to the dopaminergic system rather than the serotonergic system and the hippocampal dendritic structure protein MAP-2. Thus, dominance can be separated from aggression. This study shows that aggression/hostility and social hierarchy/dominance are increased in the CUMS-exposed mice and thus provide an excellent model for further study in the diagnosis and the treatment of depression-associated aggression.

Foraging activity is reduced in a mouse model of depression.

Depression interferes with the human ability to make decisions. Multiple criteria have been adopted for the diagnosis of depression in humans, but no clear indicators are available in animal models to reflect the depressive mood, involving higher cognitive functions. The act of foraging is a species-specific behaviour which is believed to involve the decision-making and higher cognitive functions. We previously established a method to detect the foraging behaviour of rodents, in which our results demonstrated that NMDA and dopamine receptors were involved. Conversely, increased NMDA receptors and reduced dopamine have been reported in depression model rodents. However, we hypothesise that foraging activities may also be impaired in depression. To test the theory, we successfully established a mouse model of depression using the chronic unpredictable mild stress (CUMS) paradigm. Most interestingly, the food foraging activity of mice after CUMS was significantly reduced. In addition, the treatment of anti-depressant fluoxetine reversed most depressive symptoms and reduced glial fibrillary associated protein (GFAP) expression in the hippocampus, but was less effective in the reduction of foraging activities. However, clozapine reversed all symptoms of CUMS-exposed mice including reduction of GFAP expression in the hippocampus and impaired foraging activity. Our findings of GFAP expression as a marker to validate the CUMS protocol provide further validation of our hypothesis, that the reduced food foraging is probably a new behavioural finding of depression in which the serotoninergic system could not be singly involved. Our study suggests that NMDA receptors, serotoninergic and dopaminergic systems are differentially involved in these food foraging behaviours. Our data suggest that the foraging test in rodents can be a useful tool to assess the ability of decision-making in depression.