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Emergent Selectivity for Task-Relevant Stimuli in Higher-Order Auditory Cortex

Neuron 82: 486-99. doi: 10.1016/j.neuron.2014.02.029.

Authors/Editors: Atiani S
David SV
Elgueda D
Locastro M
Radtke-Schuller S
Shamma SA
Fritz JB
Publication Date: 2014
Type of Publication: Journal Articles 2010 - 2019


A variety of attention-related effects have been demonstrated in primary auditory cortex (A1). However, an understanding of the functional role of higher auditory cortical areas in guiding attention to acoustic stimuli has been elusive. We recorded from neurons in two tonotopic cortical belt areas in the dorsal posterior ectosylvian gyrus (dPEG) of ferrets trained on a simple auditory discrimination task. Neurons in dPEG showed similar basic auditory tuning properties to A1, but during behavior we observed marked differences between these areas. In the belt areas, changes in neuronal firing rate and response dynamics greatly enhanced responses to target stimuli relative to distractors, allowing for greater attentional selection during active listening. Consistent with existing anatomical evidence, the pattern of sensory tuning and behavioral modulation in auditory belt cortex links the spectrotemporal representation of the whole acoustic scene in A1 to a more abstracted representation of task-relevant stimuli observed in frontal cortex.