Spontaneous astrocytic Ca2+ oscillations in situ drive NMDAR-mediated neuronal excitation

Parri, H. Rheinallt; Gould, Timothy M.; Crunelli, Vincenzo

doi:10.1038/90507

Cited by 573 publications

(542 citation statements)

References 48 publications

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“…The gene expression of ionotropic glutamate receptors was decreased by 4-HR application (data not shown). Glutamate receptor is related to calcium oscillation (27,28) and OSCC highly expresses glutamate receptor (29). However, the glutamate receptor-related hypothesis remains to be confirmed in further experimental studies.…”

Section: Discussionmentioning

confidence: 96%

4-hexylresorcinol exerts antitumor effects via suppression of calcium oscillation and its antitumor effects are inhibited by calcium channel blockers

Kim

Choi

2013

Oncology Reports

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Abstract. The bacterial dormancy-inducing factor 4-hexylresorcinol (4-HR) has been shown to have synergistic antitumor effects when used in combination with cisplatin. In the present study, 4-HR was used as a single agent in the squamous carcinoma cell line SCC-9. The results demonstrated that 4-HR suppressed SCC-9 cell proliferation compared to primary cultured gingival fibroblasts. 4-HR dose-dependently induced SCC-9 cell apoptosis as determined by caspase-3 activity, Annexin V expression, as well as by scanning and transmission electron microscopy. 4-HR inhibited intracellular calcium oscillation in both SCC-9 cells and normal human dermal fibroblasts. 4-HR-induced apoptosis was partly reversed by calcium channel blockers. Of note, 4-HR reduced the tumor mass formed by SSC-9 cell implantation in BALB/ cAnNCrj-nu/nu mice and mass size reduction was also partly reversed by the concomitant application of calcium channel blockers. Collectively, our results suggest that 4-HR has strong antitumor effects by inhibiting calcium channel oscillation and inducing apoptosis.

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Section: Discussionmentioning

confidence: 96%

4-hexylresorcinol exerts antitumor effects via suppression of calcium oscillation and its antitumor effects are inhibited by calcium channel blockers

Kim

Choi

2013

Oncology Reports

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“…A growing body of experimental evidence suggests that astrocyte signaling can, at least in certain conditions, influence excitatory synaptic transmission and its use‐dependent plasticity in a Ca 2+ ‐dependent manner (Henneberger et al, 2010; Jourdain et al, 2007; Min and Nevian, 2012; Navarrete et al, 2012; Parri et al, 2001; Perea and Araque, 2007). This does not necessarily imply that elegant experimental manipulations with astroglial Ca 2+ within a certain dynamic range by triggering certain cellular cascades should reproduce such effects (Agulhon et al, 2010; Fiacco et al, 2007; Petravicz et al, 2008) (see (Rusakov et al, 2014; Volterra et al, 2014) for discussion).…”

Section: Discussionmentioning

confidence: 99%

Morphological plasticity of astroglia: Understanding synaptic microenvironment

Heller

Rusakov

2015

Glia

134

137

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Memory formation in the brain is thought to rely on the remodeling of synaptic connections which eventually results in neural network rewiring. This remodeling is likely to involve ultrathin astroglial protrusions which often occur in the immediate vicinity of excitatory synapses. The phenomenology, cellular mechanisms, and causal relationships of such astroglial restructuring remain, however, poorly understood. This is in large part because monitoring and probing of the underpinning molecular machinery on the scale of nanoscopic astroglial compartments remains a challenge. Here we briefly summarize the current knowledge regarding the cellular organisation of astroglia in the synaptic microenvironment and discuss molecular mechanisms potentially involved in use‐dependent astroglial morphogenesis. We also discuss recent observations concerning morphological astroglial plasticity, the respective monitoring methods, and some of the newly emerging techniques that might help with conceptual advances in the area. GLIA 2015;63:2133–2151

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“…Mechanisms proposed for these physiological and pathological effects have primarily focused on the modulation of neuronal ion channels and receptors. However, there is growing evidence that astrocytes play an active role in neuronal excitability and synaptic function Araque et al, 1999;Parri et al, 2001). Given that the spatial and temporal characteristics of intercellular Ca 2ϩ waves in astrocytes are very similar to those of spreading depression, the spreading oligemia of migraine, and the spread of some types of seizures (Charles, 1998), it is appealing to speculate that extracellular Ca 2ϩ and Mg 2ϩ may be involved in these phenomena via their effects on astrocyte Ca 2ϩ signaling and ATP release.…”

Section: Discussionmentioning

confidence: 99%

“…Astrocyte Ca 2ϩ waves may occur spontaneously or may be evoked by a variety of stimuli including mechanical stimulation, electrical stimulation, or neurotransmitters (Charles, 1998). In addition to being a pathway for communication among astrocytes, Ca 2ϩ waves have been shown to be a pathway for bidirectional signaling between astrocytes and multiple other cell types, including neurons (Araque et al, 1998;Kang et al, 1998;Parri et al, 2001), microglia (Schipke et al, 2002), and vascular endothelial cells (Leybaert et al, 1998;Paemeleire and Leybaert, 2000).…”

Section: Introductionmentioning

confidence: 99%

Modulation of intercellular calcium signaling in astrocytes by extracellular calcium and magnesium

Stout

Charles

2003

Glia

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The extracellular concentrations of Ca 2ϩ and Mg 2ϩ are well known to play important roles in the function of the central nervous system. We examined the effects of extracellular Ca 2ϩ and Mg 2ϩ on ATP release and intercellular signaling in astrocytes. [Ca 2ϩ ] o -activated whole cell currents consistent with currents through connexin hemichannels. These currents were inhibited by extracellular Mg 2ϩ . We conclude that extracellular divalent cations modulate intercellular Ca 2ϩ signaling in astrocytes by modulating the release of ATP, possibly via connexin hemichannels.

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Spontaneous astrocytic Ca2+ oscillations in situ drive NMDAR-mediated neuronal excitation

Cited by 573 publications

References 48 publications

4-hexylresorcinol exerts antitumor effects via suppression of calcium oscillation and its antitumor effects are inhibited by calcium channel blockers

4-hexylresorcinol exerts antitumor effects via suppression of calcium oscillation and its antitumor effects are inhibited by calcium channel blockers

Morphological plasticity of astroglia: Understanding synaptic microenvironment

Modulation of intercellular calcium signaling in astrocytes by extracellular calcium and magnesium

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