Stefania Maccari

Maternal Glucocorticoid Secretion Mediates Long-Term Effects of Prenatal Stress

There is growing evidence that stressors occurring during pregnancy can impair biological and behavioral adaptation to stress in the adult offspring. Mechanisms by which stress in the pregnant rat can influence development of the offspring are still unknown. In the present study, we investigated the involvement of maternal corticosterone secretion during pregnancy on the hypothalamo–pituitary–adrenal axis activity of adult offspring. We investigated stress-induced corticosterone secretion and hippocampal type I and type II corticosteroid receptors in male adult rats submitted to prenatal stress born to either mothers with intact corticosterone secretion or mothers in which stress-induced corticosterone secretion was blocked by adrenalectomy with substitutive corticosterone therapy. Repeated restraint during the last week of pregnancy was used as prenatal stressor. Furthermore, the specific role of an injection of corticosterone before the restraint stress on adrenalectomized mothers with substitutive corticosterone treatment was also studied. We report here that blockade of the mother’s stress-induced glucocorticoid secretion suppresses the prolonged stress-induced corticosteroid response and the decrease in type I hippocampal corticosteroid receptors usually observed in prenatally stressed adults. Conversely, corticosterone administered during stress, to mothers in which corticosterone secretion is blocked, reinstates the effects of prenatal stress. These results suggest for the first time that stress-induced increases in maternal glucocorticoids may be a mechanism by which prenatal stress impairs the development of the adult offspring’s glucocorticoid response.

Adoption reverses the long-term impairment in glucocorticoid feedback induced by prenatal stress

The development of the organism is subjected to critical and complex influences during the perinatal period. Prenatal and postnatal stresses can have different long-term behavioral effects, and appropriate postnatal manipulations can counteract the behavioral effects of prenatal stress. In the present study, we investigated the involvement of changes in the activity of the hypothalamo-pituitary-adrenal (HPA) axis in the long-term effects of prenatal and postnatal events and of interactions between them. We investigated stress-induced corticosterone secretion and hippocampal corticosteroid receptors in male adult rats submitted to prenatal and/or postnatal manipulations. Repeated restraint during the last week of pregnancy was used as prenatal stressor, and adoption at birth was used to change the postnatal environment. We found that (1) prenatal stress prolongs stress-induced corticosterone secretion in adult rats, which was attributed to the observed decrease in central corticosteroid receptors; (2) adoption, irrespective of the stress experience of the foster mother, reverses the effects of prenatal stress; and (3) adoption per se increases maternal behavior and decreases the stress- induced corticosterone secretion peak in the adult offspring. In conclusion, certain prenatal and postnatal manipulations appear to have opposite long-term effects on the activity of the HPA axis, and adoption, probably by modifying maternal behavior, can protect against the effects of prenatal stress. Thus, changes in the activity of the HPA axis may be one of the biological substrates of the long-term effects of certain perinatal events.

Prenatal Stress Increases the Hypothalamo‐Pituitary‐Adrenal Axis Response in Young and Adult Rats

Prenatal stress is considered as an early epigenetic factor able to induce long‐lasting alterations in brain structures and functions. It is still unclear whether prenatal stress can induce long‐lasting modifications in the hypothalamo‐pituitary‐adrenal axis. To test this possibility the effects of restraint stress in pregnant rats during the third week of gestation were investigated in the functional properties of the hypothalamo‐pituitary‐adrenal axis and hippocampal type I and type II corticosteroid receptors in the male offspring at 3, 21 and 90 days of age. Plasma corticosterone was significantly elevated in prenatally‐stressed rats at 3 and 21 days after exposure to novelty. At 90 days of age, prenatally‐stressed rats showed a longer duration of corticosterone secretion after exposure to novelty. No change was observed for type I and type II receptor densities 3 days after birth, but both receptor subtypes were decreased in the hippocampus of prenatally‐stressed offspring at 21 and 90 days of life. These findings suggest that prenatal stress produces long term changes in the hypothalamo‐pituitary‐adrenal axis in the offspring.

Long-term effects of prenatal stress and postnatal handling on age-related glucocorticoid secretion and cognitive performance: a longitudinal study in the rat.

There is growing evidence that stress during prenatal and postnatal periods of life can modify adaptive capacities in adulthoods. The hypothalamo–pituitary–adrenal axis may mediate an animals 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 3u2003weeks 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 (4–7u2003months), middle age (13–16u2003months) and in later life (20–24u2003months). 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.

Increased locomotor response to novelty and propensity to intravenous amphetamine self-administration in adult offspring of stressed mothers.

It is suggested that drug addiction is more likely to develop in individuals who are particularly sensitive to the reinforcing effects of drugs. Animal studies of intravenous drug self-administration (SA) have shown that rats display a large range of individual differences in the propensity to develop drug-seeking. Predisposed animals are characterized by a higher locomotor reactivity to both novelty and psychostimulants. In this report, we show that prenatal stress (restraint of the mother during the last week of pregnancy) may contribute to an individuals vulnerability to develop amphetamine self-administration. The adult offspring of stressed mothers exhibited: (i) a higher locomotor response to novelty and to an injection of amphetamine (0.3 mg/kg, i.v.); (ii) a higher level of amphetamine self-administration. The data indicate that individual predisposition to drug-seeking in the adult may be induced by prenatal events.

Social stress increases the acquisition of cocaine self-administration in male and female rats

The effect of social stress on the vulnerability to commence cocaine self-administration was examined in Sprague-Dawley rats repeatedly exposed to aggressive attack by a same-sex opponent. Both sexes were studied, since the factors influencing the acquisition of drug self-administration in females have not been defined. Male and female rats encountered an aggressive male or lactating female opponent on four separate occasions over the course of one week. Control male and female rats were not exposed to attack. All animals were implanted with jugular catheters, and six days later placed into the self-administration box, where a nose-poke in the designated active hole resulted in a 20 microliters injection of cocaine (0.32 mg/kg). Nose-pokes in an inactive hole had no effect. Male and female rats that had experienced social stress self-administered more cocaine than non-defeated controls. The difference between the stressed and non-stressed animals in the number of cocaine injections was not present during the first few days of exposure to cocaine, but became more pronounced over time. Social stress increased the number of responses for cocaine, but did not alter the number of non-specific responses. Sex differences in self-administration were not significant. Therefore, social status appears to be a potent influence in the onset of drug taking behavior in both male and female rats.

Stress-induced sensitization to amphetamine and morphine psychomotor effects depend on stress-induced corticosterone secretion.

Repeated exposure to stressful situations has been shown to increase individual reactivity to addictive drugs. However, the biological factors involved in such stress-induced changes are largely unknown. In this study, we investigated the role of corticosterone in the effects of restraint stress on the response to psychostimulants and opioids. The effects of repeated stress on amphetamine- and morphine-induced locomotor activity were compared in: (i) animals with an intact hypothalamo-pituitary-adrenal (HPA) axis; (ii) animals in which stress-induced corticosterone secretion was blocked by adrenalectomy, but who received exogenous corticosterone from a subcutaneous implant. The implanted pellets (50 mg) slowly release corticosterone producing a stable plasma level within the normal physiological range over a period of 20 days. Restraint stress increased the locomotor response to both amphetamine (1.5 mg/kg i.p.) and morphine (2 mg/kg s.c.) in animals with an intact HPA axis, but not in animals in which stress-induced corticosterone secretion was suppressed. These results suggest that corticosterone secretion may be one of the mechanisms by which repeated stress amplifies behavioral responses to amphetamine and morphine. Since an enhanced locomotor reactivity to addictive drugs has been found to be frequently associated with an enhanced vulnerability to drug self-administration, these findings point to a role for glucocorticoids in the susceptibility to drug abuse.

Inhibition of corticosterone synthesis by Metyrapone decreases cocaine-induced locomotion and relapse of cocaine self-administration

Several studies have recently shown that basal and stress-induced secretion of corticosterone may enhance vulnerability to drugs of abuse. In this report, we studied the effects of metyrapone, an inhibitor of the synthesis of corticosterone, on cocaine-induced locomotion and on the relapse of cocaine self-administration. Locomotor response to cocaine was studied because psychomotor effects of drugs have been shown to be related to their reinforcing properties. Self-administration was studied in the relapse phase since blockade of relapse is central to the therapy of addiction. Before these behavioral tests, rats in different experimental groups were injected subcutaneously with either metyrapone (100 mg/kg) or vehicle, twice a day for 8 days. Metyrapone treatment reduced cocaine-induced locomotor activity and relapse of cocaine self-administration, without inducing a nonspecific disruption of motor or food-directed behaviors. Under these experimental conditions, the metyrapone treatment totally blocked stress-induced corticosterone secretion but did not modify basal corticosterone levels. These results confirm the involvement of glucocorticoids in the pathophysiological mechanisms underlying vulnerability to drug abuse, and may have implications for the development of new therapeutic strategies of drug addiction.

Long-term effects of prenatal stress and handling on metabolic parameters: relationship to corticosterone secretion response

The prenatal and postnatal environment exerts a long-term influence on the stress-response of the hypothalamic-pituitary-adrenal (HPA) axis. In this study, the long-term effects of prenatal and postnatal manipulations and their related changes on glucocorticoid secretion were examined on metabolic parameters in adult rats. Plasma glucose levels, body weight and basal feeding behavior were measured. We show that modifications of the prenatal and postnatal environment have opposite long-term effects on these parameters, except for blood glucose, which was increased in prenatally stressed animals. Although the mechanisms underlying these phenomena remain to be elucidated, the observations show that perinatal manipulations have long-term effects on metabolic functions related to HPA activity.

Repeated corticosterone administration sensitizes the locomotor response to amphetamine

Repeated exposures to stressful situations has been shown to increase individual reactivity to psychostimulants, although the biological factors involved in such stress-induced changes are still poorly understood. In this study, we investigated the role of corticosterone in the effects of stress on the response to psychostimulants. We found that repeated corticosterone administration (both 1.5 mg/kg, intraperitoneally and 50 micrograms/ml in drinking water, once per day for 15 days) increased the locomotor response to amphetamine (1.15 mg/kg, i.p.). At the doses used in these experiments, corticosterone administration induced similar increases in plasma levels of the hormone to those induced by stress. These results suggest that corticosterone secretion may be one of the mechanisms by which repeated stress increases the behavioral responses to amphetamine. Since an enhanced reactivity to psychostimulants has been found to be an index of a propensity for drug self-administration and a model of certain psychopathological conditions, these findings point to a role for glucocorticoids in such abnormal states.