Calcium transients and neurotransmitter release at an identified synapse

Calcium transients and neurotransmitter release at an identified synapse

It is widely accepted that the modulation of the presynaptic Ca2+ influx is one of the main mechanisms by which neurotransmitter release can be controlled. The well-identified cholinergic synapse in the buccal ganglion of Aplysia has been used to study the modulations that affect presynaptic Ca2+ tr...

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Veröffentlicht in:Trends in Neurosciences 1999-04, Vol.22 (4), p.161-166
Hauptverfasser: Fossier, Philippe, Tauc, Ladislav, Baux, Gérard
Format: Artikel
Sprache:eng
Schlagworte:
Acetylcholine
Acetylcholine - secretion
Acetylcholine release
Adenosine Diphosphate Ribose
Adenosine Diphosphate Ribose - analogs & derivatives
Adenosine Diphosphate Ribose - physiology
ADPRibose
Animals
Aplysia
Aplysia - physiology
ATP-dependent calcium pump
Biochemistry. Physiology. Immunology
Biological and medical sciences
Calcium
Calcium - metabolism
Calcium Channels
Calcium Channels - classification
Calcium Channels - physiology
Calcium Signaling
Calcium Signaling - physiology
Calcium stores
Cyclic
Cyclic ADP-Ribose
Fundamental and applied biological sciences. Psychology
Ganglia, Invertebrate
Ganglia, Invertebrate - physiology
Invertebrates
Ion Transport
Life Sciences
Models, Neurological
Mollusca
Nerve Tissue Proteins
Nerve Tissue Proteins - physiology
Neurons and Cognition
Organelles
Organelles - secretion
Physiology. Development
Presynaptic receptors
Presynaptic Terminals
Presynaptic Terminals - physiology
Ryanodine receptors
Voltage-gated calcium channels
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Zusammenfassung:It is widely accepted that the modulation of the presynaptic Ca2+ influx is one of the main mechanisms by which neurotransmitter release can be controlled. The well-identified cholinergic synapse in the buccal ganglion of Aplysia has been used to study the modulations that affect presynaptic Ca2+ transients and to relate this to quantal evoked neurotransmitter release. Three types of Ca2+ channel (L, N and P) are present in the presynaptic neurone at this synapse. Influxes of Ca2+ through N- and P-type channels trigger the release of ACh with only N-type Ca2+ channels being regulated by presynaptic neuromodulator receptors. In addition, presynaptic Ca2+ stores, via complex mechanisms of Ca2+ uptake and Ca2+ release, control the Ca2+ concentration that triggers this evoked ACh release.
ISSN:0166-2236
1878-108X
DOI:10.1016/S0166-2236(98)01307-1