Presynaptic GABA(B) receptor modulation of glutamate exocytosis from rat cerebrocortical nerve terminals: receptor decoupling by protein kinase C
GABA and the GABA(B) receptor agonist (-)-baclofen inhibited 4-aminopyridine (4AP)- and KCl-evoked, Ca2+-dependent glutamate release from rat cerebrocortical synaptosomes. The GABA(B) receptor antagonist CGP 35348, prevented this inhibition of glutamate release, but phaclofen had no effect. (-)-Bacl...
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| Published in | Journal of neurochemistry Vol. 70; no. 4; p. 1513 |
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| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
England
01.04.1998
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0022-3042 |
| DOI | 10.1046/j.1471-4159.1998.70041513.x |
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| Abstract | GABA and the GABA(B) receptor agonist (-)-baclofen inhibited 4-aminopyridine (4AP)- and KCl-evoked, Ca2+-dependent glutamate release from rat cerebrocortical synaptosomes. The GABA(B) receptor antagonist CGP 35348, prevented this inhibition of glutamate release, but phaclofen had no effect. (-)-Baclofen-mediated inhibition of glutamate release was insensitive to 2 microg/ml pertussis toxin. As determined by examining the mechanism of GABA(B) receptor modulation of glutamate release, (-)-baclofen caused a significant reduction in 4AP-evoked Ca2+ influx into synaptosomes. The agonist did not alter the resting synaptosomal membrane potential or 4AP-mediated depolarization; thus, the inhibition of Ca2+ influx could not be attributed to GABA(B) receptor activation causing a decrease in synaptosomal excitability. Ionomycin-mediated glutamate release was not affected by (-)-baclofen, indicating that GABA(B) receptors in this preparation are not coupled directly to the exocytotic machinery. Instead, the data invoke a direct coupling of GABA(B) receptors to voltage-dependent Ca2+ channels linked to glutamate release. This coupling was subject to regulation by protein kinase C (PKC), because (-)-baclofen-mediated inhibition of 4AP-evoked glutamate release was reversed when PKC was stimulated with phorbol ester. This may therefore represent a mechanism by which inhibitory and facilitatory presynaptic receptor inputs interplay to fine-tune transmitter release. |
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| AbstractList | GABA and the GABA(B) receptor agonist (-)-baclofen inhibited 4-aminopyridine (4AP)- and KCl-evoked, Ca2+-dependent glutamate release from rat cerebrocortical synaptosomes. The GABA(B) receptor antagonist CGP 35348, prevented this inhibition of glutamate release, but phaclofen had no effect. (-)-Baclofen-mediated inhibition of glutamate release was insensitive to 2 microg/ml pertussis toxin. As determined by examining the mechanism of GABA(B) receptor modulation of glutamate release, (-)-baclofen caused a significant reduction in 4AP-evoked Ca2+ influx into synaptosomes. The agonist did not alter the resting synaptosomal membrane potential or 4AP-mediated depolarization; thus, the inhibition of Ca2+ influx could not be attributed to GABA(B) receptor activation causing a decrease in synaptosomal excitability. Ionomycin-mediated glutamate release was not affected by (-)-baclofen, indicating that GABA(B) receptors in this preparation are not coupled directly to the exocytotic machinery. Instead, the data invoke a direct coupling of GABA(B) receptors to voltage-dependent Ca2+ channels linked to glutamate release. This coupling was subject to regulation by protein kinase C (PKC), because (-)-baclofen-mediated inhibition of 4AP-evoked glutamate release was reversed when PKC was stimulated with phorbol ester. This may therefore represent a mechanism by which inhibitory and facilitatory presynaptic receptor inputs interplay to fine-tune transmitter release. GABA and the GABA(B) receptor agonist (-)-baclofen inhibited 4-aminopyridine (4AP)- and KCl-evoked, Ca2+-dependent glutamate release from rat cerebrocortical synaptosomes. The GABA(B) receptor antagonist CGP 35348, prevented this inhibition of glutamate release, but phaclofen had no effect. (-)-Baclofen-mediated inhibition of glutamate release was insensitive to 2 microg/ml pertussis toxin. As determined by examining the mechanism of GABA(B) receptor modulation of glutamate release, (-)-baclofen caused a significant reduction in 4AP-evoked Ca2+ influx into synaptosomes. The agonist did not alter the resting synaptosomal membrane potential or 4AP-mediated depolarization; thus, the inhibition of Ca2+ influx could not be attributed to GABA(B) receptor activation causing a decrease in synaptosomal excitability. Ionomycin-mediated glutamate release was not affected by (-)-baclofen, indicating that GABA(B) receptors in this preparation are not coupled directly to the exocytotic machinery. Instead, the data invoke a direct coupling of GABA(B) receptors to voltage-dependent Ca2+ channels linked to glutamate release. This coupling was subject to regulation by protein kinase C (PKC), because (-)-baclofen-mediated inhibition of 4AP-evoked glutamate release was reversed when PKC was stimulated with phorbol ester. This may therefore represent a mechanism by which inhibitory and facilitatory presynaptic receptor inputs interplay to fine-tune transmitter release.GABA and the GABA(B) receptor agonist (-)-baclofen inhibited 4-aminopyridine (4AP)- and KCl-evoked, Ca2+-dependent glutamate release from rat cerebrocortical synaptosomes. The GABA(B) receptor antagonist CGP 35348, prevented this inhibition of glutamate release, but phaclofen had no effect. (-)-Baclofen-mediated inhibition of glutamate release was insensitive to 2 microg/ml pertussis toxin. As determined by examining the mechanism of GABA(B) receptor modulation of glutamate release, (-)-baclofen caused a significant reduction in 4AP-evoked Ca2+ influx into synaptosomes. The agonist did not alter the resting synaptosomal membrane potential or 4AP-mediated depolarization; thus, the inhibition of Ca2+ influx could not be attributed to GABA(B) receptor activation causing a decrease in synaptosomal excitability. Ionomycin-mediated glutamate release was not affected by (-)-baclofen, indicating that GABA(B) receptors in this preparation are not coupled directly to the exocytotic machinery. Instead, the data invoke a direct coupling of GABA(B) receptors to voltage-dependent Ca2+ channels linked to glutamate release. This coupling was subject to regulation by protein kinase C (PKC), because (-)-baclofen-mediated inhibition of 4AP-evoked glutamate release was reversed when PKC was stimulated with phorbol ester. This may therefore represent a mechanism by which inhibitory and facilitatory presynaptic receptor inputs interplay to fine-tune transmitter release. |
| Author | Sihra, T S Perkinton, M S |
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| Snippet | GABA and the GABA(B) receptor agonist (-)-baclofen inhibited 4-aminopyridine (4AP)- and KCl-evoked, Ca2+-dependent glutamate release from rat cerebrocortical... |
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| SubjectTerms | 4-Aminopyridine - pharmacology Animals Baclofen - pharmacology Calcium - physiology Cerebral Cortex - metabolism Electrophysiology Excitatory Amino Acid Antagonists - pharmacology Exocytosis - physiology GABA Agonists - pharmacology Glutamic Acid - metabolism Male Membrane Potentials - drug effects Presynaptic Terminals - metabolism Protein Kinase C - physiology Rats Rats, Sprague-Dawley Receptors, GABA-B - physiology Stereoisomerism Synaptosomes - drug effects Synaptosomes - physiology |
| Title | Presynaptic GABA(B) receptor modulation of glutamate exocytosis from rat cerebrocortical nerve terminals: receptor decoupling by protein kinase C |
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