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PP2A phosphatase is required for dendrite pruning via actin regulation in Drosophila

Neele Wolterhoff, Ulrike Gigengack, Sebastian Rumpf

2020EMBO Reports28 citationsDOIOpen Access PDF

Abstract

Large-scale pruning, the developmentally regulated degeneration of axons or dendrites, is an important specificity mechanism during neuronal circuit formation. The peripheral sensory class IV dendritic arborization (c4da) neurons of Drosophila larvae specifically prune their dendrites at the onset of metamorphosis in an ecdysone-dependent manner. Dendrite pruning requires local cytoskeleton remodeling, and the actin-severing enzyme Mical is an important ecdysone target. In a screen for pruning factors, we identified the protein phosphatase 2 A (PP2A). PP2A interacts genetically with the actin-severing enzymes Mical and cofilin as well as other actin regulators during pruning. Moreover, Drosophila cofilin undergoes a change in localization at the onset of metamorphosis indicative of a change in actin dynamics. This change is abolished both upon loss of Mical and PP2A. We conclude that PP2A regulates actin dynamics during dendrite pruning.

Topics & Concepts

CofilinBiologyCell biologyDendrite (mathematics)EcdysoneProtein phosphatase 2ActinMetamorphosisActin cytoskeletonDendritic spinePruningPhosphataseDrosophila (subgenus)CytoskeletonNeuroscienceBiochemistryBotanyPhosphorylationGeneLarvaHippocampal formationCellGeometryMathematicsNeurobiology and Insect Physiology ResearchAnimal Behavior and ReproductionSilk-based biomaterials and applications
PP2A phosphatase is required for dendrite pruning via actin regulation in Drosophila | Litcius