We are upgrading the repository! A content freeze is in effect until December 11, 2024. New submissions or changes to existing items will not be allowed during this period. All content already published will remain publicly available for searching and downloading. Updates will be posted in the Website Upgrade 2024 FAQ in the sidebar Help menu. Reach out to escholarship@umassmed.edu with any questions.
Dopamine transporter trafficking and Rit2 GTPase: Mechanism of action and in vivo impact
Authors
Fagan, Rita R.Kearney, Patrick
Sweeney, Carolyn G.
Luethi, Dino
Schoot Uiterkamp, Florianne E.
Schicker, Klaus
Alejandro, Brian S.
O'Connor, Lauren C
Sitte, Harald H.
Melikian, Haley E
Student Authors
Lauren O'ConnorCarolyn Sweeney
Rita Fagan
Patrick Kearney
Academic Program
NeuroscienceUMass Chan Affiliations
Morningside Graduate School of Biomedical SciencesMelikian Lab
Neurobiology
Brudnick Neuropsychiatric Research Institute
Document Type
Journal ArticlePublication Date
2020-03-04Keywords
GTPasedopamine transporter
endocytosis
membrane trafficking
protein kinase C (PKC)
ras-like without CAAX 2
short hairpin RNA (shRNA)
striatum
Amino Acids, Peptides, and Proteins
Biochemistry
Enzymes and Coenzymes
Neuroscience and Neurobiology
Nucleic Acids, Nucleotides, and Nucleosides
Metadata
Show full item recordAbstract
Following its evoked release, DA signaling is rapidly terminated by presynaptic reuptake, mediated by the cocaine-sensitive DAT. DAT surface availability is dynamically regulated by endocytic trafficking, and direct PKC activation acutely diminishes DAT surface expression by accelerating DAT internalization. Previous cell line studies demonstrated that PKC-stimulated DAT endocytosis requires both Ack1 inactivation, which releases a DAT-specific endocytic brake, and the neuronal GTPase, Rit2, which binds DAT. However, it is unknown whether Rit2 is required for PKC-stimulated DAT endocytosis in DAergic terminals, or whether there are region- and/or sex-dependent differences in PKC-stimulated DAT trafficking. Moreover, the mechanisms by which Rit2 controls PKC-stimulated DAT endocytosis are unknown. Here, we directly examined these important questions. Ex vivo studies revealed that PKC activation acutely decreased DAT surface expression selectively in ventral, but not dorsal, striatum. AAV-mediated, conditional Rit2 knockdown in DAergic neurons impacted baseline DAT surface:intracellular distribution in DAergic terminals from female ventral, but not dorsal, striatum. Further, Rit2 was required for PKC-stimulated DAT internalization in both male and female ventral striatum. FRET and surface pulldown studies in cell lines revealed that PKC activation drives DAT-Rit2 surface dissociation, and that the DAT N-terminus is required for both PKC-mediated DAT-Rit2 dissociation and DAT internalization. Finally, we found that Rit2 and Ack1 independently converge on DAT to facilitate PKC-stimulated DAT endocytosis. Together, our data provide greater insight into mechanisms that mediate PKC-regulated DAT internalization, and reveal unexpected region-specific differences in PKC-stimulated DAT trafficking in bona fide DAergic terminals.Source
This research was originally published in: Fagan RR, Kearney PJ, Sweeney CG, Luethi D, Schoot Uiterkamp FE, Schicker K, Alejandro BS, O'Connor LC, Sitte HH, Melikian HE. Dopamine transporter trafficking and Rit2 GTPase: Mechanism of action and in vivo impact. J Biol Chem. 2020 Mar 4:jbc.RA120.012628. doi: 10.1074/jbc.RA120.012628. Epub ahead of print. PMID: 32132171. Link to article on publisher's site
DOI
10.1074/jbc.RA120.012628Permanent Link to this Item
http://hdl.handle.net/20.500.14038/41407PubMed ID
32132171Related Resources
Rights
© 2020 The Author(s). Publisher's paper in press version posted as allowed by publisher's author rights policy at https://www.asbmb.org/journals-news/editorial-policies.ae974a485f413a2113503eed53cd6c53
10.1074/jbc.RA120.012628