Age-dependent emergence of caffeine-assisted voltage oscillations in the endopiriform nucleus of rats
•We investigated neural activities of EPN under caffeine-application.•The EPN has a voltage oscillator that generates 8–10Hz oscillations.•Neural inputs from the IC switched on the EPN oscillator.•NMDA receptor activities were required for generation of oscillatory phases.•Ability to generate the os...
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Veröffentlicht in: | Neuroscience research 2013-05, Vol.76 (1-2), p.16-21 |
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Zusammenfassung: | •We investigated neural activities of EPN under caffeine-application.•The EPN has a voltage oscillator that generates 8–10Hz oscillations.•Neural inputs from the IC switched on the EPN oscillator.•NMDA receptor activities were required for generation of oscillatory phases.•Ability to generate the oscillations is acquired during developmental periods.
The gustatory insular cortex (IC) is connected with not only the somatosensory cortex, but also the endopiriform nucleus (EPN). We have previously revealed that low-frequency electrical stimulation to the IC can elicit membrane potential oscillations at a frequency of 8–10Hz in the somatosensory cortex of rat brain slices under bath-application of caffeine. Using the same procedure, we investigated whether the EPN has the ability to generate oscillations, and whether such oscillations emerge age-dependently. Electrical stimulations were delivered to the IC, and field potentials were recorded from the EPN. In the case of slices made from mature rats, stable field potential oscillations at 8–10Hz were induced in the EPN after repetitive stimulations. Optical recordings revealed that signals traveled from the IC to the EPN by way of the claustrum. Generation of oscillations was N-methyl-d-aspartate (NMDA) receptor activity-dependent, since oscillatory phases disappeared following application of NMDA receptor antagonist. In slices from immature rats, however, oscillations were not induced. IC stimulation can thus age-dependently elicit membrane potential oscillations in the EPN, and the EPN oscillations were NMDA receptor activity-dependent. These findings suggest that developmental changes in properties of the EPN might contribute to development of information integration, including gustatory information. |
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ISSN: | 0168-0102 1872-8111 |
DOI: | 10.1016/j.neures.2013.02.010 |