Functional properties of fast spiking interneurons and their synaptic connections with pyramidal cells in primate dorsolateral prefrontal cortex

doi:10.1152/jn.00787.2004

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Functional properties of fast spiking interneurons and their synaptic connections with pyramidal cells in primate dorsolateral prefrontal cortex

Guillermo Gonzalez-Burgos¹^*, Leonid S. Krimer¹, Nadya V. Povysheva¹, German Barrionuevo², and David A. Lewis³

¹ Neuroscience, University of Pittsburgh, Pittsburgh, PA, USA
² Psychiatry, University of Pittsburgh, Pittsburgh, PA, USA
³ Neuroscience, University of Pittsburgh, Pittsburgh, PA, USA; Psychiatry, University of Pittsburgh, Pittsburgh, PA, USA

^* To whom correspondence should be addressed. E-mail: gburgos{at}pitt.edu.

Recent studies suggest that fast-spiking (FS) interneurons ofthe monkey dorsolateral prefrontal cortex (DLPFC) exhibit task-relatedfiring during working memory tasks. To gain further understandingof the functional role of FS neurons in monkey DLPFC, we describedthe in vitro electrophysiological properties of FS interneuronsand their synaptic connections with pyramidal cells in layers2/3 of areas 9 and 46. Extracellular spike duration was foundto distinguish FS cells from non-FS interneuron subtypes. However,a substantial overlap in extracellular spike duration betweenthese populations would make classification of individual interneuronsdifficult. FS neurons could be divided into two main morphologicalgroups, chandelier and basket neurons, with very similar electrophysiologicalproperties but significantly different horizontal spread ofthe axonal arborization. In paired cell recordings, unitaryIPSPs elicited by FS neurons in pyramidal cells had rapid timecourse, small amplitude at resting membrane potential and weremediated by GABA_A receptors. Repetitive FS neuron stimulation,partially mimicking the sustained firing of interneurons invivo, produced short-term depression of the unitary IPSPs, presentat connections made by both basket and chandelier neurons anddue at least in part to presynaptic mechanisms. These resultssuggest that FS neurons and their synaptic connections withpyramidal cells have homogeneous physiological properties. Thus,different functional roles of basket and chandelier neuronsin the DLPFC in vivo must arise from the distinct propertiesof the interneuronal axonal arborization or from a differentfunctional pattern of excitatory and inhibitory connectionswith other components of the DLPFC neuronal network.

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