Literature DB >> 25583486

Central role for the insular cortex in mediating conditioned responses to anticipatory cues.

Ikue Kusumoto-Yoshida1, Haixin Liu2, Billy T Chen1, Alfredo Fontanini3, Antonello Bonci4.   

Abstract

Reward-related circuits are fundamental for initiating feeding on the basis of food-predicting cues, whereas gustatory circuits are believed to be involved in the evaluation of food during consumption. However, accumulating evidence challenges such a rigid separation. The insular cortex (IC), an area largely studied in rodents for its role in taste processing, is involved in representing anticipatory cues. Although IC responses to anticipatory cues are well established, the role of IC cue-related activity in mediating feeding behaviors is poorly understood. Here, we examined the involvement of the IC in the expression of cue-triggered food approach in mice trained with a Pavlovian conditioning paradigm. We observed a significant change in neuronal firing during presentation of the cue. Pharmacological silencing of the IC inhibited food port approach. Such a behavior could be recapitulated by temporally selective inactivation during the cue. These findings represent the first evidence, to our knowledge, that cue-evoked neuronal activity in the mouse IC modulates behavioral output, and demonstrate a causal link between cue responses and feeding behaviors.

Entities:  

Keywords:  anticipation; cue; insular cortex; learning; reward

Mesh:

Year:  2015        PMID: 25583486      PMCID: PMC4313852          DOI: 10.1073/pnas.1416573112

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  46 in total

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  39 in total

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4.  Functional role for cortical-striatal circuitry in modulating alcohol self-administration.

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5.  Ventrolateral Striatal Medium Spiny Neurons Positively Regulate Food-Incentive, Goal-Directed Behavior Independently of D1 and D2 Selectivity.

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7.  Processing of Intraoral Olfactory and Gustatory Signals in the Gustatory Cortex of Awake Rats.

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