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Recurrent network dynamics shape direction selectivity in primary auditory cortex

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Detecting the direction of frequency modulation (FM) is essential for vocal communication in both animals and humans. Direction-selective firing of neurons in the primary auditory cortex (A1) has been classically… Click to show full abstract

Detecting the direction of frequency modulation (FM) is essential for vocal communication in both animals and humans. Direction-selective firing of neurons in the primary auditory cortex (A1) has been classically attributed to temporal offsets between feedforward excitatory and inhibitory inputs. However, it remains unclear how cortical recurrent circuitry contributes to this computation. Here, we used two-photon calcium imaging and whole-cell recordings in awake mice to demonstrate that direction selectivity is not caused by temporal offsets between synaptic currents, but by an asymmetry in total synaptic charge between preferred and non-preferred directions. Inactivation of cortical somatostatin-expressing interneurons (SOM cells) reduced direction selectivity, revealing its cortical contribution. Our theoretical models showed that charge asymmetry arises due to broad spatial topography of SOM cell-mediated inhibition which regulates signal amplification in strongly recurrent circuitry. Together, our findings reveal a major contribution of recurrent network dynamics in shaping cortical tuning to behaviorally relevant complex sounds. Aponte et al. show that cortical direction selectivity to frequency modulated sounds is shaped by asymmetric signal amplification within recurrent circuits. Optogenetics and network modelling demonstrate that this asymmetry arises due to broad spatial topography of SOM cell mediated inhibition.

Keywords: topography; direction; network; recurrent; direction selectivity

Journal Title: Nature Communications
Year Published: 2021

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