Sven Berberich scite author profile

NMDA receptor (NMDAR) 2A (NR2A)-and NR2B-type NMDARs coexist in synapses of CA1 pyramidal cells. Recent studies using pharmacological blockade of NMDAR subtypes proposed that the NR2A type is responsible for inducing long-term potentiation (LTP), whereas the NR2B type induces long-term depression (LTD). This contrasts with the finding in genetically modified mice that NR2B-type NMDARs induce LTP when NR2A signaling is absent or impaired, although compensatory mechanisms might have contributed to this result. We therefore assessed the contribution of the two NMDAR subtypes to LTP in mouse hippocampal slices by different induction protocols and in the presence of NMDAR antagonists, including the NR2A-type blocker NVP-AAM077, for which an optimal concentration for subtype selectivity was determined on recombinant and native NMDARs. Partial blockade of NMDA EPSCs by 40%, either by preferentially antagonizing NR2A-or NR2B-type NMDARs or by the nonselective antagonist D-AP-5, did not impair LTP, demonstrating that hippocampal LTP induction can be generated by either NMDAR subtype.

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AMPA Receptor Signaling through BRAG2 and Arf6 Critical for Long-Term Synaptic Depression

Scholz

Berberich

Rathgeber

et al. 2010

Neuron

145

208

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Central nervous system synapses undergo activity-dependent alterations to support learning and memory. Long-term depression (LTD) reflects a sustained reduction of the synaptic AMPA receptor content based on targeted clathrin-mediated endocytosis. Here we report a current-independent form of AMPA receptor signaling, fundamental for LTD. We found that AMPA receptors directly interact via the GluA2 subunit with the synaptic protein BRAG2, which functions as a guanine-nucleotide exchange factor (GEF) for the coat-recruitment GTPase Arf6. BRAG2-mediated catalysis, controlled by ligand-binding and tyrosine phosphorylation of GluA2, activates Arf6 to internalize synaptic AMPA receptors upon LTD induction. Furthermore, acute blockade of the GluA2-BRAG2 interaction and targeted deletion of BRAG2 in mature hippocampal CA1 pyramidal neurons prevents LTD in CA3-to-CA1 cell synapses, irrespective of the induction pathway. We conclude that BRAG2-mediated Arf6 activation triggered by AMPA receptors is the convergent step of different forms of LTD, thus providing an essential mechanism for the control of vesicle formation by endocytic cargo.

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Spontaneous persistent activity in entorhinal cortex modulates cortico-hippocampal interaction in vivo

et al. 2012

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Persistent activity is thought to mediate working memory during behavior. Can it also occur during sleep? We show that the membrane potential of medial entorhinal cortex layer III (MECIII) neurons, a gateway between neocortex and hippocampus, showed spontaneous, stochastic persistent activity in vivo in mice during Up-Down state oscillations (UDS). This persistent activity was locked to the neocortical Up states with a short delay, but persisted over several cortical UDS cycles. Lateral entorhinal (LECIII) neurons did not show significant persistence, and current injections similar to those used in vitro failed to elicit persistence in vivo, thus implicating network mechanisms. Hippocampal CA1 neurons’ activity was reduced during neocortical Up states, but was increased during MECIII persistent states. These results provide the first direct evidence for persistent activity in MECIII neurons in vivo, and reveal its contribution to cortico-hippocampal interaction, which could be involved in working memory and learning of long behavioral sequences during behavior, and memory consolidation during sleep.

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Sven Berberich

Lack of NMDA Receptor Subtype Selectivity for Hippocampal Long-Term Potentiation

AMPA Receptor Signaling through BRAG2 and Arf6 Critical for Long-Term Synaptic Depression

Spontaneous persistent activity in entorhinal cortex modulates cortico-hippocampal interaction in vivo

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