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
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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Gamma-band synchronization in the neocortex: novel analysis methods and their application to sensory and motivational systems
TL;DR: The authors show that neuronal coding of odour-value associations and rhythmic synchronization in OFC is critically dependent on the NMDA receptor.
Journal ArticleDOI
Regulation of gamma-frequency oscillation by feedforward inhibition: A computational modeling study.
TL;DR: Using computer simulations, the feedforward inhibitory signal reduces the dependence of both the frequency of population oscillation and the level of selection on the magnitude of the input excitation, allowing for stable gamma oscillations as observed in the hippocampus.
Journal ArticleDOI
In vitro characterization of gamma oscillations in the hippocampal formation of the domestic chick.
Pradeep Dheerendra,Nicholas M. Lynch,Nicholas M. Lynch,Joseph Crutwell,Mark O. Cunningham,Tom V. Smulders +5 more
TL;DR: It is concluded that similar micro‐circuitry may exist in the avian and mammalian hippocampal formation, and this is likely to relate to the shared function of the two structures.
Dissertation
Developmental changes in kainate receptors in cortical network function and oscillogenesis
TL;DR: This document breaches copyright law and should be removed from the public portal immediately.
DissertationDOI
Biophysical and network mechanisms of high frequency extracellular potentials in the rat hippocampus
TL;DR: This work finds that the synchronization of pyramidal cell spikes substantially shapes, or even dominates, the electrical signature of SWRs in area CA1 of the hippocampus, and demonstrates how local networks interact with upstream inputs to generate a coordinated hippocampal output during behavior and sleep, in the form of theta-gamma coupling and SWRs.
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