Cross-modal Circuitry Between Auditory and Somatosensory Areas of the Cat Anterior Ectosylvian Sulcal Cortex: A 'New' Inhibitory Form of Multisensory Convergence

doi:10.1093/cercor/bhg135

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Cerebral Cortex April 2004; 14:387-403
© Oxford University Press 2004

Article

Cross-modal Circuitry Between Auditory and Somatosensory Areas of the Cat Anterior Ectosylvian Sulcal Cortex: A ‘New’ Inhibitory Form of Multisensory Convergence

Lisa R. Dehner¹, Leslie P. Keniston², H. Ruth Clemo² and M. Alex Meredith²

¹ Department of Health Sciences, Physical Therapy Program, College of Mount St Joseph, Cincinnati, OH 45233, USA, ² Department of Anatomy and Neurobiology, Virginia Commonwealth University School of Medicine, Richmond, VA 23298, USA

Examples of convergence of visual and auditory, or visual andsomatosensory, inputs onto individual neurons abound throughoutthe brain, but substantially fewer incidences of auditory–somatosensoryneurons have been reported. The present experiments sought toexamine auditory–somatosensory convergence to assess whetherthere is a feature of this type of convergence that might obscureit from conventional methods of multisensory detection. Auditory–somatosensoryconvergence was explored in cat anterior ectosylvian sulcus(AES) cortex, where higher-order somatosensory area IV (SIV)and auditory field of the anterior ectosylvian sulcus (FAES)share a common border. While neuroanatomical tracers documenteda projection from FAES to SIV, physiological studies failedto reveal the bimodal neurons expected from such cross-modalconnectivity. Stimulation of FAES through indwelling electrodesalso failed to excite any of the SIV neurons examined. However,when stimulation of auditory FAES was combined with somatosensorystimulation, a large majority (66%) of SIV neurons showed asignificant response attenuation. FAES-induced response suppressionwas specific to SIV, could not be elicited by activating otherauditory regions and was blocked by the microiontophoretic applicationof the GABAergic antagonist bicuculline methiodide. Based onthese data, a novel, cross-modal circuit is proposed involvingprojections from auditory FAES to somatosensory SIV, where localinhibitory interneurons ‘reverse the sign’ of thecross-modal signals to produce auditory–somatosensorysuppression. This form of excitatory–inhibitory multisensoryconvergence has not been reported before and suggests that thelevel of interaction between auditory and somatosensory modalitieshas been substantially underestimated.

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