Differential neuroendocrine responses to chronic variable stress in adult Long Evans rats exposed to handling-maternal separation as neonates.

Burgeoning evidence supports a preeminent role for early- and late-life stressors in the development of physio- and psychopathology. Handling-maternal separation (HMS) in neonatal Long Evans hooded rats leads to stable phenotypes ranging from resilient to vulnerable to later stressor exposure. Handling with 180 min of maternal separation yields a phenotype of stress hyper-responsiveness associated with facilitation of regional CRF neurocircuits and glucocorticoid resistance.

Pubertal neuromaturation, stress sensitivity, and psychopathology.

Normal adolescent development is often accompanied by transient emotional and behavioral problems. For most individuals with postpubertal-onset adjustment problems, there is a resolution by early adulthood and relative stability through the adult life span. But for a minority, adjustment problems escalate during adolescence and portend the development of serious mental illness in adulthood.

The stress cascade and schizophrenia: etiology and onset.

Psychosocial stress is included in most etiologic models of schizophrenia, frequently as a precipitating factor for psychosis in vulnerable individuals. Nonetheless, the stress-diathesis model has not been tested prospectively in prodromal patients as a predictor of psychosis. The biological effects of stress are mediated by the hypothalamic-pituitary-adrenal (HPA) axis, which governs the release of steroids, including cortisol.

Long-term adaptations in glucocorticoid receptor and mineralocorticoid receptor mRNA and negative feedback on the hypothalamo-pituitary-adrenal axis following neonatal maternal separation.

Background: Maternally separated rats exhibit exaggerated hypothalamic-pituitary-adrenal responses to an acute stressor but normal diurnal trough functioning. We hypothesized that maternally separated rats experience adequate proactive glucocorticoid negative feedback but deficient "reactive" negative feedback, contributing to prolonged hypothalamic-pituitary-adrenal stress responses.

Methods: We measured plasma adrenocorticotropic hormone and corticosterone concentrations following an acute stressor or 6 to 8 hours after dexamethasone administration in adult rats previously exposed to daily handling-maternal separation for 15 minutes (HMS15) or 180 minutes (HMS180) during postnatal days 2 to 14.

Postnatal maternal separation elevates the expression of the postsynaptic protein kinase C substrate RC3, but not presynaptic GAP-43, in the developing rat hippocampus.

We have shown that exposure of rats to neonatal handling/maternal separation results in mossy fiber axon hypoplasia in field CA3 of the hippocampus. To better understand the molecular basis of this neuroanatomical alteration, the present study examined three developmentally regulated protein kinase C substrate mRNAs that are highly expressed in hippocampal granule cells during mossy fiber outgrowth: GAP-43, a presynaptic substrate implicated in axonal outgrowth, RC3 (neurogranin), a postsynaptic substrate implicated in calmodulin signaling, and MARCKS-like protein (MLP), which binds calmodulin and filamentous actin in neurons and glial cells. mRNA expression was examined by quantitative in situ hybridization in the developing [postnatal day 7 (P7), P13, P21, and P90] hippocampus (CA1, CA3, granule cells) in Long-Evans hooded rats: (1) reared under normal animal facility (AFR) conditions, (2) subjected to brief (15 min/day, HMS15), or (3) subjected to moderate (180 min/day) handling/maternal separation (HMS180) on P2-14.

Jugular vein catheterization for repeated blood sampling in the unrestrained conscious rat.

The ability to obtain repeated, low-stress blood samples from adult rats enables the design of complex experiments in which time course information or evaluation of repeated treatments is necessary. Furthermore, it reduces the number of animals necessary to acquire such information and, thus, facilitates compliance with the animal use 3Rs (reduction, refinement and replacement). To this end, a microsurgical technique to collect blood samples from the right atrium through a catheter (cannula) implanted into the right external jugular vein of adult rats is described.

Neonatal maternal separation reduces hippocampal mossy fiber density in adult Long Evans rats.

Neonatal maternal separation of rat pups leads to a stable stress hyper-responsive phenotype characterized by increased basal levels of corticotropin releasing factor (CRF) mRNA in the hypothalamic and extra-hypothalamic nuclei, increased hypothalamic CRF release, and enhanced adrenocorticotrophin hormone (ACTH) and corticosterone (CORT) responses to psychological stressors. Stress and exposure to glucocorticoids either early in life or in adulthood have been associated with hippocampal atrophy and impairments in learning and memory. In this study, male Long Evans rat pups were exposed to daily 3-h (HMS180) or 15-min (HMS15) periods of maternal separation on postnatal days (PND) 2-14 or normal animal facility rearing.