Ultradian corticosterone pulses balance glutamatergic transmission and synaptic plasticity

Sarabdjitsingh, R. Angela; Jézéquel, Julie; Pasricha, Natasha; Mikasová, Lenka; Kerkhofs, Amber; Karst, H.; Groc, Laurent; Joëls, Marian

doi:10.1073/pnas.1411216111

Cited by 73 publications

(64 citation statements)

References 27 publications

(53 reference statements)

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“…The rapid effect does not require protein synthesis and involves a receptor that is localised close to the plasma membrane because BSA-linked corticosterone was active outside but not inside the cell. In hippocampal CA1 neurons, this receptor seems to be located both presynaptically, linked to the ERK1/2 signalling pathway, and post-synaptically, involving G-protein signalling (Karst et al 2005, Olijslagers et al 2008, Sarabdjitsingh et al 2014.…”

Section: Non-genomic Mr-mediated Actionsmentioning

confidence: 99%

30 YEARS OF THE MINERALOCORTICOID RECEPTOR: The brain mineralocorticoid receptor: a saga in three episodes

Joëls

Kloet

2017

Journal of Endocrinology

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118

109

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In 1968, Bruce McEwen discovered that 3 H-corticosterone administered to adrenalectomised rats is retained in neurons of hippocampus rather than those of hypothalamus. This discovery signalled the expansion of endocrinology into the science of higher brain regions. With this in mind, our contribution highlights the saga of the brain mineralocorticoid receptor (MR) in three episodes. First, the precloning era dominated by the conundrum of two types of corticosterone-binding receptors in the brain, which led to the identification of the high-affinity corticosterone receptor as the 'promiscuous' MR cloned in 1987 by Jeff Arriza and Ron Evans in addition to the classical glucocorticoid receptor (GR). Then, the post-cloning period aimed to disentangle the function of the brain MR from that of the closely related GR on different levels of biological complexity. Finally, the synthesis section that highlights the two faces of brain MR: Salt and Stress. 'Salt' refers to the regulation of salt appetite, and reciprocal arousal, motivation and reward, by a network of aldosterone-selective MR-expressing neurons projecting from nucleus tractus solitarii (NTS) and circumventricular organs. 'Stress' is about the limbic-forebrain nuclear and membrane MRs, which act as a switch in the selection of the best response to cope with a stressor. For this purpose, activation of the limbic MR promotes selective attention, memory retrieval and the appraisal process, while driving emotional expressions of fear and aggression. Subsequently, rising glucocorticoid concentrations activate GRs in limbic-forebrain circuitry underlying executive functions and memory storage, which contribute in balance with MR-mediated actions to homeostasis, excitability and behavioural adaptation.

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Section: Non-genomic Mr-mediated Actionsmentioning

confidence: 99%

30 YEARS OF THE MINERALOCORTICOID RECEPTOR: The brain mineralocorticoid receptor: a saga in three episodes

Joëls

Kloet

2017

Journal of Endocrinology

Self Cite

118

109

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“…These circadian changes in cortisol concentration are likely to affect many important homeostatic processes in the body, including the balance between neuronal excitability and inhibition [12][13][14]. However, the relationship between circadian fluctuations in cortisol levels and seizure susceptibility is unknown.…”

Section: Introductionmentioning

confidence: 99%

Seizure occurrence and the circadian rhythm of cortisol: a systematic review

Campen

Valentijn

Jansen

et al. 2015

Epilepsy & Behavior

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“…A recent study showed that the pattern of GCs pulses differentially regulates glutamatergic neurotransmission and long-term potentiation (LTP, an important neuronal mechanism considered to underlie memory formation) induction in cultures of hippocampal neurons and dorsal hippocampal slices from rodent brains (Sarabdjitsingh et al, 2014), while a previous study has described the phenomenon of gene pulsing in rat hippocampus following pulses of GCs (Conway-Campbell et al, 2010).…”

Section: How Is Gc Rhythmicity Biologically Perceived By the Brain?mentioning

confidence: 99%

Temporal control of glucocorticoid neurodynamics and its relevance for brain homeostasis, neuropathology and glucocorticoid-based therapeutics

Kalafatakis

Russell

Ζάρρος³

et al. 2016

Neuroscience & Biobehavioral Reviews

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Glucocorticoids mediate plethora of actions throughout the human body. Within the brain, they modulate aspects of immune system and neuroinflammatory processes, interfere with cellular metabolism and viability, interact with systems of neurotransmission and regulate neural rhythms. The influence of glucocorticoids on memory and emotional behaviour is well known and there is increasing evidence for their involvement in many neuropsychiatric pathologies. These effects, which at times can be in opposing directions, depend not only on the concentration of glucocorticoids but also the duration of their presence, the temporal relationship between their fluctuations, the co-influence of other stimuli, and the overall state of brain activity. Moreover, they are region-and cell type-specific. The molecular basis of such diversity of effects lies on the orchestration of the spatiotemporal interplay between glucocorticoid-and mineralocorticoid receptors, and is achieved through complex dynamics, mainly mediated via the circadian and ultradian pattern of glucocorticoid secretion. More sophisticated methodologies are therefore required to better approach the study of these hormones and improve the effectiveness of glucocorticoid-based therapeutics.

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Ultradian corticosterone pulses balance glutamatergic transmission and synaptic plasticity

Cited by 73 publications

References 27 publications

30 YEARS OF THE MINERALOCORTICOID RECEPTOR: The brain mineralocorticoid receptor: a saga in three episodes

30 YEARS OF THE MINERALOCORTICOID RECEPTOR: The brain mineralocorticoid receptor: a saga in three episodes

Seizure occurrence and the circadian rhythm of cortisol: a systematic review

Temporal control of glucocorticoid neurodynamics and its relevance for brain homeostasis, neuropathology and glucocorticoid-based therapeutics

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