Interactions between the basal ganglia and the cerebral cortex are critical for the organization of motivated behavior and are implicated in psychostimulant addiction. Dopamine in the striatum regulates these interactions. Exposure to psychostimulants such as cocaine produces changes in gene expression in striatal neurons that are part of the anatomical circuits that interconnect the basal ganglia and the cortex. Such molecular changes likely alter activity in these circuits and seem to play a role in drug-induced behavioral changes such as addiction and dependence. The long-term objective of this research project is to determine functional consequences of psychostimulant-induced molecular changes in striatal output neurons, with focus on their effects on cortical function. The proposed research will investigate how changes in striatal output produced by cocaine affect cortical function, by using immediate-early genes (lEGs) as functional markers. For one, """"""""basal"""""""" expression of lEGs in defined cortical regions will be assessed. In addition, sensory-evoked responses in the sensorimotor cortex (i.e., lEG expression evoked by whisker stimulation) will be examined as a model of cortical function. The proposed studies will (1) determine and compare the effects of acute and repeated cocaine treatment on """"""""basal"""""""" and sensory-evoked cortical lEG expression. (2) The relative contributions of D1- and D2 dopamine receptor-regulated striatal outputs to these cortical effects will be assessed by intrastriatal administration of selective dopamine receptor antagonists. (3) Other studies will investigate the anatomical pathways that mediate this basal ganglia-cortical regulation. These studies will further our understanding of the mechanisms that govern basal ganglia-cortical interactions and will show how these interactions are changed by the psychostimulant cocaine. This work will help establish an improved cellular framework necessary to understand and successfully treat cocaine addiction.

Agency
National Institute of Health (NIH)
Institute
National Institute on Drug Abuse (NIDA)
Type
Research Project (R01)
Project #
2R01DA011261-06A2
Application #
6871490
Study Section
Neurobiology of Motivated Behavior Study Section (NMB)
Program Officer
Pilotte, Nancy S
Project Start
1998-09-30
Project End
2010-02-28
Budget Start
2005-02-05
Budget End
2006-02-28
Support Year
6
Fiscal Year
2005
Total Cost
$266,000
Indirect Cost
Name
Rosalind Franklin University
Department
Pharmacology
Type
Schools of Medicine
DUNS #
069501252
City
North Chicago
State
IL
Country
United States
Zip Code
60064
Alter, David; Beverley, Joel A; Patel, Ronak et al. (2017) The 5-HT1B serotonin receptor regulates methylphenidate-induced gene expression in the striatum: Differential effects on immediate-early genes. J Psychopharmacol 31:1078-1087
Pedron, Solène; Beverley, Joel; Haffen, Emmanuel et al. (2017) Transcranial direct current stimulation produces long-lasting attenuation of cocaine-induced behavioral responses and gene regulation in corticostriatal circuits. Addict Biol 22:1267-1278
Van Waes, Vincent; Ehrlich, Sarah; Beverley, Joel A et al. (2015) Fluoxetine potentiation of methylphenidate-induced gene regulation in striatal output pathways: potential role for 5-HT1B receptor. Neuropharmacology 89:77-86
Van Waes, Vincent; Vandrevala, Malcolm; Beverley, Joel et al. (2014) Selective serotonin re-uptake inhibitors potentiate gene blunting induced by repeated methylphenidate treatment: Zif268 versus Homer1a. Addict Biol 19:986-95
Beverley, Joel A; Piekarski, Cassandra; Van Waes, Vincent et al. (2014) Potentiated gene regulation by methylphenidate plus fluoxetine treatment: Long-term gene blunting (Zif268, Homer1a) and behavioral correlates. Basal Ganglia 4:109-116
Steiner, Heinz; Warren, Brandon L; Van Waes, Vincent et al. (2014) Life-long consequences of juvenile exposure to psychotropic drugs on brain and behavior. Prog Brain Res 211:13-30
Unterwald, Ellen M; Page, Michelle E; Brown, Timothy B et al. (2013) Behavioral and transcriptome alterations in male and female mice with postnatal deletion of TrkB in dorsal striatal medium spiny neurons. Mol Neurodegener 8:47
Steiner, Heinz; Van Waes, Vincent (2013) Addiction-related gene regulation: risks of exposure to cognitive enhancers vs. other psychostimulants. Prog Neurobiol 100:60-80
Steiner, Heinz (2013) LRRKing up the right trees? On figuring out the effects of mutant LRRK2 and other Parkinson's disease-related genes. Basal Ganglia 3:73-76
Van Waes, Vincent; Carr, Betsy; Beverley, Joel A et al. (2012) Fluoxetine potentiation of methylphenidate-induced neuropeptide expression in the striatum occurs selectively in direct pathway (striatonigral) neurons. J Neurochem 122:1054-64

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