EXCEED THE SPACE PROVIDED. Despite a good deal of speculation about the organization and maturationof the neural substrate underlying cross-modal (multisensory) processes, there has been little empirical evidence to support or contradict speculations derived from behavior and introspection. However, using the superior colliculus (SC)neuron, a robust neural model has been developed. In the last funding period we found that the remarkable ability of SC neurons to integrate their cross-modal inputs is not an inborn characteristic, but develops only gradually, and depends on a series of interrelated events. One of the most important of these is the maturation of influences from extraprimary sensory cortex; primarily the anterior ectosylvian sulcus (AES), and less so from the neighboring rostral lateral suprasylvian sulcus (rLS). When these corticotectal influences become functional, SC neuronsare rendered capable of integrating cross-modal information, and of mediating multisensory orientation behaviors. Yet, little is known about their development. The present proposal is an attempt to examine this issue. Of specific interest is understanding the normal maturation of synergies among the modality-specific influences from these cortices that make SC multisensory integration possible, and the likely compensatory changes initiated by early damage to AES. But, preliminary observations also provide strong indications that early experience is essential for SC neurons to developthe ability to synthesize their inputs, and it seems likelythat these experiences arerelayed to it from AES and rLS.Understanding the normal maturation of the neural processes underlying this capacity, whether these processes can be crafted by the external conditions in which they must function, and brain's ability to compensate for damage to critical parts of the circuit, are essential steps in elaborating strategies to deal with developmental anomalies and early traumas that can compromise the normal integrative capabilities of the brain and the perceptions and behaviors that depend on them. PERFORMANCE SITE ========================================Section End===========================================

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
3R01NS036916-18S1
Application #
6995151
Study Section
Integrative, Functional and Cognitive Neuroscience 8 (IFCN)
Program Officer
Babcock, Debra J
Project Start
1986-08-01
Project End
2007-12-31
Budget Start
2004-01-01
Budget End
2004-12-31
Support Year
18
Fiscal Year
2005
Total Cost
$20,523
Indirect Cost
Name
Wake Forest University Health Sciences
Department
Anatomy/Cell Biology
Type
Schools of Medicine
DUNS #
937727907
City
Winston-Salem
State
NC
Country
United States
Zip Code
27157
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Xu, Jinghong; Yu, Liping; Stanford, Terrence R et al. (2015) What does a neuron learn from multisensory experience? J Neurophysiol 113:883-9
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Xu, Jinghong; Yu, Liping; Rowland, Benjamin A et al. (2014) Noise-rearing disrupts the maturation of multisensory integration. Eur J Neurosci 39:602-13
Stein, Barry E; Stanford, Terrence R; Rowland, Benjamin A (2014) Development of multisensory integration from the perspective of the individual neuron. Nat Rev Neurosci 15:520-35
Rowland, Benjamin A; Jiang, Wan; Stein, Barry E (2014) Brief cortical deactivation early in life has long-lasting effects on multisensory behavior. J Neurosci 34:7198-202
Yu, Liping; Xu, Jinghong; Rowland, Benjamin A et al. (2013) Development of cortical influences on superior colliculus multisensory neurons: effects of dark-rearing. Eur J Neurosci 37:1594-601
Yu, Liping; Rowland, Benjamin A; Xu, Jinghong et al. (2013) Multisensory plasticity in adulthood: cross-modal experience enhances neuronal excitability and exposes silent inputs. J Neurophysiol 109:464-74
Xu, Jinghong; Yu, Liping; Rowland, Benjamin A et al. (2012) Incorporating cross-modal statistics in the development and maintenance of multisensory integration. J Neurosci 32:2287-98

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