Regulation of branching dynamics by axon-intrinsic asymmetries in Tyrosine Kinase Receptor signaling
Copyright policy )Regulation of branching dynamics by axon-intrinsic asymmetries in Tyrosine Kinase Receptor signaling
Axonal branching allows a neuron to connect to several targets, increasing neuronal circuit complexity. While axonal branching is well described, the mechanisms that control it remain largely unknown. We find that in the Drosophila CNS branches develop through a process of excessive growth followed by pruning. In vivo high-resolution live imaging of developing brains as well as loss and gain of function experiments show that activation of Epidermal Growth Factor Receptor (EGFR) is necessary for branch dynamics and the final branching pattern. Live imaging also reveals that intrinsic asymmetry in EGFR localization regulates the balance between dynamic and static filopodia. Elimination of signaling asymmetry by either loss or gain of EGFR function results in reduced dynamics leading to excessive branch formation. In summary, we propose that the dynamic process of axon branch development is mediated by differential local distribution of signaling receptors.
- University of Liverpool United Kingdom
- International School for Advanced Studies Italy
- Howard Hughes Medical Institute United States
- Janelia Research Campus United States
- Katholieke Universiteit Leuven Belgium
Life Sciences & Biomedicine - Other Topics, 570, QH301-705.5, OCULAR DOMINANCE COLUMNS, Science, EPHRIN-AS, brain development, ACTIN-BINDING DOMAIN, 0601 Biochemistry and Cell Biology, Receptors, Animals, Drosophila Proteins, axonal branching, BRAIN, Biology (General), Receptors, Invertebrate Peptide, Biology, Science & Technology, 42 Health sciences, Neuronal Plasticity, HIPPOCAMPAL-NEURONS, 31 Biological sciences, Q, Optical Imaging, VISUAL-SYSTEM, R, Receptor Protein-Tyrosine Kinases, 32 Biomedical and clinical sciences, Invertebrate Peptide, NERVOUS-SYSTEM, Axons, ErbB Receptors, DROSOPHILA, MAP, Medicine, axonal branching; brain development; signaling; Animals; Axons; Drosophila; Drosophila Proteins; ErbB Receptors; Optical Imaging; Receptor Protein-Tyrosine Kinases; Receptors, Invertebrate Peptide; Neuronal Plasticity; Signal Transduction, Drosophila, EPIDERMAL-GROWTH-FACTOR, signaling, Life Sciences & Biomedicine, Neuroscience, Signal Transduction
Life Sciences & Biomedicine - Other Topics, 570, QH301-705.5, OCULAR DOMINANCE COLUMNS, Science, EPHRIN-AS, brain development, ACTIN-BINDING DOMAIN, 0601 Biochemistry and Cell Biology, Receptors, Animals, Drosophila Proteins, axonal branching, BRAIN, Biology (General), Receptors, Invertebrate Peptide, Biology, Science & Technology, 42 Health sciences, Neuronal Plasticity, HIPPOCAMPAL-NEURONS, 31 Biological sciences, Q, Optical Imaging, VISUAL-SYSTEM, R, Receptor Protein-Tyrosine Kinases, 32 Biomedical and clinical sciences, Invertebrate Peptide, NERVOUS-SYSTEM, Axons, ErbB Receptors, DROSOPHILA, MAP, Medicine, axonal branching; brain development; signaling; Animals; Axons; Drosophila; Drosophila Proteins; ErbB Receptors; Optical Imaging; Receptor Protein-Tyrosine Kinases; Receptors, Invertebrate Peptide; Neuronal Plasticity; Signal Transduction, Drosophila, EPIDERMAL-GROWTH-FACTOR, signaling, Life Sciences & Biomedicine, Neuroscience, Signal Transduction
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