Facial expressions in mice reveal latent cognitive variables and their neural correlates

Cazettes, Fanny; Reato, Davide; Augusto, Elisabete; Renart, Alfonso; Mainen, Zachary

doi:10.1101/2024.06.02.597005

2024

DOI: 10.1101/2024.06.02.597005

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Facial expressions in mice reveal latent cognitive variables and their neural correlates

Fanny Cazettes,

Davide Reato,

Elisabete Augusto

et al.

Abstract: Brain activity controls adaptive behavior but also drives unintentional incidental movements. Such movements could thus potentially be used to read out internal cognitive variables also neurally computed. Establishing this, however, would require ruling out that incidental movements reflect cognition only because they are coupled with task-related responses through the biomechanics of the body. We addressed this issue in a foraging task for mice where multiple decision variables are simultaneously encoded even… Show more

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Cited by 2 publications

References 42 publications

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Opposing effects of rewarding and aversive stimuli on D1 and D2 types of dopamine-sensitive neurons in the central amygdala

Bijoch,

Szczypkowski,

Wiśniewska

et al. 2024

Preprint

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Dopamine-sensitive neurons are organized in two classes of cells, expressing D1- or D2- types of dopamine receptors, and are often mediating opposing aspects of reward-oriented behaviors. Here, we focused on dopamine-sensitive neurons in the central amygdala - a brain structure critically involved in processing emotion-related stimuli. We discovered that both dopamine receptor types are present in the central medial nucleus, while the lateral part is populated predominantly with DRD2 cells. Exposing mice to rewarding and aversive stimuli we studied DRD1 and DRD2 cells activity using in vivo two-photon calcium imaging in the CeM. We showed that cocaine and sugar predominantly increase the activity of DRD1(+) neurons and decrease DRD2(+) cells. Repeated exposure to cocaine, however, had the opposite effect on spontaneous excitatory synaptic transmission in the CeM than exposure to sugar. Quinine, an aversive stimulus, primarily engaged DRD2(+) neurons, activating predominantly those cells that were previously inhibited by sugar exposure. Our results show that though DRD1 and DRD2 populations are differentially engaged and regulated by appetitive/aversive stimuli, both participate in sugar, cocaine, and quinine processing.

show abstract

Opposing effects of rewarding and aversive stimuli on D1 and D2 types of dopamine-sensitive neurons in the central amygdala

Bijoch,

Szczypkowski,

Wiśniewska

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

Opposing effects of rewarding and aversive stimuli on D1 and D2 types of dopamine-sensitive neurons in the central amygdala

Beroun,

Bijoch,

Szczypkowski

et al. 2024

Preprint

View full text Add to dashboard Cite

Dopamine-sensitive neurons are organized in two classes of cells, expressing D1- or D2- types of dopamine receptors, and are often mediating opposing aspects of reward-oriented behaviors. Here, we focused on dopamine-sensitive neurons in the central amygdala – a brain structure critically involved in processing emotion-related stimuli. Exposing mice to rewarding and aversive stimuli we studied DRD1 and DRD2 cells activity using in vivo two-photon calcium imaging in the CeM. We showed that cocaine and sugar predominantly increase the activity of DRD1(+) neurons and decrease DRD2(+) cells. Repeated exposure to cocaine, however, had the opposite effect on spontaneous excitatory synaptic transmission in the CeM than exposure to sugar. Quinine, an aversive stimulus, primarily engaged DRD2(+) neurons, activating predominantly those cells that were previously inhibited by sugar exposure. Our results show that though DRD1 and DRD2 populations are differentially engaged and regulated by appetitive/aversive stimuli, both participate in sugar, cocaine, and quinine processing.

show abstract

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Facial expressions in mice reveal latent cognitive variables and their neural correlates

Cited by 2 publications

References 42 publications

Opposing effects of rewarding and aversive stimuli on D1 and D2 types of dopamine-sensitive neurons in the central amygdala

Opposing effects of rewarding and aversive stimuli on D1 and D2 types of dopamine-sensitive neurons in the central amygdala

Opposing effects of rewarding and aversive stimuli on D1 and D2 types of dopamine-sensitive neurons in the central amygdala

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