Time-lapse and cell ablation reveal the role of cell interactions in fly glia migration and proliferation

Migration and proliferation have been mostly explored in culture systems or fixed preparations. We present a simple genetic model, the chains of glia moving along fly wing nerves, to follow such dynamic processes by time-lapse in the whole animal. We show that glia undergo extensive cytoskeleton and...

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Veröffentlicht in:	Development (Cambridge) 2004-10, Vol.131 (20), p.5127-5138
Hauptverfasser:	Aigouy, Benoît, Van de Bor, Véronique, Boeglin, Marcel, Giangrande, Angela
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Cell Communication - physiology Cell Division - physiology Cell Movement - physiology Cytoskeleton - physiology Diptera Drosophila - growth & development Drosophila - physiology Life Sciences Neuroglia - cytology Neuroglia - physiology Pupa - growth & development Pupa - physiology Time Factors Wings, Animal - growth & development Wings, Animal - physiology
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container_end_page	5138
container_issue	20
container_start_page	5127
container_title	Development (Cambridge)
container_volume	131
creator	Aigouy, Benoît Van de Bor, Véronique Boeglin, Marcel Giangrande, Angela
description	Migration and proliferation have been mostly explored in culture systems or fixed preparations. We present a simple genetic model, the chains of glia moving along fly wing nerves, to follow such dynamic processes by time-lapse in the whole animal. We show that glia undergo extensive cytoskeleton and mitotic apparatus rearrangements during division and migration. Single cell labelling identifies different glia: pioneers with high filopodial, exploratory, activity and, less active followers. In combination with time-lapse, altering this cellular environment by genetic means or cell ablation has allowed to us define the role of specific cell-cell interactions. First, neurone-glia interactions are not necessary for glia motility but do affect the direction of migration. Second, repulsive interactions between glia control the extent of movement. Finally, autonomous cues control proliferation.
doi_str_mv	10.1242/dev.01398
format	Article
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source	MEDLINE; EZB-FREE-00999 freely available EZB journals; Alma/SFX Local Collection; Company of Biologists
subjects	Animals Cell Communication - physiology Cell Division - physiology Cell Movement - physiology Cytoskeleton - physiology Diptera Drosophila - growth & development Drosophila - physiology Life Sciences Neuroglia - cytology Neuroglia - physiology Pupa - growth & development Pupa - physiology Time Factors Wings, Animal - growth & development Wings, Animal - physiology
title	Time-lapse and cell ablation reveal the role of cell interactions in fly glia migration and proliferation
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