Behavioural brain research
-
Comparative Study
Temporary inactivation of the medial and basolateral amygdala differentially affects TMT-induced fear behavior in rats.
Trimethylthiazoline (TMT) is a component of fox feces and is thought to be a stimulus with innate fear-eliciting properties for rodents. Naive laboratory rats that are exposed to TMT display freezing behavior, a known behavioral sign of fear and anxiety. Early studies examining the neural basis of TMT-induced fear showed that the bed nucleus of the stria terminalis is important for this behavior. ⋯ Temporary inactivation of the basolateral amygdala resulted in a delay of the onset of the freezing response to TMT. These results clearly demonstrate that the medial amygdala is crucial for TMT-induced freezing, whereas the basolateral amygdala seems to play a modulatory role in this type of fear behavior. Since the medial amygdala is also involved in the processing of cat odor-induced fear, the finding of the present study points towards a general role of the medial amygdala in the processing of predator odor-induced fear.
-
Comparative Study
Profound but transient deficits in learning and memory after global ischemia using a novel water maze test.
The pyramidal CA1 neurons of the hippocampus are critically involved in spatial learning and memory. These neurons are especially vulnerable to cerebral ischemia, but in spite of this, it has been consistently difficult to show any learning and memory deficits in two-vessel occlusion models of global ischemia. Transient global ischemia was induced in adult male rats under general anaesthesia administered by artificial respiration to prevent respiratory arrest. ⋯ This degeneration was associated with severe impairments in learning at 13 days after ischemia and in memory, as tested 24 h afterwards. At 125 days after ischemia, there was no significant learning and memory impairment, whereas the number of CA1 neurons was increased. These results show that transient global ischemia induced by two-vessel occlusion may lead to severe, but transient, impairments in learning and memory using a novel water maze, and that restored learning and memory is associated with an increased number of CA1 neurons.
-
Rats are one of the most commonly used species for spinal cord injury research. Since the advent of the Basso, Beattie, Bresnahan (BBB) locomotor rating scale, the majority of spinal cord injury research relies upon evaluating locomotor behaviour in thoracic spinal cord injury rat models. Slightly more than 50% of all traumatic spinal cord injuries in humans, however, occur at the level of the cervical spinal cord. ⋯ Consequently, there is a need to develop and use experimental cervical spinal cord injury models and understand the behavioural characteristics of such models. The present review highlights the sensorimotor abilities of cervical spinal cord-injured rats, including both forelimb, hind limb, and whole body behaviours. We also provide insight into the neuroanatomic substrates important for performing a given behaviour, information which may prove essential in the development of site-directed therapeutic strategies.
-
Serotonin (5-hydroxytryptamine, 5HT) plays important roles in both embryonic development as a mediator of neurogenesis and in the mature brain as a neurotransmitter. Disturbances in serotonergic transmission have been indicated in several psychiatric disorders. In the search for the biological substrates of psychiatric diseases, studies using animal models represent complementary approaches to studies on human subjects. ⋯ In the social interaction test, high-5HT animals spent less time in active contact with conspecifics and displayed a narrower spectrum of social behaviors than their low-5HT counterparts, while in the zero-maze and hole-board tasks, they showed a lower level of exploratory activity (head dips and nose pokes) in comparison to low-5HT rats. On the other hand, thigmotactic behavior (the percentage of time spent in open quadrants of zero-maze and the percentage of central holes visited in hole-board) did not differ between the sublines. The results suggest that as a result of selection process, a specific component of anxiety-related behavior (i.e. exploratory activity directed towards a novel environment and conspecifics) has been affected in Wistar-Zagreb 5HT rats.
-
Comparative Study
Evidence that tactile stimulation inhibits nociceptive sensations produced by innocuous contact cooling.
It was recently shown that stinging, pricking or burning is reliably perceived by some individuals when the skin is cooled to temperatures as mild as 25-30 degrees C. These seemingly paradoxical sensations, which have been termed innocuous-cold nociception (ICN), were significant only when cooling was produced by a thermode resting statically on the skin (static contact); touching an already cooled thermode to the skin (dynamic contact) produced reports of only coolness and cold. The present study investigated the hypothesis that ICN is inhibited by tactile stimulation produced when a thermode contacts the skin. ⋯ Experiment 2 confirmed the latter result and showed that suppression was greatest at 28 degrees C, less at 24 degrees C, and not significant at 18 degrees C. We conclude that dynamic tactile stimulation produced by contact with a surface inhibits the nociceptive component of innocuous but not noxious cooling. The implications of this conclusion for the role of cold perception in behavioral thermoregulation versus haptic perception, and for theories of cold perception in general, are discussed.