Aims

To support the free and open dissemination of research findings and information on alcoholism and alcohol-related problems. To encourage open access to peer-reviewed articles free for all to view.

For full versions of posted research articles readers are encouraged to email requests for "electronic reprints" (text file, PDF files, FAX copies) to the corresponding or lead author, who is highlighted in the posting.

___________________________________________

Saturday, August 8, 2009

EXAMINATION OF THE ROLE OF DOPAMINE D3 RECEPTORS IN BEHAVIOURAL SENSITIZATION TO ETHANOL
Thesis Title
Examination of the Role of Dopamine D3 Receptors in Behavioural Sensitization to Ethanol.

Dopamine D3 receptors (D3Rs) have been implicated in mediating behavioural sensitization to various drugs of abuse, but their role in ethanol (EtOH) sensitization has not been directly examined. Neil Richtand proposed a role for D3Rs in the modulation of sensitization by acting as an inhibitor of D1/D2 receptor-mediated behaviours, and several reports suggest D3Rs up-regulate in response to chronic drugs of abuse. In separate experiments, we examined EtOH sensitization in D3R knockout (KO) as well as in D1R and D2R KO mice. We also examined amphetamine sensitization in D3R KOs compared to wild type mice. We challenged C57Bl/6 and DBA/2 mice with a D3R agonist (PD128907) and antagonist (U99194A) to examine how acute and chronic D3R activation and inactivation may affect the induction and expression of EtOH sensitization. We investigated D1/D3R interactions in sensitized and control mice and examined whether EtOH sensitization leads to changes in D3R binding using [125I]-7-OH-PIPAT autoradiography.

Results showed that D3R KOs, were resistant to EtOH but not amphetamine sensitization. Chronic but not acute D3R blockade with U99194A inhibited the induction, whereas acute D3R activation with PD128907 attenuated the expression of EtOH sensitization. In our D1/D3R interaction study we observed that although PD128907 attenuated D1 agonist-induced hyperactivity with SKF81297, this effect was the same in sensitized and control animals, even though sensitized mice were more responsive to PD128907 than controls. This enhanced response, which suggests a functional up-regulation of D3Rs, was not accompanied by changes in D3R binding as indicated by autoradiography, and could mean that functional changes in the D3R associated with EtOH sensitization occur elsewhere than at the level of the membrane-bound receptor.

Taken together, these results suggest a modulatory role for the D3R in EtOH but not amphetamine sensitization, where D3R activation attenuates the expression and D3R blockade prevents the induction of EtOH sensitization. These results are important because a better understanding of the role of the D3R in EtOH sensitization may help not only to identify some of the underlying neural mechanisms of sensitization, but also help in the identification of treatment strategies for patients that may be susceptible to alcohol abuse.

Read Full Thesis (PDF)

_______________________________________________________________________