Learning, Stress and the Role of Personality Profiles in Rats

Stress has been shown to modulate many aspects of physiology and behavior. In particular, substantial work has confirmed that stress is a strong modulator of learning and memory processes. It is more than a century that Yerkes and Dodson have shown that relationship between stress intensity and memory function follows an inverted-U-shaped curve; memory increases with stress to an optimal point, above or below which memory decreases. Despite the great popularity of the Yerkes-Dodson law, the validity of the law has been criticized due to significant methodological problems in the study performed by Yerkes and Dodson (1908) and their data being judged insufficient to substantiate conclusions, among other reasons. Moreover the existing evidence has not yet illustrated this phenomenon under the same experimental conditions for relational learning tasks. On the other hand, stress is not the only factor that modulates cognitive abilities. Different types of learning and memory might be affected by other factors such as individual differences in personality. While the relationship between personality and learning has been studied in human, animal studies addressed to understanding the relationship between personality and learning have been rare. In addition, exposure to stress during pregnancy can have deleterious emotional effects on women. However, the mechanisms underlying these emotional effects are not well understood, and the development of suitable animal models for stress-induced depression in females still remains scarce. The goal of this Thesis was to investigate how stress affects cognitive and emotional processes in different animal models, and to explore the importance of individual differences in the mediation of stress effects. On a first study, we investigated the relationship between stress intensity and memory function. For this purpose cognitive abilities of rats to learn a radial arm water maze were assessed under different stress intensities, using behavioural and endocrine approaches. Our results confirm, for the first time, the existence of an inverted-U-shape memory function according to stressor intensity during the early learning and memory phases in a hippocampus-dependent task. Furthermore, we present evidence that these stress effects are not shown uniformly by all individuals; rather, performance at either the high or the low stress intensities is differentially affected in individuals with different personality-like profiles. In a second study, we investigated whether different personality traits in the Wistar outbred strain of rats were associated with performance in specific types of learning and memory tasks that have been reported to depend on specific brain areas, such as the amygdala, hippocampus and prefrontal cortex (PFC). Using a wide variety of behavioral tests, we identified three personality factors: anxiety, exploration and locomotion. According to our results, the locomotion trait displayed no correlation wit