Cell Reports
Volume 16, Issue 6, 9 August 2016, Pages 1518-1526
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β-Arrestin-Dependent Dopaminergic Regulation of Calcium Channel Activity in the Axon Initial Segment

https://doi.org/10.1016/j.celrep.2016.06.098Get rights and content
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Highlights

  • D3 dopamine receptors utilize non-canonical signaling pathways to regulate AIS CaV3

  • D3Rs signal via β-arrestin, ryanodine-dependent calcium stores, and ERK

  • Arrestin-dependent signaling hyperpolarizes voltage-dependent inactivation of CaV3

  • D3R signaling results in a loss of AIS CaV3 channels available for spike initiation

Summary

G-protein-coupled receptors (GPCRs) initiate a variety of signaling cascades, depending on effector coupling. β-arrestins, which were initially characterized by their ability to “arrest” GPCR signaling by uncoupling receptor and G protein, have recently emerged as important signaling effectors for GPCRs. β-arrestins engage signaling pathways that are distinct from those mediated by G protein. As such, arrestin-dependent signaling can play a unique role in regulating cell function, but whether neuromodulatory GPCRs utilize β-arrestin-dependent signaling to regulate neuronal excitability remains unclear. Here, we find that D3 dopamine receptors (D3R) regulate axon initial segment (AIS) excitability through β-arrestin-dependent signaling, modifying CaV3 voltage dependence to suppress high-frequency action potential generation. This non-canonical D3R signaling thereby gates AIS excitability via pathways distinct from classical GPCR signaling pathways.

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Present address: Department of Biological Sciences, City University of Hong Kong, Kowloon Tong, Hong Kong