Chronic alcohol exposure disrupts top-down control over basal ganglia action selection to produce habits

Rafael Renteria,Christina M Gremel,Emily T Baltz

doi:10.1038/s41467-017-02615-9

Rafael Renteria, Christina M Gremel + Show 1 more

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https://doi.org/10.1038/s41467-017-02615-9

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Journal: Nature Communications	Publication Date: Jan 15, 2018
Citations: 143	License type: open-access

Affiliation: University of California, San Diego

Abstract

Addiction involves a predominance of habitual control mediated through action selection processes in dorsal striatum. Research has largely focused on neural mechanisms mediating a proposed progression from ventral to dorsal lateral striatal control in addiction. However, over reliance on habit striatal processes may also arise from reduced cortical input to striatum, thereby disrupting executive control over action selection. Here, we identify novel mechanisms through which chronic intermittent ethanol exposure and withdrawal (CIE) disrupts top-down control over goal-directed action selection processes to produce habits. We find CIE results in decreased excitability of orbital frontal cortex (OFC) excitatory circuits supporting goal-directed control, and, strikingly, selectively reduces OFC output to the direct output pathway in dorsal medial striatum. Increasing the activity of OFC circuits restores goal-directed control in CIE-exposed mice. Our findings show habitual control in alcohol dependence can arise through disrupted communication between top-down, goal-directed processes onto basal ganglia pathways controlling action selection.

Highlights

Addiction involves a predominance of habitual control mediated through action selection processes in dorsal striatum
We examined whether chronic intermittent ethanol exposure and withdrawal (CIE) induces long-lasting alterations in the function of one corticostriatal circuit known to control goal-directed actions[19,21,38,39,40,41] namely, the orbital frontal cortex (OFC) and its projections into the medial portion of the dorsal striatum (OFCDMS)
We recently showed that increases in excitatory transmission at OFC terminals in dorsal striatum (OFC-dorsal medial striatum (DMS)) drive goal-directed control, with habitual control emerging from the attenuation of OFC-DMS transmission[21]

Summary

Introduction

Addiction involves a predominance of habitual control mediated through action selection processes in dorsal striatum. Research has largely focused on a shift in the underlying neural circuits controlling long-term drug-seeking and drug-taking behaviors[4,5,6,7,8,9,10] These studies have demonstrated that habitual drug-seeking depends on dorsal lateral striatum (DLS)[6,7,8,10,11,12]. We examined whether CIE induces long-lasting alterations in the function of one corticostriatal circuit known to control goal-directed actions[19,21,38,39,40,41] namely, the orbital frontal cortex (OFC) and its projections into the medial portion of the dorsal striatum (OFCDMS). Our findings suggest that dependence-induced reliance on habitual control arises in part through disruption of goal-directed processes including top-down cortical communication onto a basal ganglia pathway controlling action selection

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