Reference Report

Reference
Citation	Bogdanik, L., Framery, B., Frölich, A., Franco, B., Mornet, D., Bockaert, J., Sigrist, S.J., Grau, Y., Parmentier, M.L. (2008). Muscle dystroglycan organizes the postsynapse and regulates presynaptic neurotransmitter release at the Drosophila neuromuscular junction. PLoS ONE 3(4): e2084. (Export to RIS)
FlyBase ID	FBrf0210237
Publication Type	Research paper
PubMed ID	18446215
PubMed Abstract	The Dystrophin-glycoprotein complex (DGC) comprises dystrophin, dystroglycan, sarcoglycan, dystrobrevin and syntrophin subunits. In muscle fibers, it is thought to provide an essential mechanical link between the intracellular cytoskeleton and the extracellular matrix and to protect the sarcolemma during muscle contraction. Mutations affecting the DGC cause muscular dystrophies. Most members of the DGC are also concentrated at the neuromuscular junction (NMJ), where their deficiency is often associated with NMJ structural defects. Hence, synaptic dysfunction may also intervene in the pathology of dystrophic muscles. Dystroglycan is a central component of the DGC because it establishes a link between the extracellular matrix and Dystrophin. In this study, we focused on the synaptic role of Dystroglycan (Dg) in Drosophila.We show that Dg was concentrated postsynaptically at the glutamatergic NMJ, where, like in vertebrates, it controls the concentration of synaptic Laminin and Dystrophin homologues. We also found that synaptic Dg controlled the amount of postsynaptic 4.1 protein Coracle and alpha-Spectrin, as well as the relative subunit composition of glutamate receptors. In addition, both Dystrophin and Coracle were required for normal Dg concentration at the synapse. In electrophysiological recordings, loss of postsynaptic Dg did not affect postsynaptic response, but, surprisingly, led to a decrease in glutamate release from the presynaptic site.Altogether, our study illustrates a conservation of DGC composition and interactions between Drosophila and vertebrates at the synapse, highlights new proteins associated with this complex and suggests an unsuspected trans-synaptic function of Dg.
DOI	10.1371/journal.pone.0002084
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Language of Publication	English
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Publication Type	Journal
Abbreviation	PLoS ONE
Title	PLoS ONE
Publication Year	2006-
ISBN/ISSN	1932-6203
Data from Reference
Alleles (14)
	cora¹⁴ cora^EY07598 cora^k08713 Dg⁶² Dg³²³ Dg^{C.Scer\UAS.T:Avic\GFP-EGFP} Dg^C.Scer\UAS Dg^{dsRNA.Scer\UAS} Dg^e01554 Dys^{dsRNA.Scer\UAS} Scer\GAL4^elav.PU Scer\GAL4^how-24B T:Avic\GFP^EGFP w^+mC
Constructs (5)
	P{elav-GAL4.U} P{UAS-Dg.dsRNA} P{UAS-Dg-C.GFP} P{UAS-Dg-C} P{UAS-Dys.dsRNA}
Genes (14)
	brp cora Dg dlg1 Dys Fas2 GluRIIA GluRIIC LanA LanB1 LanB2 Scer\GAL4 w α-Spec
Insertions (2)
	P{EPgy2}cora^EY07598 P{GawB}how^24B
Natural transposons (1)
	P-element