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Adenosine inhibits excitatory neurons widely in the brain through adenosine A1 receptor, but activation of adenosine A2A receptor (A2A R) has an opposite effect promoting discharge in neuronal networks. In the hippocampus A2A R expression level is low, and the receptor's effect on identified neuronal circuits is unknown. Using optogenetic afferent stimulation and whole-cell recording from identified postsynaptic neurons we show that A2A R facilitates excitatory glutamatergic Schaffer collateral synapses to CA1 pyramidal cells, but not to GABAergic inhibitory interneurons. In addition, A2A R enhances GABAergic inhibitory transmission between CA1 area interneurons leading to disinhibition of pyramidal cells. Adenosine A2A R has no direct modulatory effect on GABAergic synapses to pyramidal cells. As a result adenosine A2A R activation alters the synaptic excitation - inhibition balance in the CA1 area resulting in increased pyramidal cell discharge to glutamatergic Schaffer collateral stimulation. In line with this, we show that A2A R promotes synchronous pyramidal cell firing in hyperexcitable conditions where extracellular potassium is elevated or following high-frequency electrical stimulation. Our results revealed selective synapse- and cell type specific adenosine A2A R effects in hippocampal CA1 area. The uncovered mechanisms help our understanding of A2A R's facilitatory effect on cortical network activity.

Original publication

DOI

10.1002/hipo.22392

Type

Journal article

Journal

Hippocampus

Publication Date

05/2015

Volume

25

Pages

566 - 580

Keywords

antiepileptic, basket cell, cholecystokinin, disinhibition, parvalbumin, synchrony, Action Potentials, Animals, CA1 Region, Hippocampal, Electric Stimulation, Extracellular Space, Glutamic Acid, Interneurons, Mice, Transgenic, Neural Inhibition, Optogenetics, Patch-Clamp Techniques, Potassium, Pyramidal Cells, Receptor, Adenosine A2A, Synapses, Tissue Culture Techniques, gamma-Aminobutyric Acid