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Femke L Groeneweg
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Henk Karst Department of Medical Pharmacology, Department of Neuroscience and Pharmacology, Leiden Amsterdam Center for Drug Research and Leiden University Medical Center, Leiden University, Einsteinweg 55, 2333CC Leiden, The Netherlands

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E Ron de Kloet
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Marian Joëls Department of Medical Pharmacology, Department of Neuroscience and Pharmacology, Leiden Amsterdam Center for Drug Research and Leiden University Medical Center, Leiden University, Einsteinweg 55, 2333CC Leiden, The Netherlands

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In response to a stressful encounter, the brain activates a comprehensive stress system that engages the organism in an adaptive response to the threatening situation. This stress system acts on multiple peripheral tissues and feeds back to the brain; one of its key players is the family of corticosteroid hormones. Corticosteroids affect brain functioning through both delayed, genomic and rapid, non-genomic mechanisms. The latter mode of action has long been known, but it is only in recent years that the physiological basis in the brain is beginning to be unravelled. We now know that corticosteroids exert rapid, non-genomic effects on the excitability and activation of neurons in (amongst others) the hypothalamus, hippocampus, amygdala and prefrontal cortex. In addition, corticosteroids affect cognition, adaptive behaviour and neuroendocrine output within minutes. Knowledge on the identity of the receptors and secondary pathways mediating the non-genomic effects of corticosteroids on a cellular level is accumulating. Interestingly, in many cases, an essential role for the ‘classical’ mineralocorticoid and glucocorticoid receptors in a novel membrane-associated mechanism is found. Here, we systematically review the recent literature on non-genomic actions of corticosteroids on neuronal activity and functioning in selected limbic brain targets. Further, we discuss the relevance of these permissive effects for cognition and neuroendocrine control, and the integration of this novel mode of action into the complex balanced pattern of stress effects in the brain.

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