E. Ronald de Kloet scite author profile

In response to stress, the brain activates several neuropeptide-secreting systems. This eventually leads to the release of adrenal corticosteroid hormones, which subsequently feed back on the brain and bind to two types of nuclear receptor that act as transcriptional regulators. By targeting many genes, corticosteroids function in a binary fashion, and serve as a master switch in the control of neuronal and network responses that underlie behavioural adaptation. In genetically predisposed individuals, an imbalance in this binary control mechanism can introduce a bias towards stress-related brain disease after adverse experiences. New candidate susceptibility genes that serve as markers for the prediction of vulnerable phenotypes are now being identified.

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Two Receptor Systems for Corticosterone in Rat Brain: Microdistribution and Differential Occupation

Reul¹,

1985

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Two receptor systems for corticosterone (CORT) can be distinguished in rat brain: mineralocorticoid-like or CORT receptors (CR) and glucocorticoid receptors (GR). The microdistribution and extent of occupation of each receptor population by CORT were studied. The CR system is restricted predominantly to the lateral septum and hippocampus. Within the hippocampus, the highest density occurs in the subiculum +/- CA1 cell field (144 fmol/mg protein) and the dentate gyrus (104 fmol/mg protein). Affinity of CR for CORT was very high (Kd, approximately 0.5 nM). The GR system has a more widespread distribution in the brain. The highest density for GR is in the lateral septum (195 fmol/mg protein), the dentate gyrus (133 fmol/mg protein), the nucleus tractus solitarii and central amygdala. Substantial amounts of GR are present in the paraventricular nucleus and locus coeruleus and low amounts in the raphe area and the subiculum + CA1 cell field. The affinity of GR for CORT (Kd, approximately 2.5-5 nM) was 6- to 10-fold lower than that of CR. Occupation of CR by endogenous ligand was 89.5% during morning trough levels of pituitary-adrenal activity (plasma CORT, 1.4 micrograms/100 ml). Similar levels of occupation (88.7% and 97.6%) were observed at the diurnal peak (plasma CORT, 27 micrograms/100 ml) and after 1 h of restraint stress (plasma CORT, 25 micrograms/100 ml), respectively. Furthermore, a dose of 1 microgram CORT/100 g BW, sc, resulted in 80% CORT receptor occupation, whereas GR were not occupied. For 50% occupation of GR, doses needed to be increased to 50-100 micrograms/100 g BW, and for 95% occupation, a dose of 1 mg CORT was required. The plasma CORT level at the time of half-maximal GR occupation was about 25 micrograms/100 ml, which is in the range of levels attained after stress or during the diurnal peak of pituitary-adrenal activity. Thus, CR are extensively filled (greater than 90%) with endogenous CORT under most circumstances, while GR become occupied concurrent with increasing plasma CORT concentrations due to stress or diurnal rhythm. We conclude that CORT action via CR may be involved in a tonic (permissive) influence on brain function with the septohippocampal complex as a primary target. In view of the almost complete occupation of CR by endogenous hormones, the regulation of the CORT signal via CR will, most likely, be by alterations in the number of such receptors. In contrast, CORT action via GR is involved in its feedback action on stress-activated brain mechanisms, and GR occur widely in the brain.(ABSTRACT TRUNCATED AT 400 WORDS)

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Stress and cognition: are corticosteroids good or bad guys?

Kloet¹,

Oitzl²,

Joëls

1999

Trends in Neurosciences

1,114

759

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Maternal Care and Hippocampal Plasticity: Evidence for Experience-Dependent Structural Plasticity, Altered Synaptic Functioning, and Differential Responsiveness to Glucocorticoids and Stress

Champagne¹,

Bagot²,

Hasselt³

et al. 2008

Journal of Neuroscience

599

478

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Maternal licking and grooming (LG) in infancy influences stress responsiveness and cognitive performance in the offspring. We examined the effects of variation in the frequency of pup LG on morphological, electrophysiological, and behavioral aspects of hippocampal synaptic plasticity under basal and stress-like conditions. We found shorter dendritic branch length and lower spine density in CA1 cells from the adult offspring of low compared with high LG offspring. We also observed dramatic effects on long-term potentiation (LTP) depending on corticosterone treatment. Low LG offspring, in contrast to those of high LG mothers, displayed significantly impaired LTP under basal conditions but surprisingly a significantly enhanced LTP in response to high corticosterone in vitro. This enhanced plasticity under conditions that mimic those of a stressful event was apparent in vivo. Adult low LG offspring displayed enhanced memory relative to high LG offspring when tested in a hippocampal-dependent, contextual fear-conditioning paradigm. Hippocampal levels of glucocorticoid and mineralocorticoid receptors were reduced in low compared with high LG offspring. Such effects, as well as the differences in dendritic morphology, likely contribute to LTP differences under resting conditions, as well as to the maternal effects on synaptic plasticity and behavior in response to elevated corticosterone levels. These results suggest that maternal effects may modulate optimal cognitive functioning in environments varying in demand in later life, with offspring of high and low LG mothers showing enhanced learning under contexts of low and high stress, respectively.

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LOCALISATION OF 11β-Hydroxysteroid DEHYDROGENASE—TISSUE SPECIFIC PROTECTOR OF THE MINERALOCORTICOID RECEPTOR

et al. 1988

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E. Ronald de Kloet

Stress and the brain: from adaptation to disease

Two Receptor Systems for Corticosterone in Rat Brain: Microdistribution and Differential Occupation

Stress and cognition: are corticosteroids good or bad guys?

Maternal Care and Hippocampal Plasticity: Evidence for Experience-Dependent Structural Plasticity, Altered Synaptic Functioning, and Differential Responsiveness to Glucocorticoids and Stress

LOCALISATION OF 11β-Hydroxysteroid DEHYDROGENASE—TISSUE SPECIFIC PROTECTOR OF THE MINERALOCORTICOID RECEPTOR

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