Angularly Nonspecific Response Suppression in Rat Barrel Cortex

doi:10.1093/cercor/bhk006

Cerebral Cortex Advance Access published online on April 21, 2006
Cerebral Cortex, doi:10.1093/cercor/bhk006

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© The Author 2006. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oxfordjournals.org

Article

Angularly Nonspecific Response Suppression in Rat Barrel Cortex

Vivek Khatri ¹ and Daniel J. Simons ¹ ^*

¹ Department of Neurobiology, University of Pittsburgh, Pittsburgh, PA 15261, USA

^* To whom correspondence should be addressed.
Daniel J. Simons, E-mail: cortex{at}pitt.edu

Abstract

Response modulation by prior sensory stimulation is a commonproperty of cortical neurons. The degree to which effects arespecific to the adapting stimulus provides insights into propertiesof the underlying circuitry. Here, we examined the effects ofan adapting whisker deflection's angle on the angular tuningof layer IV barrel neurons and their major input source, thalamicbarreloid neurons. In both barrel regular-spike units (RSUs)and fast-spike units (FSUs), presumed excitatory and inhibitoryneurons, prior whisker deflections suppressed subsequent testdeflections in a largely angularly nonspecific manner, thatis, adaptation in one direction reduced responses for test deflectionsof all angles. FSUs were poorly tuned for deflection angle andremained so after adaptation. In adapted RSUs, responses tosuboptimal directions were suppressed most and angular preferencesremained constant; tuning therefore became sharper. Adaptationeffects in RSUs and FSUs do not appear to reflect correspondingchanges in thalamic neurons. The angularly nonspecific suppressionof barrel neurons is likely mediated by local intrabarrel suppressiveinteractions, such as broadly tuned inhibition and/or short-termsynaptic depression of excitatory connections. The dominanceof angularly nonspecific suppression suggests that barrel neuronsinteract largely in an angularly nonspecific manner to reinforcestimulus preferences encoded by their synchronously firing thalamicinputs.

Keywords: adaptation; barrel cortex; inhibitory neuron; rat; thalamocortical; whisker.

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