Corticotropin releasing factor (CRF) is a major integrator of adaptive responses to stress. Two biochemically and pharmacologically distinct CRF receptor subtypes (CRFR1 and CRFR2) have been described. We have generated mice null for the CRFR1 gene to elucidate the specific developmental and physiological roles of CRF receptor mediated pathways. Behavioral analyses revealed that mice lacking CRFR1 displayed markedly reduced anxiety. Mutant mice also failed to exhibit the characteristic hormonal response to stress due to a disruption of the hypothalamic-pituitary-adrenal (HPA) axis. Homozygous mutant mice derived from crossing heterozygotes displayed low plasma corticosterone concentrations resulting from a marked agenesis of the zona fasciculata region of the adrenal gland. The offspring from homozygote crosses died within 48 hr after birth due to a pronounced lung dysplasia. The adrenal agenesis in mutant animals was attributed to insufficient adrenocorticotropic hormone (ACTH) production during the neonatal period and was rescued by ACTH replacement. These results suggest that CRFR1 plays an important role both in the development of a functional HPA axis and in mediating behavioral changes associated with anxiety.
It is well known that the hypothalamo-pituitary-adrenal (HPA) axis is altered by early environmental experiences, particularly in the perinatal period. This may be one mechanism by which the environment changes the physiology of the animal such that individual differences in adult adaptative capabilities, such as behavioral reactivity and memory performance, are observable. To determine the origin of these behavioral individual differences, we have investigated whether the long-term influence of prenatal and postnatal experiences on emotional and cognitive behaviors in adult rats are correlated with changes in HPA activity. To this end, prenatal stress of rat dams during the last week of gestation and postnatal daily handling of rat pups during the first 3 weeks of life were used as two environmental manipulations. The behavioral reactivity of the adult offspring in response to novelty was evaluated using four different parameters: the number of visits to different arms in a Y-maze, the distance covered in an open field, the time spent in the corners of the open field, and the time spent in the open arms of an elevated plus-maze. Cognitive performance was assessed using a water maze and a two-trial memory test. Adult prenatally stressed rats showed high anxiety-like behavior, expressed as an escape behavior to novelty correlated with high secretion of corticosterone in response to stress, whereas adult handled rats exhibited low anxiety-like behavior, expressed as high exploratory behavior correlated with low secretion of corticosterone in response to stress. On the other hand, neither prenatal stress nor handling changed spatial learning or memory performance. Taken together, these results suggest that individual differences in adult emotional status may be governed by early environmental factors; however, perinatal experiences are not effective in influencing adult memory capacity.
A behavioral trait in rats which resembles some of the features of high-sensation seekers in man has been characterized. Given that the response to novelty is the basis of the definition of sensation-seeking, individual differences in reactivity to novelty have been studied on behavioral and biological levels. Certain individuals labeled as high responders (HR) as opposed to low responders (LR) have been shown to be highly reactive when exposed to a novel environment. These groups were investigated for free-choice responses to novel environments differing in complexity and aversiveness, and to other kinds of reinforcement, i.e. food and a drug. The HR rats appeared to seek novelty, variety and emotional stimulation. Only HR individuals have been found to be predisposed to drug-taking: they develop amphetamine self-administration whereas LR individuals do not. They also exhibit a higher sensitivity to the reinforcing properties of food. On a biological level, compared to LR rats, HR animals have an enhanced level of dopaminergic activity in the nucleus accumbens both under basal conditions or following a tail-pinch stress. HR and LR rats differ in reactivity of the corticotropic axis: HR rats exposed to a novel environment have a prolonged secretion of corticosterone compared to LR rats. The association of novelty, drug and food seeking in the same individual suggests that these characteristics share common processes. Differences in dopaminergic activity between HR and LR rats are consistent with results implicating these dopaminergic neurons in response to novelty and in drug-taking behavior. Given that rats self-administer corticosterone and that HR rats are more sensitive to the reinforcing properties of corticoste-roids, it could be speculated that HR rats seek novelty for the reinforcing action of corticosterone. These characteristics may be analogous to some for the features found in human high-sensation seekers and this animal model may be useful in determinating the biological basis of this human trait.
There is growing evidence that stress during prenatal and postnatal periods of life can modify adaptive capacities in adulthood. The hypothalamo-pituitary-adrenal axis may mediate an animal's responses to perinatal stressful events and thus serve as a neurobiological substrate of the behavioural consequences of these early events. However, little is known about the long-term effects of prenatal stressors throughout the entire life of the animals. The focus of the present study was to examine the long-term influences of a prenatal and postnatal stress on glucocorticoid secretion and cognitive performance. Prenatal stress of rat dams during the last week of pregnancy and postnatal daily handling of rat pups during the first 3 weeks of life were used as stressors. The long-term effects of these manipulations were analysed using a longitudinal approach throughout the entire life of the animals, and were repeatedly tested in adulthood (4-7 months), middle age (13-16 months) and in later life (20-24 months). The study demonstrated that prenatal stress and postnatal handling induced opposite effects on both glucocorticoid secretion and cognitive performance. Prenatal stress accelerated the age-related hypothalamo-pituitary-adrenal axis dysfunctions; indeed, circulating glucocorticoids levels of prenatally stressed middle-aged animals are similar to old control ones, and also induced cognitive impairments. In contrast, postnatal handling protected from the age-related neuroendocrine and behavioural alterations. These results show that the altered glucocorticoid secretion induced by early environmental manipulations is primary to the cognitive alterations observed only later in life and could be one cause of age-related memory deficits.
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