Multiple components of synaptosomal [3H]-.gamma.-aminobutyric acid release resolved by a rapid superfusion system

Multiple components of synaptosomal [3H]-.gamma.-aminobutyric acid release resolved by a rapid superfusion system

Release of [3H]-gamma-aminobutyric acid ([3H]GABA) from rat brain synaptosomes was studied with 60-ms time resolution, using a novel rapid superfusion method. Synaptosomes were prelabeled with [3H]GABA via an associated GABA uptake system. KCl depolarization stimulated at least three distinct compon...

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Veröffentlicht in:Biochemistry (Easton) 1989-01, Vol.28 (2), p.586-593
Hauptverfasser: Turner, Timothy J, Goldin, Stanley M
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Brain - metabolism
Cadmium - pharmacology
Calcium - pharmacology
gamma-Aminobutyric Acid - metabolism
Kinetics
Male
Nickel - pharmacology
Nipecotic Acids - pharmacology
Proline - analogs & derivatives
Radioisotope Dilution Technique
Rats
Rats, Inbred Strains
Sodium - pharmacology
Synaptosomes - drug effects
Synaptosomes - metabolism
Tritium
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container_title Biochemistry (Easton)
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creator Turner, Timothy J
Goldin, Stanley M
description Release of [3H]-gamma-aminobutyric acid ([3H]GABA) from rat brain synaptosomes was studied with 60-ms time resolution, using a novel rapid superfusion method. Synaptosomes were prelabeled with [3H]GABA via an associated GABA uptake system. KCl depolarization stimulated at least three distinct components of GABA release: (1) a phasic Ca-dependent component, which develops rapidly and decays with a time constant of at most 60 ms; (2) a tonic Ca-dependent component that persists after KCl depolarization is ended; (3) a Ca-independent component. The three components of GABA release are pharmacologically distinct. The phasic component was selectively blocked by 50 microM Cd2+, while the tonic component was selectively blocked by 100 microM Ni2+. The Ca-independent component was selectively blocked by nipecotic acid (IC50 = 21 microM), a known inhibitor of Na+-dependent GABA uptake. The time course and amplitude of Ca-dependent GABA release evoked by the Ca2+ ionophore A23187 were nearly identical with Ca-dependent release evoked by depolarization. This result indicates that Ca-dependent GABA release depends primarily on Ca2+ entry into the nerve terminal, and not depolarization, per se. The properties of the phasic component suggest that it is normally initiated by a voltage-sensitive Ca2+ channel that is functionally and pharmacologically distinct from those previously described. The Ca-independent component of GABA release is probably mediated by reversal of the Na-dependent, electrogenic GABA uptake system. The ability to identify multiple components of GABA release on a physiologically relevant time scale may afford a more precise definition of the mechanism of action of drugs thought to affect neurotransmission in the brain.
doi_str_mv 10.1021/bi00428a026
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source MEDLINE; American Chemical Society Journals
subjects Animals
Brain - metabolism
Cadmium - pharmacology
Calcium - pharmacology
gamma-Aminobutyric Acid - metabolism
Kinetics
Male
Nickel - pharmacology
Nipecotic Acids - pharmacology
Proline - analogs & derivatives
Radioisotope Dilution Technique
Rats
Rats, Inbred Strains
Sodium - pharmacology
Synaptosomes - drug effects
Synaptosomes - metabolism
Tritium
title Multiple components of synaptosomal [3H]-.gamma.-aminobutyric acid release resolved by a rapid superfusion system
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