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Behavioral state dependence of homo- and hetero-synaptic modulation of dentate gyrus excitability (1993)

Green, E. J. ; Barnes, C. A. ; McNaughton, B. L.

Springer

Experimental brain research 93 (1993), S. 55-65

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ISSN: 1432-1106

Keywords: Inhibition ; Dentate gyrus ; Hippocampus ; Behavioral state ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The effects of two different waking behavioral states on the modulation of perforant, path-evoked population spikes were studied following prestimulation of either the perforant path itself, the dentate gyrus commissural/association pathway, or the medial septum. The intermediate-latency, post-inhibitory ‘rebound’ of the population spike, which normally follows short-latency, perforant path or commissure-induced inhibition, was substantially increased during forced locomotion on a treadmill, compared with quiet wakefulness. There was no effect of these behavioral states either on the short-latency inhibitory phase itself or on the average magnitude of the unconditioned population spike. The short-latency, GABA-mediated disinhibitory effect of medial septal prestimulation was slightly reduced by walking, as might be expected from the increased feedforward excitatory drive on hippocampal interneurons that occurs during walking. Septal prestimulation during walking also led to a large, intermediate-latency spike facilitation that was completely absent during the quiet, awake state. Lesions of the medial septum attenuated the effects of behavioral state on the post-inhibitory facilitation from both perforant path and commissural stimulation. Atropine reduced the walking-induced increase in intermediate-latency facilitation, but had no effect in the still condition. We conclude that, during walking, electrical stimulation within the hippocampal formation or septum leads to a delayed increase in dentate gyrus excitability that is probably mediated polysynaptically through the medial septum or fibers passing through it. This state dependency is not due to tonic suppression of the inhibitory systems within the dentate gyrus itself.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00227780

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Contribution of single-unit spike waveform changes to temperature-induced alterations in hippocampal population spikes (1996)

Erickson, C. A. ; Jung, M. W. ; McNaughton, B. L. ; [et al.]

Springer

Experimental brain research 107 (1996), S. 348-360

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ISSN: 1432-1106

Keywords: Hippocampus ; Temperature ; Granule cell ; Exploration ; Fascia dentata ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Brain temperature changes accompany exploratory behavior and profoundly affect field potential amplitudes recorded in hippocampus. The waveform alterations in fascia dentata include a reduction in population spike area, which might be explained by fewer granule cells firing in response to a given stimulus or by an alteration in the size or shape of the individual action potentials. This study was designed to assess these alternate possibilities. In experiment 1, changes in the shape and firing rates of single cells recorded in the fascia dentata of awake rats were compared with changes in the population spike before and after a bout of activity. Single-unit amplitudes were significantly reduced following exploration, and there was a small (〈 3%) change in unit spike-width. These changes, however, were insufficient to account, in a linear fashion, for the entire decline in the population spike. In experiment 2, radiant heat was used to manipulate brain temperature in anesthetized rats. As in the first experiment, the magnitude of change in the extracellular units was much smaller than the change in population spike amplitude. The spontaneous firing rates of the cells were also modified by brain temperature changes. In experiment 3, the polysynaptic, contralateral commissural response (which covaries with changes in the ipsilateral population spike at a fixed temperature) was measured as a function of either exploratory behavior or radiant heat. The relationship between the ipsilateral population spike and corresponding polysynaptic commissural response was altered following exploration and passive warming in a manner consistent with a reduction in net granule cell output, reduced transmission efficacy through the polysynaptic circuit, or a combination of these. Taken together these data suggest that at least two factors contribute to temperature-dependent changes in the perforant path-evoked population spikes recorded in the fascia dentata: changes in the size of individual action potentials and alterations in discharge of action potentials in response to a given stimulus.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00230417

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