Does rat global transient cerebral ischemia serve as an appropriate model to study emotional disturbances?

Cdh1 overexpression improves emotion and cognitive-related behaviors via regulating hippocampal neuroplasticity in global cerebral ischemia rats

Post-stroke survivors exhibited cognitive deficits and performed emotional impairment. However, the effect of global cerebral ischemia on standard behavioral measures of emotionality and underlying mechanism remain largely unknown. Our previous work identified that down-regulation of Cdh1 contributed to ischemic neuronal death in rat, thus we hypothesized that Cdh1 exerts a role in emotionality after cerebral ischemia, and we investigated the effect of Cdh1 overexpression on neurogenic behaviors and possible mechanisms in transient global cerebral ischemia reperfusion (tGCI/R) rats. A series of behavioral tests were used to evaluate emotion and cognitive related behaviors, and molecular biological techniques were employed to investigate hippocampal neuroplasticity. The results showed that tGCI/R rats displayed anxiety- and depression-like behaviors and a certain degree of cognitive impairment, and these abnormal behaviors accompanied with a loss of hippocampal synapses and dendritic spines, disruption of dendrite arborization and decline in the level of GAP-43, synaptophysin, synapsin and PSD-95. However, Cdh1 overexpression improved negative emotionality, ameliorated cognitive deficits, rescued hippocampal synapses loss, prevented dendritic network disorganization, and increased the level of synaptic-associated proteins after tGCI/R. Taken together, these findings suggest that Cdh1 overexpression exerts a neuroprotective effect by regulating hippocampal neuroplasticity thus improving negative emotionality and cognitive deficits after tGCI/R.

Brain ischemia changes the long term response to antidepressant drugs in mice

Depression is a frequent but often unrecognized and under treated complication of stroke that has scarcely been investigated in animal models particularly regarding treatment issues. Using the Forced Swim Test (FST) and testing spontaneous motor activity, we studied whether a transient focal cerebral ischemia modifies mice behaviours and antidepressant drug effects. We first evaluated whether FST realized 2 days or 1 week after brain reperfusion may be routinely used in male Swiss mice previously submitted to a 15, 30 or 60-min transient occlusion of the right middle cerebral artery. We then evaluated behavioural changes up to 5 weeks in mice previously submitted to a 15-min ischemia. Behaviours according to the administration of imipramine or fluvoxamine at 1 and 5 weeks after a 15-min ischemia were finally evaluated. Transient ischemia was associated with a decrease in immobility in the FST performed 2 days after reperfusion while no changes were observed in 1 and 5 weeks post-ischemia groups. Changes were related neither to brain ischemia duration nor to infarct volume. At both 1 and 5 weeks after brain ischemia, a dramatic decrease in the antidepressant response to imipramine related to a decrease in climbing behaviour was observed while the effects of fluvoxamine were improved through an increase in both climbing and swimming. Behaviours in the FST were unrelated to any spontaneous motor activity changes. Responses to anti-depressant drugs are strongly modified in mice previously submitted to brain ischemia. Present results underline that not all antidepressant drugs are appropriate after ischemic stroke.

Cardiac arrest and cardiopulmonary resuscitation dysregulates the hypothalamic-pituitary-adrenal axis

Cardiac arrest and cardiopulmonary resuscitation (CA/CPR) increase the risk for affective disorders in human survivors. Postischemic anxiety- and depressive-like behaviors have been documented in animal models of CA/CPR; however, the stability of post-CA/CPR anxiety-like behavior over time and the underlying physiologic mechanisms remain unknown. The hypothalamic-pituitary-adrenal (HPA) axis and the corticotropin releasing factor (CRF) system may mediate the pathophysiology of anxiety and depression; therefore, this study measured CA/CPR-induced changes in CRF receptor binding and HPA axis negative feedback. Mice were exposed to CA/CPR or SHAM surgery and assessed 7 or 21 days later. Consistent with earlier demonstrations of anxiety-like behavior 7 days after CA/CPR, increased anxiety-like behavior in the open field was also present 21 days after CA/CPR. On postoperative day 7, CA/CPR was associated with an increase in basal serum corticosterone concentration relative to SHAM, but this difference resolved by postoperative day 21. The Dexamethasone Suppression Test showed that the CA/CPR group had enhanced negative feedback compared with SHAM controls at postoperative day 21. Furthermore, there was a gradual increase in CRF(1) receptor binding in the paraventricular nucleus of the hypothalamus and bed nucleus of the stria terminalis, as well as a transient decrease of both CRF(1) and CRF(2A) receptors in the dorsal hippocampus. Therefore, sustained changes in activity of the HPA axis and the CRF system after CA/CPR may contribute to the postischemic increase in affective disorders.