AUTHOR=DePoy Lauren M. , Perszyk Riley E. , Zimmermann Kelsey S. , Koleske Anthony J. , Gourley Shannon L. 

TITLE=Adolescent cocaine exposure simplifies orbitofrontal cortical dendritic arbors

JOURNAL=Frontiers in Pharmacology

VOLUME=5

YEAR=2014

URL=https://www.frontiersin.org/journals/pharmacology/articles/10.3389/fphar.2014.00228

DOI=10.3389/fphar.2014.00228

ISSN=1663-9812

ABSTRACT=<p>Cocaine and amphetamine remodel dendritic spines within discrete cortico-limbic brain structures including the orbitofrontal cortex (oPFC). Whether dendrite structure is similarly affected, and whether pre-existing cellular characteristics influence behavioral vulnerabilities to drugs of abuse, remain unclear. Animal models provide an ideal venue to address these issues because neurobehavioral phenotypes can be defined both before, and following, drug exposure. We exposed mice to cocaine from postnatal days 31–35, corresponding to early adolescence, using a dosing protocol that causes impairments in an instrumental reversal task in adulthood. We then imaged and reconstructed excitatory neurons in deep-layer oPFC. Prior cocaine exposure shortened and simplified arbors, particularly in the basal region. Next, we imaged and reconstructed orbital neurons in a developmental-genetic model of cocaine vulnerability—the <italic>p190rhogap</italic>+/– mouse. p190RhoGAP is an actin cytoskeleton regulatory protein that stabilizes dendrites and dendritic spines, and <italic>p190rhogap</italic>+/– mice develop rapid and robust locomotor activation in response to cocaine. Despite this, oPFC dendritic arbors were intact in drug-naïve <italic>p190rhogap</italic>+/– mice. Together, these findings provide evidence that adolescent cocaine exposure has long-term effects on dendrite structure in the oPFC, and they suggest that cocaine-induced modifications in dendrite structure may contribute to the behavioral effects of cocaine more so than pre-existing structural abnormalities in this cell population.</p>