Transmitter release patterns of noradrenergic,dopaminergic and cholinergic axons in rabbit brain slices during short pulse trains,and the operation of presynaptic autoreceptors |
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Authors: | A. Mayer N. Limberger K. Starke |
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Affiliation: | (1) Pharmakologisches Institut der Universität, Hermann-Herder-Strasse 5, D-7800 Freiburg i. Br., Federal Republic of Germany |
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Abstract: | Summary Slices of rabbit brain were field-stimulated either by single electrical pulses or by trains of 4 or 8 pulses at 1 or 100 Hz in order to study transmitter release patterns and the autoinhibition of transmitter release. The slices were preincubated with 3H-noradrenaline (cortex), 3H-dopamine (caudate nucleus) or 3H-choline (caudate nucleus).Slices preincubated with 3H-noradrenaline were superfused with medium containing desipramine 1 gmol/l. The overflow of tritium elicited by single pulses amounted to 0 .19% of the tritium content of the tissue. The overflow elicited by 4 pulses/1 Hz was similar, whereas that elicited by 4 pulses/100 Hz was 5.1-fold higher. Yohimbine 101000 nmol/l increased up to 2.5-fold the overflow evoked by 4 pulses/1 Hz but did not change the overflow evoked by single pulses or 4 pulses/100 Hz. - Slices preincubated with 3H-dopamine were superfused with medium containing nomifensine 1 mol/l. The overflow of tritium elicited by single pulses was 0.39% of the tritium content of the tissue. The overflow elicited by 4 pulses/1 Hz was 1.3-fold and the overflow elicited by 4 pulses/100 Hz 1.4-fold higher. Domperidone 1–100 nmol/l and sulpiride 10–1000 nmol/1 increased up to 2.4-fold the overflow evoked by 4 pulses/ 1 Hz but increased only slightly the overflow evoked by single pulses or 4 pulses/100 Hz. - Slices preincubated with 3H-choline were superfused either with physostigmine-free medium or with medium containing physostigmine 1 mol/l. In physostigmine-free medium, atropine did not increase the evoked overflow of tritium at any stimulation condition. In physostigmine-containing medium, the overflow elicited by single pulses was 0.18% of the tritium content of the tissue. The overflow elicited by 8 pulses/1 Hz was 2.0-fold and the overflow elicited by 8 pulses/100 Hz 2.2-fold higher. Atropine 2–200 nmol/1 increased up to 2.4-fold the overflow evoked by 8 pulses/1 Hz but increased only slightly the overflow evoked bysingle pulses or 8 pulses/100 Hz. In physostigmine-free medium, sulpiride 10–1000 nmol/1 did not change the single-pulse-evoked overflow of tritium in the absence but increased it in the presence of nomifensine 1 mol/l.Single pulses elicit a large release of 3H-noradrenaline, 3H-dopamine and 3H-acetylcholine under the conditions of these experiments. Release elicited by single pulses is not subject to autoinhibition except for a small inhibition by spontaneously released transmitter in the case of dopaminergic and cholinergic axons. When 3 or 7 further pulses follow the first one at intervals of 1 s, they elicit much smaller release. At least a great part of the fall is due to autoreceptor mediated inhibition (for 3H-acetylcholine release in the presence of physostigmine only). When 3 or 7 further pulses follow at intervals of 10 ms, they elicit release that is either similar to that evoked by the first pulse (3H-noradrenaline) or much smaller (3H-dopamine, 3H-acetylcholine). However, the fall is not due to stimulation-dependent, auto-receptor-mediated inhibition; autoinhibition does not develop in these short high-frequency trains. Overall, the results are in accord with the autoreceptor theory. They demonstrate the role of autoinhibition in determining the transmitter release patterns of central noradrenergic, dopaminergic and cholinergic neurones.Send offprint requests to N. Limberger at the above address |
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Keywords: | Rabbit brain slices Noradrenaline release Dopamine release Acetylcholine release Presynaptic autoreceptors |
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