NMDA receptor-dependent switching between different gamma rhythm-generating microcircuits in entorhinal cortex
Steven J. Middleton,Jozsi Jalics,Tilman J. Kispersky,Fiona E. N. LeBeau,Anita K. Roopun,Nancy Kopell,Miles A. Whittington,Mark O. Cunningham +7 more
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TLDR
The two different gamma frequencies matched the different intrinsic frequencies in hippocampal areas CA3 and CA1, suggesting that NMDA receptor activation may control the nature of temporal interactions between mEC and hippocampus, thus influencing the pathway for information transfer between the two regions.Abstract:
Local circuits in the medial entorhinal cortex (mEC) and hippocampus generate gamma frequency population rhythms independently. Temporal interaction between these areas at gamma frequencies is implicated in memory—a phenomenon linked to activity of NMDA-subtype glutamate receptors. While blockade of NMDA receptors does not affect frequency of gamma rhythms in hippocampus, it exposes a second, lower frequency (25–35 Hz) gamma rhythm in mEC. In experiment and model, NMDA receptor-dependent mEC gamma rhythms were mediated by basket interneurons, but NMDA receptor-independent gamma rhythms were mediated by a novel interneuron subtype—the goblet cell. This cell was distinct from basket cells in morphology, intrinsic membrane properties and synaptic inputs. The two different gamma frequencies matched the different intrinsic frequencies in hippocampal areas CA3 and CA1, suggesting that NMDA receptor activation may control the nature of temporal interactions between mEC and hippocampus, thus influencing the pathway for information transfer between the two regions.read more
Citations
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An enhanced role and expanded developmental origins for gamma-aminobutyric acidergic interneurons in the human cerebral cortex
TL;DR: It is important to understand fully the similarities and differences between human development and animal models, as there is growing evidence that conditions such as autism, schizophrenia and congenital epilepsy may have developmental origins in the failure of interneuron production and migration.
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Effects of NMDA receptor antagonists and antipsychotics on high frequency oscillations recorded in the nucleus accumbens of freely moving mice
Mark J. Hunt,Mark J. Hunt,Maciej Olszewski,Joanna Piasecka,Miles A. Whittington,Stefan Kasicki +5 more
TL;DR: It is found that atypical antipsychotic drugs may reduce the frequency of HFO by interacting with NMDA and/or 5-HT1A receptors.
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State-dependent increase of cortical gamma activity during REM sleep after selective blockade of NR2B subunit containing NMDA receptors.
TL;DR: By acting on gamma oscillations in a state-dependent manner, NMDA receptors might have subunit-specific role in REM sleep-associated cognitive processes.
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NMDA-receptor inhibition and oxidative stress during hippocampal maturation differentially alter parvalbumin expression and gamma-band activity.
Luisa A. Hasam-Henderson,Grace C. Gotti,Michele Mishto,Michele Mishto,Constantin Klisch,Zoltan Gerevich,Jörg R.P. Geiger,Richard Kovács +7 more
TL;DR: Although disturbances of PV-expression and gamma oscillations coexist in schizophrenia, they can arise from separate pathological processes.
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The olfactory bulb is a source of high-frequency oscillations (130–180 Hz) associated with a subanesthetic dose of ketamine in rodents
Mark J. Hunt,Natalie E Adams,Władysław Średniawa,Daniel K. Wójcik,Anna Simon,Stefan Kasicki,Miles A. Whittington +6 more
TL;DR: Results reveal the OB as a source of ketamine-HFO which can contribute to HFO in the ventral striatum, known to project diffusely to many other brain regions, and provide a new conceptual understanding on how changes in olfactory system function may have implications for neurological disorders involving NMDA receptor dysfunction such as schizophrenia and depression.
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