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Dominant negative SNARE peptides stabilize the fusion pore in a narrow, release-unproductive state
Dominant negative SNARE peptides stabilize the fusion pore in a narrow, release-unproductive state
by Zorec, Robert , Guček, Alenka , Lisjak, Marjeta , Vardjan, Nina , Kreft, Marko , Geisler, Claudia , Jorgačevski, Jernej , Egner, Alexander , Singh, Priyanka
in adenosine triphosphate / Adenosine Triphosphate - pharmacology / Amino acids / Animals / Astrocytes / Astrocytes - drug effects / Astrocytes - metabolism / Biochemistry / Biomedical and Life Sciences / Biomedicine / Botulinum toxin / capacitance / Cell Biology / Exocytosis / Exocytosis - drug effects / Extracellular Vesicles - drug effects / Extracellular Vesicles - metabolism / Female / Fusion / Life Sciences / lighting / Membrane capacitance / Membrane fusion / Membrane Fusion - drug effects / mice / Microscopy / Models, Biological / Neurotoxins / Original / Original Article / Peptides / Peptides - metabolism / Pore size / Proteins / Rats, Wistar / SNAP receptors / SNARE proteins / SNARE Proteins - metabolism / Stimulated emission / Synaptobrevin / Time Factors / Toxins / transgenic animals / Transgenic mice / Transmitters / Vesicle fusion / Vesicles
2016
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Dominant negative SNARE peptides stabilize the fusion pore in a narrow, release-unproductive state
by Zorec, Robert , Guček, Alenka , Lisjak, Marjeta , Vardjan, Nina , Kreft, Marko , Geisler, Claudia , Jorgačevski, Jernej , Egner, Alexander , Singh, Priyanka
in adenosine triphosphate / Adenosine Triphosphate - pharmacology / Amino acids / Animals / Astrocytes / Astrocytes - drug effects / Astrocytes - metabolism / Biochemistry / Biomedical and Life Sciences / Biomedicine / Botulinum toxin / capacitance / Cell Biology / Exocytosis / Exocytosis - drug effects / Extracellular Vesicles - drug effects / Extracellular Vesicles - metabolism / Female / Fusion / Life Sciences / lighting / Membrane capacitance / Membrane fusion / Membrane Fusion - drug effects / mice / Microscopy / Models, Biological / Neurotoxins / Original / Original Article / Peptides / Peptides - metabolism / Pore size / Proteins / Rats, Wistar / SNAP receptors / SNARE proteins / SNARE Proteins - metabolism / Stimulated emission / Synaptobrevin / Time Factors / Toxins / transgenic animals / Transgenic mice / Transmitters / Vesicle fusion / Vesicles
2016
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Dominant negative SNARE peptides stabilize the fusion pore in a narrow, release-unproductive state
Dominant negative SNARE peptides stabilize the fusion pore in a narrow, release-unproductive state
by Zorec, Robert , Guček, Alenka , Lisjak, Marjeta , Vardjan, Nina , Kreft, Marko , Geisler, Claudia , Jorgačevski, Jernej , Egner, Alexander , Singh, Priyanka
in adenosine triphosphate / Adenosine Triphosphate - pharmacology / Amino acids / Animals / Astrocytes / Astrocytes - drug effects / Astrocytes - metabolism / Biochemistry / Biomedical and Life Sciences / Biomedicine / Botulinum toxin / capacitance / Cell Biology / Exocytosis / Exocytosis - drug effects / Extracellular Vesicles - drug effects / Extracellular Vesicles - metabolism / Female / Fusion / Life Sciences / lighting / Membrane capacitance / Membrane fusion / Membrane Fusion - drug effects / mice / Microscopy / Models, Biological / Neurotoxins / Original / Original Article / Peptides / Peptides - metabolism / Pore size / Proteins / Rats, Wistar / SNAP receptors / SNARE proteins / SNARE Proteins - metabolism / Stimulated emission / Synaptobrevin / Time Factors / Toxins / transgenic animals / Transgenic mice / Transmitters / Vesicle fusion / Vesicles
2016

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Mohammed Bin Rashid Library /
Catalogue /
Dominant negative SNARE peptides stabilize the fusion pore in a narrow, release-unproductive state
Dominant negative SNARE peptides stabilize the fusion pore in a narrow, release-unproductive state
Journal Article

Dominant negative SNARE peptides stabilize the fusion pore in a narrow, release-unproductive state

Zorec, Robert,
Guček, Alenka,
Lisjak, Marjeta,
Vardjan, Nina,
Kreft, Marko,
Geisler, Claudia,
Jorgačevski, Jernej,
Egner, Alexander,
Singh, Priyanka
2016
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Overview
Key support for vesicle-based release of gliotransmitters comes from studies of transgenic mice with astrocyte-specific expression of a dominant-negative domain of synaptobrevin 2 protein (dnSNARE). To determine how this peptide affects exocytosis, we used super-resolution stimulated emission depletion microscopy and structured illumination microscopy to study the anatomy of single vesicles in astrocytes. Smaller vesicles contained amino acid and peptidergic transmitters and larger vesicles contained ATP. Discrete increases in membrane capacitance, indicating single-vesicle fusion, revealed that astrocyte stimulation increases the frequency of predominantly transient fusion events in smaller vesicles, whereas larger vesicles transitioned to full fusion. To determine whether this reflects a lower density of SNARE proteins in larger vesicles, we treated astrocytes with botulinum neurotoxins D and E, which reduced exocytotic events of both vesicle types. dnSNARE peptide stabilized the fusion-pore diameter to narrow, release-unproductive diameters in both vesicle types, regardless of vesicle diameter.
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Publisher
Springer International Publishing,Springer Nature B.V
Subject

adenosine triphosphate

/ Adenosine Triphosphate - pharmacology

/ Amino acids

/ Animals

/ Astrocytes

/ Astrocytes - drug effects

/ Astrocytes - metabolism

/ Biochemistry

/ Biomedical and Life Sciences

/ Biomedicine

/ Botulinum toxin

/ capacitance

/ Cell Biology

/ Exocytosis

/ Exocytosis - drug effects

/ Extracellular Vesicles - drug effects

/ Extracellular Vesicles - metabolism

/ Female

/ Fusion

/ Life Sciences

/ lighting

/ Membrane capacitance

/ Membrane fusion

/ Membrane Fusion - drug effects

/ mice

/ Microscopy

/ Models, Biological

/ Neurotoxins

/ Original

/ Original Article

/ Peptides

/ Peptides - metabolism

/ Pore size

/ Proteins

/ Rats, Wistar

/ SNAP receptors

/ SNARE proteins

/ SNARE Proteins - metabolism

/ Stimulated emission

/ Synaptobrevin

/ Time Factors

/ Toxins

/ transgenic animals

/ Transgenic mice

/ Transmitters

/ Vesicle fusion

/ Vesicles

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