Two Corticotectal Areas Facilitate Multisensory Orientation Behavior

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Two Corticotectal Areas Facilitate Multisensory Orientation Behavior

Wan Jiang, Huai Jiang and Barry E. Stein

Wake Forest University School of Medicine

It had previously been shown that influences from two corticalareas, the anterior ectosylvian sulcus (AES) and the rostrallateral suprasylvian sulcus (rLS), play critical roles in renderingsuperior colliculus (SC) neurons capable of synthesizing theircross-modal inputs. The present studies examined the consequencesof selectively eliminating these cortical influences on SC-mediatedorientation responses to cross-modal stimuli. Cats were trainedto orient to a low-intensity modality-specific cue (visual)in the presence or absence of a neutral cue from another modality(auditory). The visual target could appear at various locationswithin 45° of the midline, and the stimulus effectivenesswas varied to yield an average of correct orientation responsesof approximately 45%. Response enhancement and depression wereobserved when the auditory cue was coupled with the target stimulus:A substantially enhanced probability in correct responses wasevident when the cross-modal stimuli were spatially coincident,and a substantially decreased response probability was obtainedwhen the stimuli were spatially disparate. Cryogenic blockadeof either AES or rLS disrupted these behavioral effects, therebyeliminating the enhanced performance in response to spatiallycoincident cross-modal cues and degrading the depressed performancein response to spatially disparate cross-modal cues. These disruptiveeffects on targets contralateral to the deactivated cortex wererestricted to multisensory interactive processes. Orientationto modality-specific targets was unchanged. Furthermore, thepattern of orientation errors was unaffected by cortical deactivation.These data bear striking similarities to the effects of AESand rLS deactivation on multisensory integration at the levelof individual SC neurons. Presumably, eliminating the criticalinfluences from AES or rLS cortex disrupts SC multisensory synthesisthat, in turn, disables SC-mediated multisensory orientationbehaviors.

Key Words: Cross-modal • Multimodal • Multisensory integration • Anterior ectosylvian sulcus • Lateral suprasylvian • Cortex • Visual • Auditory • Orientation • Behavior

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