Phosphatidylinositol (4, 5)‐bisphosphate coordinates functional interactions in the dopamine transporter to promote amphetamine behaviors

Abstract

The psychostimulant amphetamine (AMPH) mainly mediates its pharmacological and behavioral effects by increasing extracellular dopamine (DA) availability. DA homeostasis is maintained by the dopamine transporter (DAT), a presynaptic membrane protein that mediates the high‐affinity reuptake of released DA from the synaptic cleft. We have previously demonstrated that AMPH induces N‐term phosphorylation of the DAT, which leads to transport‐mediated efflux of DA. Furthermore, we have shown that phosphatidylinositol (4, 5)‐bisphosphate (PIP2) directly interacts with the DAT and facilitates AMPH‐induced DA efflux, but is not required for DA uptake. Specially, PIP2 binds DAT through electrostatic interactions with positively charged DAT N‐terminal residues. Disrupting the interactions between DAT and PIP2 or depleting PIP2 diminishes reverse transport (efflux) of DA. Previous studies on the human serotonin transporter show that non‐N‐terminal PIP2 binding sites (within the fourth intracellular loop) are essential for AMPH‐induced reverse transport of serotonin, but not substrate uptake. Together, these data led us to hypothesize that PIP2 coordinates functional interactions between the N‐terminus and the fourth intracellular loop to promote reverse transport of DA. Here, we demonstrate that depletion of PIP2 after DAT N‐terminus phosphorylation does not affect AMPH‐induced DA efflux, suggesting that N‐terminus phosphorylation is the limiting step of reverse transport of DA. Notably, we show that residue R443, which resides in the fourth intracellular loop, also modulates AMPH‐induced DA efflux. Thus, we focus on the role of the interaction between the DAT N‐terminus and R443 in mediating the reverse transport of DA. Furthermore, we translate our molecular discoveries in vivo by using a coordinated genetic and pharmacological approach to study AMPH‐induced behaviors in Drosophila melanogasterSupport or Funding Information1F31MH114316 (JIA), AHA Predoctoral Award (AS), DA035263(AG)This abstract is from the Experimental Biology 2018 Meeting. There is no full text article associated with this abstract published in The FASEB Journal.