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Research Papers
D2 dopamine receptors interact directly with N-type calcium channels and regulate channel surface expression levels
Alexandra E. Kisilevsky and Gerald W. Zamponi
volume 2 | issue 4
July/August 2008Pages: 269 - 277
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N-type channels are located on dendrites and at pre-synaptic nerve terminals where they play a fundamental role in neurotransmitter release. They are potently regulated by the activation of a number of different types of pertussis toxin (PTX)-sensitive Gαi/o coupled receptors, which results in voltage-dependent inhibition of channel activity via Gβγ subunits. Using heterologous expression in HEK 293T cells, we show via whole cell patch clamp recordings that D2 receptors mediate both Gβγ (i.e. voltage-dependent) and voltage-independent inhibition of channel activity. Furthermore, using co-immunoprecipitation and pull down assays involving the intracellular regions of each protein, we show that D2 receptors and N-type channels form physical signaling complexes. Finally, we use confocal microscopy to demonstrate that D2 receptors regulate N-type channel trafficking to affect the number of calcium channels available at the plasma membrane. Taken together, these data provide evidence for multiple voltage-dependent and voltage-independent mechanisms by which D2 receptor subtypes influence N-type channel activity.
Authors
Alexandra E. Kisilevsky
University of Calgary
Gerald W. Zamponi
University of Calgary