Since the work of Hans Selye, stress has been associated with increased activity of the
limbic–hypothalamic– pituitary–adrenocortical (LHPA) axis. Recently, a
number of studies in adults have shown that this neuroendocrine axis may be hyporesponsive in a
number of stress-related states. Termed hypocortisolism, the paradoxical suppression of the
LHPA axis under conditions of trauma and prolonged stress presently challenges basic concepts in
stress research. Adverse conditions that produce elevated cortisol levels early in life are
hypothesized to contribute to the development of hypocortisolism in adulthood. However, as
reviewed in this paper, hypocortisolism also may be a common phenomenon early in human
childhood. Although preliminary at this point, the ubiquity of these findings is striking. We argue
that developmental studies are needed that help explicate the origins of low cortisol and to
determine whether the development of hypocortisolism is, in fact, preceded by periods of frequent
or chronic activation of the LHPA axis. We also argue that developmental researchers who
incorporate measures of salivary cortisol into their studies of at-risk populations need to be aware
of the hypocortisolism phenomenon. Lower than expected cortisol values should not necessarily
be relegated to the file drawer because they contradict the central dogma that stress must be
associated with elevations in cortisol. Lastly, we note that evidence of low cortisol under adverse
early life conditions in humans adds to the importance of understanding the implications of
hypocortisolism for health and development.
Outbred Sprague-Dawley rats can be classified as high responders (HR) or low responders (LR) based on their levels of exploratory locomotion in a novel environment. While this novelty-seeking dimension was originally related to differential vulnerability to substance abuse, behavioral, neuroendocrine and gene expression studies suggest a fundamental difference in emotional reactivity between these animals. Here, we report the first study to selectively breed rats based on this novelty-seeking dimension. Response to novelty was clearly heritable, with a > 2-fold difference in behavior seen after eight generations of selection. Three tests of anxiety-like behavior consistently showed significantly greater anxiety in LR-bred rats compared to HR-bred animals, and this difference was diminished in the open field test by administration of the anxiolytic benzodiazepine drug, chlordiazepoxide. Cross-fostering revealed that responses to novelty were largely unaffected by maternal interactions, though there was an effect on anxiety-like behavior. These selected lines will enable future research on the interplay of genetic, environmental and developmental variables in controlling drug seeking behavior, stress and emotional reactivity.
Hippocampal glucocorticoid receptors (GR and MR) play an important role in glucocorticoid negative feedback. Abnormalities in negative feedback are found in depression and in post-traumatic stress disorder (PTSD), suggesting that GR and MR might be involved in the pathophysiology of these disorders. Enhanced negative feedback, the PTSD-specific neuroendocrine abnormality, can be induced in animals using a single prolonged stress (SPS) paradigm (a number of different stressors in one prolonged session, 'no stress' interval and a testing session one week later). In the current study, we examined hippocampal GR and MR mRNA distribution in the same animals that exhibited altered negative feedback following the SPS. Seven groups of adult Sprague-Dawley male rats (seven animals each) were used in two studies, comparing unstressed controls to acutely stressed animals (SPS: 24 h group), SPS animals (seven and 14 days), and SPS + chronic stress animals. GR and MR mRNA distribution across hippocampal subfields was studied using in-situ hybridization with 35S-labelled cRNA probes. Acute stress produced down-regulation of GR and MR mRNA across all hippocampal subfields. Seven days later (SPS-7 group), there was a differential recovery, with GR mRNA reaching higher than the prestress levels, and MR mRNA remaining down-regulated. The same differential regulation was present in the 14-day group. Chronically stressed animals that exhibited normal fast feedback also had normalization in their GR and MR mRNA levels. The MR/GR ratio was decreased only in animals that had enhanced fast feedback. These findings suggest that the increase in GR, in hippocampus is involved in the fast feedback hypersensitivity observed in the SPS animals, and might also underlie enhanced dexamethasone sensitivity found in PTSD. Since differential activation of GR and MR can modulate memory, behavioural responsivity, anxiety and fear, change in MR/GR ratio might also explain other PTSD-related phenomena.
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