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Literature DB >> 16254051

Receptor-mediated glutamate release from volume sensitive channels in astrocytes.

Takahiro Takano¹, Jian Kang, Jyoti K Jaiswal, Sanford M Simon, Jane H-C Lin, Yufei Yu, Yuxing Li, Jay Yang, Gerald Dienel, H Ronald Zielke, Maiken Nedergaard.

Abstract

Several lines of work have shown that astrocytes release glutamate in response to receptor activation, which results in a modulation of local synaptic activity. Astrocytic glutamate release is Ca(2+)-dependent and occurs in conjunction with exocytosis of glutamate containing vesicles. However, astrocytes contain a millimolar concentration of cytosolic glutamate and express channels permeable to small anions, such as glutamate. Here, we tested the idea that astrocytes respond to receptor stimulation by dynamic changes in cell volume, resulting in volume-sensitive channel activation, and efflux of cytosolic glutamate. Confocal imaging and whole-cell recordings demonstrated that astrocytes exhibited a transient Ca(2+)-dependent cell volume increase, which activated glutamate permeable channels. HPLC analysis revealed that glutamate was released in conjunction with other amino acid osmolytes. Our observations indicate that volume-sensitive channel may constitute a previously uncharacterized target for modulation of astrocyte-neuronal interactions.

Entities: Chemical

Mesh：

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Year: 2005 PMID： 16254051 PMCID： PMC1283436 DOI： 10.1073/pnas.0506382102

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

29 in total

Receptor-mediated glutamate release from volume sensitive channels in astrocytes.

1. Fusion-related release of glutamate from astrocytes.

2. Astrocytes contain a vesicular compartment that is competent for regulated exocytosis of glutamate.

3. Vesicular glutamate transporter-dependent glutamate release from astrocytes.

4. An astrocytic basis of epilepsy.

5. Contribution of chloride channels to volume regulation of cortical astrocytes.

6. Functional hemichannels in astrocytes: a novel mechanism of glutamate release.

7. Connexin mediates gap junction-independent resistance to cellular injury.

8. Properties of Ca(2+)-dependent exocytosis in cultured astrocytes.

9. Localization of SNARE proteins and secretory organelle proteins in astrocytes in vitro and in situ.

10. Swelling-induced release of glutamate, aspartate, and taurine from astrocyte cultures.

1. Nonsynaptic communication through ATP release from volume-activated anion channels in axons.

2. Depolarization-induced release of amino acids from the vestibular nuclear complex.

Review 3. Heterogeneity of astrocytic form and function.

4. Optogenetic activation of LiGluR-expressing astrocytes evokes anion channel-mediated glutamate release.

5. Deep brain stimulation results in local glutamate and adenosine release: investigation into the role of astrocytes.

Review 6. Volume-regulated anion channel--a frenemy within the brain.

7. Resolving vesicle fusion from lysis to monitor calcium-triggered lysosomal exocytosis in astrocytes.

Review 8. Turning down the volume: Astrocyte volume change in the generation and termination of epileptic seizures.

Review 9. Connexin channel permeability to cytoplasmic molecules.

10. Extracellular osmolarity modulates G protein-coupled receptor-dependent ATP release from 1321N1 astrocytoma cells.