2016
DOI: 10.1002/cne.24030
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Astrocytic glutamate transport regulates a Drosophila CNS synapse that lacks astrocyte ensheathment

Abstract: Anatomical, molecular, and physiological interactions between astrocytes and neuronal synapses regulate information processing in the brain. The fruit fly Drosophila melanogaster has become a valuable experimental system for genetic manipulation of the nervous system and has enormous potential for elucidating mechanisms that mediate neuron glia interactions. Here, we show the first electrophysiological recordings from Drosophila astrocytes and characterize their spatial and physiological relationship with part… Show more

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Cited by 12 publications
(26 citation statements)
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“…This web of contacts may simply provide physical cohesion for the anatomical structure, but it is interesting to speculate that they might also be used to communicate cellular signals between neighbors as well as more distant regions. Coupling of glia by gap junctions is suspected for several glial subtypes but has been demonstrated for SPG, where they are required to translate metabolic signals into synchronized calcium pulses and insulin secretion (Speder and Brand, ), for CG in the lamina (Chaturvedi et al, ) and most recently in ALG in the larva (MacNamee et al, ), where they are required for neurotransmitter recycling.…”
Section: Discussionmentioning
confidence: 99%
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“…This web of contacts may simply provide physical cohesion for the anatomical structure, but it is interesting to speculate that they might also be used to communicate cellular signals between neighbors as well as more distant regions. Coupling of glia by gap junctions is suspected for several glial subtypes but has been demonstrated for SPG, where they are required to translate metabolic signals into synchronized calcium pulses and insulin secretion (Speder and Brand, ), for CG in the lamina (Chaturvedi et al, ) and most recently in ALG in the larva (MacNamee et al, ), where they are required for neurotransmitter recycling.…”
Section: Discussionmentioning
confidence: 99%
“…The strict negative correlation of astrocyte and synaptic density we observe in Drosophila is contrasted by a more variable relationship observed in vertebrates (“tripartite synapse”), where some neuropils, such as the cerebellum, show high coverage of synapses by astrocytes while others, such as the hippocampus, show lower coverage (Araque et al, ; Ventura and Harris, ). This suggests that, in lieu of increasing astrocytic structural density, some compensatory mechanisms must exist to deal with high synaptic activity, perhaps by changing their morphology in response to neuronal activity (MacNamee et al, ).…”
Section: Discussionmentioning
confidence: 99%
“…Thus, subperineurial glial cells, presumably together with cortex glial cells, provide a niche regulating neuroblast proliferation (Spéder & Brand, ). Gap junctional coupling has been also shown for astrocyte‐like glial cells, but no functional gap junctional coupling has been demonstrated between different glial cell types (MacNamee et al, ). The latter is also supported by the fact that gap junctional coupling is only marginally required for glucose distribution in the brain (Volkenhoff, Hirrlinger, Kappel, Klämbt, & Schirmeier, ).…”
Section: Surface Gliamentioning
confidence: 99%
“…Drosophila astrocyte‐like glial cells resemble their vertebrate counterparts in terms of morphological, molecular and functional aspects (Freeman, ; Ma et al, ). These cells are highly polarized and extend a variable number of fine and highly branched processes into the neuropil (MacNamee et al, ; Omoto et al, ; Peco et al, ; Stork, Sheehan, Tasdemir‐Yilmaz, & Freeman, ; Figure ). Their large and rounded cell bodies reside between the ensheathing glial sheaths covering the neuropil (Omoto et al, ; Stork et al, ).…”
Section: Neuropil Associated Glial Cellsmentioning
confidence: 99%
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