The long-term goal of this project is to elucidate the signaling mechanisms underlying new synapse formation in the fruit fly Drosophila. We have recently discovered that the secreted glycoprotein Wingless (Wg), best known for its crucial role in early morphogenesis and pattern formation, is also a fundamental organizer of glutamatergic synapses in the fruit fly. In this project we will use genetic, molecular, and electrophysiological strategies to investigate the ways in which the Wg pathway promotes synapse formation.
In Aim 1 we will focus on the Wg receptor - Dfrizzled2 - to discern how Wg transduction affects maturing terminals, and if the structural disruptions found on both sides of the synapse in mutants are independent or require antero/retrograde signaling.
In Aim 2, Electrophysiological recordings and dye uptake experiments will probe fundamental questions in synaptic transmission such as the role of the active zone in exocytosis, the relationship between endo/exocytosis, and mechanisms for compensation of synaptic strength. Finally, in Aim 3 we will use genetic and yeast two-hybrid approaches to determine the specific signal transduction pathway activated by Wg during synapse development. In particular, we will test the hypothesis that at synapses Wg activated a non-canonical pathway. We will also uncover new proteins that bind directly to Dfrizzled2 and that may function to target and cluster it to synaptic sites. The proposed experiments will fundamentally advance the field of synapse development by characterizing a secreted protein, which is essential for setting up active zones and postsynaptic specializations. Our findings may also bring insights into mammalian synapse development, as these fly synapses show a tantalizing degree of molecular conservation with mammalian central synapses. Therefore our results with manipulating components of the Wg pathway could be important for deciphering the mechanisms underlying a number of neuropathologies, as well as to design strategies to repair nervous system damage after stroke, trauma, or disease. A notable example is the case of bipolar disorder, which has long been treated with lithium. Recent studies show that one of the targets for lithium is GSK3-8, a crucial enzyme in the Wg pathway. Our finding that the Wg pathway is essential for synapse development might provide new insights into this disease. ? ?

Agency
National Institute of Health (NIH)
Institute
National Institute of Mental Health (NIMH)
Type
Research Project (R01)
Project #
5R01MH070000-05
Application #
7325783
Study Section
Special Emphasis Panel (ZRG1-MDCN-2 (02))
Program Officer
Panchision, David M
Project Start
2003-12-01
Project End
2009-01-20
Budget Start
2007-12-01
Budget End
2009-01-20
Support Year
5
Fiscal Year
2008
Total Cost
$305,291
Indirect Cost
Name
University of Massachusetts Medical School Worcester
Department
Biology
Type
Schools of Medicine
DUNS #
603847393
City
Worcester
State
MA
Country
United States
Zip Code
01655
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Packard, Mary; Jokhi, Vahbiz; Ding, Baojin et al. (2015) Nucleus to Synapse Nesprin1 Railroad Tracks Direct Synapse Maturation through RNA Localization. Neuron 86:1015-1028
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Koles, Kate; Nunnari, John; Korkut, Ceren et al. (2012) Mechanism of evenness interrupted (Evi)-exosome release at synaptic boutons. J Biol Chem 287:16820-34
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Koles, Kate; Budnik, Vivian (2012) Wnt signaling in neuromuscular junction development. Cold Spring Harb Perspect Biol 4:
Fuentes-Medel, Yuly; Ashley, James; Barria, Romina et al. (2012) Integration of a retrograde signal during synapse formation by glia-secreted TGF-? ligand. Curr Biol 22:1831-8
Koon, Alex C; Ashley, James; Barria, Romina et al. (2011) Autoregulatory and paracrine control of synaptic and behavioral plasticity by octopaminergic signaling. Nat Neurosci 14:190-9
Budnik, Vivian; Salinas, Patricia C (2011) Wnt signaling during synaptic development and plasticity. Curr Opin Neurobiol 21:151-9

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