Prolonged dopamine D3 receptor stimulation promotes dopamine transporter ubiquitination and degradation through a PKC-dependent mechanism
Date
2021Abstract
The dopamine transporter (DAT) is a membrane glycoprotein in dopaminergic neurons, which modulates
extracellular and intracellular dopamine levels. DAT is regulated by different presynaptic proteins, including
dopamine D2 (D2R) and D3 (D3R) receptors. While D2R signalling enhances DAT activity, some data suggest that
D3R has a biphasic effect. However, despite the extensive therapeutic use of D2R/D3R agonists in neuropsychiatric disorders, this phenomenon has been little studied. In order to shed light on this issue, DAT activity,
expression and posttranslational modifications were studied in mice and DAT-D3R-transfected HEK cells.
Consistent with previous reports, acute treatment with D2R/D3R agonists promoted DAT recruitment to the
plasma membrane and an increase in DA uptake. However, when the treatment was prolonged, DA uptake and
total striatal DAT protein declined below basal levels. These effects were inhibited in mice by genetic and
pharmacological inactivation of D3R, but not D2R, indicating that they are D3R-dependent. No changes were
detected in mesostriatal tyrosine hydroxylase (TH) protein expression and midbrain TH and DAT mRNAs, suggesting that the dopaminergic system is intact and DAT is posttranslationally regulated. The use of immunoprecipitation and cell surface biotinylation revealed that DAT is phosphorylated at serine residues, ubiquitinated
and released into late endosomes through a PKCβ-dependent mechanism. In sum, the results indicate that longterm D3R activation promotes DAT down-regulation, an effect that may underlie neuroprotective and antidepressant actions described for some D2R/D3R agonists