Psychostimulant-induced dendritic spine plasticity in brain reward circuits might be a cellular mechanism of learning and enduring memory associated with addictive behaviors. We hypothesize that two types of dendritic spine formation (silent spines and mature spines) may occur during chronic exposure, withdrawal and re-exposure to psychostimulants. Cell type- and region-specific studies of dendritic spines and of the role of Cdk5 and WAVE1 in the molecular mechanisms underlying the two steps of spine formation are designed with novel and innovative approaches to achieve the following aims.
In Aim I, cell type- and region-specific analysis of 1) dendritic spine morphology of medium-sized spiny neurons (MSNs) and of 2) the levels of glutamate receptor expression in dendritic spines will characterize the structure and function of dendritic spines. We will use Bac-transgenic mice expressing a cell type-specific fluorescent marker protein to identify specific MSNs. We will generate three-dimensional images of dendritic spines from two types of MSNs in subregions of striatum (core and shell of nucleus accumbens and dorsal striatum) during chronic exposure, withdrawal and re-exposure to cocaine. Various morphological parameters of dendritic spines will be analyzed with automatic software.
In Aim II and III, we will use D1- or D2-MSNs-specific Cdk5 or WAVE1 knockout mice. We will also restore the expression of Cdk5 or WAVE1 only in the specific types of MSNs in specific regions of striatum (nucleus accumbens or dorsal striatum) by injection of conditional AAV-floxed-STOP signal-floxed-Cdk5 or WAVE1 (wild-type or phosphorylation site mutants). With these knockout and add-back Cdk5 or WAVE1 mice, we will study the roles of Cdk5, WAVE1 and phosphorylation of WAVE1 in (a) spine morphology, (b) glutamate receptor trafficking, (c) electrophysiology and (d) behavior.
In Aim III. C, we will characterize WAVE1 phosphorylation at tyrosine sites by TrkB, a receptor of mature BDNF, in the actions of psychostimulants. In addition, we will carry out collaborative studies with Project 2 in the analysis of dendritic spines in genetically modified animal models (e.g. CK1 overexpressing mice). We will also collaborate with Project 3 in studies of the role of PP2A in WAVE1 regulation and of the role of Rap1GAP in dendritic spine morphogenesis.

Public Health Relevance

The proposed studies will lead to elucidation of molecular and cellular mechanisms underlying pathological alteration of communication between nerve cells in brain rewarding circuitry and will guide new strategies of drug development for the prevention and treatment of addiction.

Agency
National Institute of Health (NIH)
Institute
National Institute on Drug Abuse (NIDA)
Type
Research Program Projects (P01)
Project #
5P01DA010044-20
Application #
8808739
Study Section
Special Emphasis Panel (ZRG1)
Project Start
Project End
Budget Start
2015-03-01
Budget End
2016-02-29
Support Year
20
Fiscal Year
2015
Total Cost
Indirect Cost
Name
Rockefeller University
Department
Type
DUNS #
071037113
City
New York
State
NY
Country
United States
Zip Code
10065
Li, Daniel; Musante, Veronica; Zhou, Wenliang et al. (2018) Striatin-1 is a B subunit of protein phosphatase PP2A that regulates dendritic arborization and spine development in striatal neurons. J Biol Chem 293:11179-11194
Seo, J-S; Zhong, P; Liu, A et al. (2018) Elevation of p11 in lateral habenula mediates depression-like behavior. Mol Psychiatry 23:1113-1119
Madero-Pérez, Jesús; Fdez, Elena; Fernández, Belén et al. (2018) Parkinson disease-associated mutations in LRRK2 cause centrosomal defects via Rab8a phosphorylation. Mol Neurodegener 13:3
Chang, Audrey N; Gao, Ning; Liu, Zhenan et al. (2018) The dominant protein phosphatase PP1c isoform in smooth muscle cells, PP1c?, is essential for smooth muscle contraction. J Biol Chem 293:16677-16686
Andrade, Erika C; Musante, Veronica; Horiuchi, Atsuko et al. (2017) ARPP-16 Is a Striatal-Enriched Inhibitor of Protein Phosphatase 2A Regulated by Microtubule-Associated Serine/Threonine Kinase 3 (Mast 3 Kinase). J Neurosci 37:2709-2722
Musante, Veronica; Li, Lu; Kanyo, Jean et al. (2017) Reciprocal regulation of ARPP-16 by PKA and MAST3 kinases provides a cAMP-regulated switch in protein phosphatase 2A inhibition. Elife 6:
Milosevic, Ana; Liebmann, Thomas; Knudsen, Margarete et al. (2017) Cell- and region-specific expression of depression-related protein p11 (S100a10) in the brain. J Comp Neurol 525:955-975
Ceglia, Ilaria; Lee, Ko-Woon; Cahill, Michael E et al. (2017) WAVE1 in neurons expressing the D1 dopamine receptor regulates cellular and behavioral actions of cocaine. Proc Natl Acad Sci U S A 114:1395-1400
Seo, J-S; Wei, J; Qin, L et al. (2017) Cellular and molecular basis for stress-induced depression. Mol Psychiatry 22:1440-1447
Nishi, Akinori; Matamales, Miriam; Musante, Veronica et al. (2017) Glutamate Counteracts Dopamine/PKA Signaling via Dephosphorylation of DARPP-32 Ser-97 and Alteration of Its Cytonuclear Distribution. J Biol Chem 292:1462-1476

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