2 resultados para hypothalamic-pituitary-adrenal axis
em Universidade Complutense de Madrid
Resumo:
The aim of the present study was to investigate the effects of the stimulation and inhibition of the ventral part of the medial prefrontal cortex (infralimbic cortex) on basal and stress-induced plasma levels of corticosterone and on the acquisition of aversive memory in animals maintained in control and environmental enrichment (EE) conditions. Intracortical microinjections of the GABAA antagonist picrotoxin and agonist muscimol were performed in male Wistar rats to stimulate and inhibit, respectively, the activity of the infralimbic cortex. Injections were performed 60 min before foot shock stress and training in the inhibitory avoidance task. Picrotoxin injections into the infralimbic cortex increased basal plasma levels of corticosterone. These increases were higher in EE rats which suggest that EE enhances the control exerted by infralimbic cortex over the hypothalamus-pituitary-adrenal (HPA) axis and corticosterone release. Muscimol injections into the infralimbic cortex reduced the stress-induced plasma levels of corticosterone and the retention latency 24 h after training in the inhibitory avoidance performance in control and EE animals, respectively. These results further suggest that the infralimbic cortex is required for the activation of the HPA axis during stress and for the acquisition of contextual aversive memories.
Resumo:
The womb is the first developmental environment. After developmental psychobiologists started to investigate intrauterine evolution of infant and its long-term impact, they found that prenatal and postnatal development is influenced by mother’s psychological health. Specifically, scientific research evidence indicates that prenatal stress is a possible cause of subsequent psychopathological vulnerability. This vulnerability comes from stress sensitivity and is the basis of many childhood disorders. In the last decade, there are evidences for a fetal origin of stress sensitivity in the context of the fetal programming theory (Entringer et al., 2009, Grant et al., 2009, Gutteling et al., 2004, Huizink et al., 2004, O’Connor et al., 2005). According to fetal programming hypothesis, babies that have been exposed to high levels of prenatal stress would develop elevated HPA axis reactivity and thus increased stress sensitivity in the postnatal period. In the field of animal psychobiology, several studies have shown that prenatal stress could play some role on fetal programming of neurodevelopment and HPA axis (Glover, 2010, Weinstock, 2005, 2008). In human psychobiology, evidences are less clear (Glover, 2010). Although research in this regard has been growing during the last few years, more studies are warranted to investigate the relationship between maternal stress and fetal programming of neurodevelopment and the HPA axis in humans, to confirm the findings which are evident from animal psychobiology...