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Cocaine-induced locomotor sensitization in rats correlates with nucleus accumbens activity on manganese-enhanced MRI

Authors :
Bruce A. Berkowitz
Alana C. Conti
Kirtan Desai
Farhad Ghoddoussi
Kelly E. Bosse
Michael J. Lisieski
David Bissig
Mariana Angoa-Pérez
Donald M. Kuhn
Ajay T. Eapen
Robert J. Kohler
Shane A. Perrine
Source :
NMR in Biomedicine. 28:1480-1488
Publication Year :
2015
Publisher :
Wiley, 2015.

Abstract

A long-standing goal of substance abuse research has been to link drug-induced behavioral outcomes with the activity of specific brain regions to understand the neurobiology of addiction behaviors and to search for drug-able targets. Here, we tested the hypothesis that cocaine produces locomotor (behavioral) sensitization that correlates with increased calcium channel-mediated neuroactivity in brain regions linked with drug addiction, such as the nucleus accumbens (NAC), anterior striatum (AST) and hippocampus, as measured using manganese-enhanced MRI (MEMRI). Rats were treated with cocaine for 5 days, followed by a 2-day drug-free period. The following day, locomotor sensitization was quantified as a metric of cocaine-induced neuroplasticity in the presence of manganese. Immediately following behavioral testing, rats were examined for changes in calcium channel-mediated neuronal activity in the NAC, AST, hippocampus and temporalis muscle, which was associated with behavioral sensitization using MEMRI. Cocaine significantly increased locomotor activity and produced behavioral sensitization compared with saline treatment of control rats. A significant increase in MEMRI signal intensity was determined in the NAC, but not AST or hippocampus, of cocaine-treated rats compared with saline-treated control rats. Cocaine did not increase signal intensity in the temporalis muscle. Notably, in support of our hypothesis, behavior was significantly and positively correlated with MEMRI signal intensity in the NAC. As neuronal uptake of manganese is regulated by calcium channels, these results indicate that MEMRI is a powerful research tool to study neuronal activity in freely behaving animals and to guide new calcium channel-based therapies for the treatment of cocaine abuse and dependence.

Details

ISSN :
09523480
Volume :
28
Database :
OpenAIRE
Journal :
NMR in Biomedicine
Accession number :
edsair.doi...........7315ff2b49cdd62f3229dbe76720fa18
Full Text :
https://doi.org/10.1002/nbm.3409