Aspects of animal experiments for evaluation of cognitive enhancers: in particular, the behavioral characteristics of Mongolian gerbils

Rodent models of global cerebral ischemia

Brain damage after stroke and head injury remains a huge clinical problem. In stroke, the initial cause of the damage is a blockage in a blood vessel (often the middle cerebral artery) and this sets off several pathways that ultimately lead to cell death. Recent studies have demonstrated that several new mechanisms are involved in neuronal death and this has led to an increase in research into novel molecules that might prevent brain damage or improve recuperation post-stroke. There are several models of global cerebral ischemia. Two of the most widely-used models are discussed in detail in UNIT 9.5, the gerbil bilateral carotid artery occlusion (BCAO) model and rat 4-vessel occlusion (4-VO) model. Additionally, several models of focal cerebral ischemia have been developed to mimic the effects of human stroke. The rationale behind the use of animal models, the various types of models and advantage and disadvantages of each model are presented.

An automated training device for pattern discrimination learning of group-housed gerbils

The setup, designed for the rodent Meriones unguiculatus (gerbil), allows flexible stimulus presentations and rewarding as well as on-line data registration. It consists of a spacious housing where the animals have free access to water. Food is supplied exclusively in the y-maze training compartment and serves as a reinforcer in an operant conditioning paradigm.

Behavioral studies on rats with transient cerebral ischemia induced by occlusion of the middle cerebral artery

The behavioral effects of transient cerebral ischemia in adult Wistar rats were studied. In Experiment 1, rats were subjected to 90-min occlusion of the unilateral, left or right, middle cerebral artery (MCA) followed by recirculation. The locomotor activity had not changed 3 and 30 days after the occlusion, except that the number of rearing was significantly decreased by left MCA occlusion. Rats were examined in a radial maze system for learning and memory ability during 4 weeks from the 3rd day after ischemia (the 3rd day was counted as day 1 of the experiment). Maze performance was slightly disturbed due to focal brain damage by MCA occlusion, but the disturbance was statistically significant only on days 6, 11, and 15 in the right occlusion. In Experiment 2, rats were trained to master a radial maze task completely for 4 weeks, and then subjected to transient unilateral (right) ischemia as described above. These rats showed an increase in incorrect entry in the radial maze task from day 4 to day 14. However, on day 21, the number of incorrect entry decreased to the control level of the sham-operated group. The numbers of correct choice were inversely related with those of incorrect entry, though slightly blunted. Coincidentally, the time required to solve the maze task was also prolonged from day 4 to day 14, but returned to the control time on day 21. These results suggest that unilateral ischemia transiently suppresses both acquiring radial maze performance and maintenance of learned performance and that it is a good model for studying human focal cerebral ischemia.

Neuroprotective properties of the novel antiepileptic lamotrigine in a gerbil model of global cerebral ischemia

BACKGROUND AND PURPOSE

Elevated glutamate levels are thought to be a primary cause of neuronal death after global cerebral ischemia. The purpose of this study was to investigate the potential neuroprotective effects of lamotrigine, a novel antiepileptic drug that inhibits the release of glutamate in vitro, with both behavioral and histological measures of global ischemia in gerbils.

METHODS

The common carotid arteries of gerbils were occluded for either 5, 10, or 15 minutes. Twenty-one days after reperfusion, gerbils were tested for impairments in a spatial memory task (Morris water maze). After water maze testing the animals were killed, and damage to hippocampal pyramidal cells was assessed. The effect of lamotrigine on the behavioral and histological outcome of either 5 or 15 minutes of global ischemia was evaluated.

RESULTS

Bilateral occlusion of the common carotid arteries for 5 minutes resulted in severe degeneration of hippocampal CA1 and CA2 pyramidal cells. Lamotrigine significantly prevented loss of hippocampal CA1 neurons when administered acutely (100 mg/kg PO) immediately after reperfusion or when administered in two equal doses of 30 or 50 mg/kg 2 hours before and immediately after reperfusion. Gerbils subjected to 5 minutes of ischemic insult were not impaired in their ability to solve a spatial memory task 21 days after cerebral ischemia. However, gerbils subjected to 10 and 15 minutes of carotid artery occlusion showed significant impairment in their ability to solve a water maze task. Lamotrigine significantly protected against the cognitive deficits associated with 15 minutes of cerebral ischemia. Histologically, increased durations of cerebral ischemia resulted in a progressive loss of CA1, CA2, and CA3 pyramidal cells. Lamotrigine completely protected gerbils exposed to 15 minutes of cerebral ischemia against CA3 cell loss and greatly reduced damage to the CA1 and CA2 cell tracts of the hippocampus. Lamotrigine also reduced the mortality associated with 15 minutes of ischemia.

CONCLUSIONS

Lamotrigine had neuroprotective effects in a gerbil model of global cerebral ischemia. Lamotrigine protected gerbils against behavioral deficits resulting from 15 minutes of carotid occlusion and also prevented histological damage resulting from 5 and 15 minutes of global cerebral ischemia.