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A latent pool of neurons silenced by sensory-evoked inhibition can be recruited to enhance perception.


ABSTRACT: To investigate which activity patterns in sensory cortex are relevant for perceptual decision-making, we combined two-photon calcium imaging and targeted two-photon optogenetics to interrogate barrel cortex activity during perceptual discrimination. We trained mice to discriminate bilateral whisker deflections and report decisions by licking left or right. Two-photon calcium imaging revealed sparse coding of contralateral and ipsilateral whisker input in layer 2/3, with most neurons remaining silent during the task. Activating pyramidal neurons using two-photon holographic photostimulation evoked a perceptual bias that scaled with the number of neurons photostimulated. This effect was dominated by optogenetic activation of non-coding neurons, which did not show sensory or motor-related activity during task performance. Photostimulation also revealed potent recruitment of cortical inhibition during sensory processing, which strongly and preferentially suppressed non-coding neurons. Our results suggest that a pool of non-coding neurons, selectively suppressed by network inhibition during sensory processing, can be recruited to enhance perception.

SUBMITTER: Gauld OM 

PROVIDER: S-EPMC7616379 | biostudies-literature | 2024 Jul

REPOSITORIES: biostudies-literature

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A latent pool of neurons silenced by sensory-evoked inhibition can be recruited to enhance perception.

Gauld Oliver M OM   Packer Adam M AM   Russell Lloyd E LE   Dalgleish Henry W P HWP   Iuga Maya M   Sacadura Francisco F   Roth Arnd A   Clark Beverley A BA   Häusser Michael M  

Neuron 20240509 14


To investigate which activity patterns in sensory cortex are relevant for perceptual decision-making, we combined two-photon calcium imaging and targeted two-photon optogenetics to interrogate barrel cortex activity during perceptual discrimination. We trained mice to discriminate bilateral whisker deflections and report decisions by licking left or right. Two-photon calcium imaging revealed sparse coding of contralateral and ipsilateral whisker input in layer 2/3, with most neurons remaining si  ...[more]

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