The dopamine transporter (DAT) is the primary mechanism by which extracellular dopamine (DA) is cleared from the synaptic space. As such it performs a key role in terminating dopaminergic neurotransmission and in regulating the concentration of DA available for binding to pre- and post-synaptic receptors. DATs are targets for numerous psychoactive drugs including abused compounds such as cocaine, and amphetamine (AMPH), and therapeutic agents such as Ritalin and Wellbutrin. Dysrgulation of DAT, which would lead to abnormal levels of DA, is speculated to occur in dopaminergic diseases such as Parkinson's disease and schizophrenia, although mechanisms are not known. DATs are highly regulated proteins, with current evidence implicating the involvement of numerous protein kinases including Protein Kinase C and Calcium- Calmodulin Dependent Protein Kinase. While we know that DATs are metabolically phosphorylated, we do not know the precise sites on the protein that are modified, the kinases or phosphatases that catalyze phosphate addition or removal, or the molecular basis by which phosphorylation effects functional regulation. There is also only marginal understanding of the relationship of this process to abused or therapeutic drugs. The long term goal of this project is to clarify the precise mechanisms by which DAT is regulated by phosphorylation.
The specific aims are to elucidate the kinases and phosphatases involved, the amino acids modified, and the subcellular regions where these processes occur;determine how phosphorylation at specific sites impacts AMPH-stimulated efflux;and to determine how phosphorylation is impacted by DAT blockers. The completion of these studies will provide a much more precise understanding of DAT phosphorylation and how this process could be related to dysregulation of DAT in dopaminergic diseases and drug abuse. PUBLIC HELATH

Public Health Relevance

The completion of these studies will provide a much more precise understanding of DAT phosphorylation and its role in processes induced by amphetamine and dopamine transport blockers. This information may thus be useful in elucidating novel therapeutic targets for treating drug addiction, and help to clarify potential links to DAT dysregulation in dopaminergic disorders such as Parkinson's disease and depression.

Agency
National Institute of Health (NIH)
Institute
National Institute on Drug Abuse (NIDA)
Type
Research Project (R01)
Project #
5R01DA013147-10
Application #
7894901
Study Section
Special Emphasis Panel (ZRG1-MDCN-C (02))
Program Officer
Pilotte, Nancy S
Project Start
1999-07-01
Project End
2012-07-31
Budget Start
2010-08-01
Budget End
2012-07-31
Support Year
10
Fiscal Year
2010
Total Cost
$343,228
Indirect Cost
Name
University of North Dakota
Department
Biochemistry
Type
Schools of Medicine
DUNS #
102280781
City
Grand Forks
State
ND
Country
United States
Zip Code
58202
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Rastedt, Danielle E; Vaughan, Roxanne A; Foster, James D (2017) Palmitoylation mechanisms in dopamine transporter regulation. J Chem Neuroanat 83-84:3-9
Foster, James D; Vaughan, Roxanne A (2017) Phosphorylation mechanisms in dopamine transporter regulation. J Chem Neuroanat 83-84:10-18
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Gaffaney, Jon D; Shetty, Madhur; Felts, Bruce et al. (2014) Antagonist-induced conformational changes in dopamine transporter extracellular loop two involve residues in a potential salt bridge. Neurochem Int 73:16-26
Moritz, Amy E; Foster, James D; Gorentla, Balachandra K et al. (2013) Phosphorylation of dopamine transporter serine 7 modulates cocaine analog binding. J Biol Chem 288:20-32
Vaughan, Roxanne A; Foster, James D (2013) Mechanisms of dopamine transporter regulation in normal and disease states. Trends Pharmacol Sci 34:489-96
Foster, James D; Yang, Jae-Won; Moritz, Amy E et al. (2012) Dopamine transporter phosphorylation site threonine 53 regulates substrate reuptake and amphetamine-stimulated efflux. J Biol Chem 287:29702-12
Foster, James D; Vaughan, Roxanne A (2011) Palmitoylation controls dopamine transporter kinetics, degradation, and protein kinase C-dependent regulation. J Biol Chem 286:5175-86

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