Neuron secreted chemokine-like Orion is involved in the transformation of glial cells into phagocytes in different neuronal remodeling paradigms

Abstract

SummaryDuring animal development, neurons often form exuberant or incorrect axons and dendrites at early stages, followed by the refinement of neuronal circuits at late stages. Neural circuit refinement leads to the production of large amounts of neuronal debris in the form of neuronal cell corpses, fragmented axons and dendrites, and pruned synapses requiring disposal. In particular, the predominant phagocytes acting during the neuronal remodeling and degeneration are glial cells and critical signaling pathways between neurons and glia leading to phagocytosis are required. Chemokine-like mushroom body neuron secreted Orion ligand was shown to be essential to the astrocyte infiltration into the γ axon bundle leading to γ axon pruning and clearance of debris left from axon fragmentation. Here we show a role oforionalso in debris engulfment and phagocytosis. Interestingly, we show thatorionis also involved in the overall transformation of astrocytes into phagocytes. In addition, analysis of several neuronal paradigms demonstrates the role oforionin the elimination of both peptidergic vCrz+and PDF-Tri neuronsviaadditional phagocytic glial cells as cortex and/or ensheathing glia. Our results suggest that Orion is essential for phagocytic activation of three different types of glial cells: astrocytes, cortex and ensheathing glia and point to Orion as a trigger not only of glial infiltration but also engulfment and phagocytosis.