The p150Glued CAP-Gly Domain Regulates Initiation of Retrograde Transport at Synaptic Termini
Copyright policy )The p150Glued CAP-Gly Domain Regulates Initiation of Retrograde Transport at Synaptic Termini
p150(Glued) is the major subunit of dynactin, a complex that functions with dynein in minus-end-directed microtubule transport. Mutations within the p150(Glued) CAP-Gly microtubule-binding domain cause neurodegenerative diseases through an unclear mechanism. A p150(Glued) motor neuron degenerative disease-associated mutation introduced into the Drosophila Glued locus generates a partial loss-of-function allele (Gl(G38S)) with impaired neurotransmitter release and adult-onset locomotor dysfunction. Disruption of the p150(Glued) CAP-Gly domain in neurons causes a specific disruption of vesicle trafficking at terminal boutons (TBs), the distal-most ends of synapses. Gl(G38S) larvae accumulate endosomes along with dynein and kinesin motor proteins within swollen TBs, and genetic analyses show that kinesin and p150(Glued) function cooperatively at TBs to coordinate transport. Therefore, the p150(Glued) CAP-Gly domain regulates dynein-mediated retrograde transport at synaptic termini, and this function of dynactin is disrupted by a mutation that causes motor neuron disease.
- University of Pittsburgh United States
- University of Queensland Australia
- Department of Pharmacology and Chemical Biology . University of Pittsburgh United States
- JOHNS HOPKINS UNIVERSITY
- Columbia University Medical Center United States
Microtubule plus ends, Neuroscience(all), Green Fluorescent Proteins, Neuromuscular Junction, Presynaptic Terminals, Kinesins, Models, Biological, Cytoplasmic dynein, Membrane Potentials, Animals, Genetically Modified, Animals, Drosophila Proteins, Protein Interaction Domains and Motifs, Motor Neuron Disease, Motor Neurons, Photobleaching, Drosophila neuromuscular-junction, Dynactin Complex, Motor-neuron disease, Electrophysiology, Larva, Mutation, Drosophila, Microtubule-Associated Proteins, Protein Binding
Microtubule plus ends, Neuroscience(all), Green Fluorescent Proteins, Neuromuscular Junction, Presynaptic Terminals, Kinesins, Models, Biological, Cytoplasmic dynein, Membrane Potentials, Animals, Genetically Modified, Animals, Drosophila Proteins, Protein Interaction Domains and Motifs, Motor Neuron Disease, Motor Neurons, Photobleaching, Drosophila neuromuscular-junction, Dynactin Complex, Motor-neuron disease, Electrophysiology, Larva, Mutation, Drosophila, Microtubule-Associated Proteins, Protein Binding
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