Lu-Yang Wang scite author profile

Ligand-gated ion channels gated by glutamate constitute the major excitatory neurotransmitter system in the mammalian brain. The functional modulation of GluR6, a kainate-activated glutamate receptor, by adenosine 3',5'-monophosphate-dependent protein kinase A (PKA) was examined with receptors expressed in human embryonic kidney cells. Kainate-evoked currents underwent a rapid desensitization that was blocked by lectins. Kainate currents were potentiated by intracellular perfusion of PKA, and this potentiation was blocked by co-application of an inhibitory peptide. Site-directed mutagenesis was used to identify the site or sites of phosphorylation on GluR6. Although mutagenesis of two serine residues, Ser684 and Ser666, was required for complete abolition of the PKA-induced potentiation, Ser684 may be the preferred site of phosphorylation in native GluR6 receptor complexes. These results indicate that glutamate receptor function can be directly modulated by protein phosphorylation and suggest that a dynamic regulation of excitatory receptors could be associated with some forms of learning and memory in the mammalian brain.

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The Role of AMPA Receptor Gating in the Development of High-Fidelity Neurotransmission at the Calyx of Held Synapse

Joshi¹,

Shokralla²,

Titis³

et al. 2004

J. Neurosci.

102

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During early postnatal development of auditory synapses, the decay time course of AMPA receptor (AMPAR) EPSCs accelerates markedly, but the mechanisms underlying this process remain uncertain. Using the developing calyx of Held synapse in the mouse auditory brainstem, we have examined presynaptic and postsynaptic elements that may regulate decay kinetics of AMPAR EPSCs. We found that the decay time kinetics was voltage dependent in both immature and mature synapses, being slower at positive potentials than negative potentials. By recording evoked miniature events in extracellular Ca 2ϩ or Sr 2ϩ , we revealed a significant decrease in decay time constants of EPSCs as maturation progresses. On the basis of internal and external polyamine block of AMPAR EPSCs and immunohistochemistry assays with subunit-specific antibodies, we demonstrated that the glutamate receptor (GluR) 2 subunit is virtually absent at all developmental ages. Antibody staining patterns suggest a gradual shift in subunit composition from GluR1-to GluR3/4-dominant phenotypes. Kinetic analyses of deactivation, desensitization, and recovery from desensitization in outside-out patches in response to ultrafast application of glutamate lend supportive evidence that such a shift in the gating phenotype likely accounts for the accelerated time course throughout development. Finally, by pharmacologically manipulating AMPAR gating and using simulated EPSCs to evoke action potentials, we demonstrated that rapid decay kinetics of AMPAR EPSCs is essential for this synapse to accommodate high-frequency firing without compromising spike amplitude. Hence, developmental alterations in the subunit composition likely dictate changes in the time course of AMPAR EPSCs and play an indispensable role in the refinement of high-fidelity neurotransmission at the calyx of Held synapse.

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Septins Regulate Developmental Switching from Microdomain to Nanodomain Coupling of Ca2+ Influx to Neurotransmitter Release at a Central Synapse

Yang

Fedchyshyn

Grande

et al. 2010

Neuron

113

108

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Neurotransmitter release depends critically on close spatial coupling of Ca(2+) entry to synaptic vesicles at the nerve terminal; however, the molecular substrates determining their physical proximity are unknown. Using the calyx of Held synapse, where "microdomain" coupling predominates at immature stages and developmentally switches to "nanodomain" coupling, we demonstrate that deletion of the filamentous protein Septin 5 imparts immature synapses with striking morphological and functional features reminiscent of mature synapses. This includes synaptic vesicles tightly localized to active zones, resistance to the slow Ca(2+) buffer EGTA and a reduced number of Ca(2+) channels required to trigger single fusion events. Disrupting Septin 5 organization acutely transforms microdomain to nanodomain coupling and potentiates quantal output in immature wild-type terminals. These observations suggest that Septin 5 is a core molecular substrate that differentiates distinct release modalities at the central synapse.

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Amplitude and Kinetics of Action Potential-Evoked Ca²⁺Current and Its Efficacy in Triggering Transmitter Release at the Developing Calyx of Held Synapse

2006

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Lu-Yang Wang

Phosphorylation and Modulation of a Kainate Receptor (GluR6) by cAMP-Dependent Protein Kinase

The Role of AMPA Receptor Gating in the Development of High-Fidelity Neurotransmission at the Calyx of Held Synapse

Septins Regulate Developmental Switching from Microdomain to Nanodomain Coupling of Ca2+ Influx to Neurotransmitter Release at a Central Synapse

Amplitude and Kinetics of Action Potential-Evoked Ca²⁺Current and Its Efficacy in Triggering Transmitter Release at the Developing Calyx of Held Synapse

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Lu-Yang Wang

Phosphorylation and Modulation of a Kainate Receptor (GluR6) by cAMP-Dependent Protein Kinase

The Role of AMPA Receptor Gating in the Development of High-Fidelity Neurotransmission at the Calyx of Held Synapse

Septins Regulate Developmental Switching from Microdomain to Nanodomain Coupling of Ca2+ Influx to Neurotransmitter Release at a Central Synapse

Amplitude and Kinetics of Action Potential-Evoked Ca2+Current and Its Efficacy in Triggering Transmitter Release at the Developing Calyx of Held Synapse

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Resources

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Amplitude and Kinetics of Action Potential-Evoked Ca²⁺Current and Its Efficacy in Triggering Transmitter Release at the Developing Calyx of Held Synapse