Synaptic Efficacy during Repetitive Activation of Excitatory Inputs in Primate Dorsolateral Prefrontal Cortex

doi:10.1093/cercor/bhh015

Cerebral Cortex Advance Access originally published online on March 28, 2004

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Cerebral Cortex May 2004; 14:530-542
© Oxford University Press 2004

Article

Synaptic Efficacy during Repetitive Activation of Excitatory Inputs in Primate Dorsolateral Prefrontal Cortex

Guillermo González-Burgos¹^,2, Leonid S. Krimer³, Nathaniel N. Urban¹^,4, Germán Barrionuevo¹ and David A. Lewis¹^,3

¹ Department of Neuroscience, University of Pittsburgh, Pittsburgh, PA, USA, ³ Department of Psychiatry, University of Pittsburgh, Pittsburgh, PA, USA

² Present address: Department of Psychiatry, University of Pittsburgh, Pittsburgh, PA, USA

⁴ Present address: Department of Biological Sciences, Carnegie Mellon University, Pittsburgh, PA, USA

Neurons in the monkey dorsolateral prefrontal cortex (DLPFC)fire persistently during the delay period of working memorytasks. To determine how repetitive firing affects the efficacyof synaptic inputs to DLPFC layer 3 neurons, we examined theeffects of repetitive presynaptic stimulation on the amplitudeand temporal summation of EPSPs. Recordings were obtained inmonkey DLPFC brain slices from regular spiking (RS) pyramidalcells and two types of interneurons, fast spiking (FS) and adaptingnon-pyramidal (ANP) cells. Repetitive stimulation of presynapticaxons in layer 3 caused EPSP depression in RS and FS neurons,but EPSP facilitation in ANP cells. A shorter EPSP durationproduced weaker temporal summation in FS neurons compared tothe other cell classes. Thus, due to the combined effects ofdynamic changes in EPSP amplitude and differences in temporalsummation, the effect of a presynaptic spike train differedaccording to the postsynaptic cell class. Similar results wereobtained when recording unitary EPSPs evoked in connected pairsof presynaptic RS pyramidal cells and postsynaptic RS, FS orANP neurons. In addition, similar differences in the efficacyof sustained inputs among cell classes were observed when delay-relatedfiring was reproduced in vitro by stimulating inputs with thetiming of spike trains recorded from the DLPFC of monkeys performinga delayed-response task. We suggest that the transition frombaseline firing rates to higher frequency delay-related firingmay lead to the differential activation of distinct cell populations,with corresponding significant effects on the patterns of activityin local prefrontal circuits.

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