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Effects of two benzodiazepines, phenobarbitone, and baclofen on synaptic transmission in the cat cuneate nucleus
The effects of diazepam, flunitrazepam, phenobarbitone and baclofen on excitatory as well as on pre- and postsynaptic inhibitory processes in the cuneate nucleus were studied in decerebrate cats. Afferent presynaptic inhibition in the cuneate nucleus, evoked by volleys in the median nerve, and asses...
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Published in: | Naunyn-Schmiedeberg's archives of pharmacology 1976-08, Vol.294 (2), p.121-131 |
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Main Authors: | , |
Format: | Article |
Language: | English |
Subjects: | |
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Online Access: | Get full text |
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Summary: | The effects of diazepam, flunitrazepam, phenobarbitone and baclofen on excitatory as well as on pre- and postsynaptic inhibitory processes in the cuneate nucleus were studied in decerebrate cats. Afferent presynaptic inhibition in the cuneate nucleus, evoked by volleys in the median nerve, and assessed by the size of the positive cuneate surface potential (P wave), the dorsal column reflex (DCR), and the increased excitability of primary afferent terminals of the ulnar nerve, was markedly enhanced by diazepam (0.1-3.0 mg/kh i.v.) and flunitrazepam (0.01-0.3 mg/kg i.v.), slightly enhanced by lower doses of phenobarbitone (3-20 mg/kg i.v.), but depressed by baclofen (1-10 mg/kg i.v.). Diazepam, flunitrazepam and phenobarbitone also increased postsynaptic inhibition in the cuneate nucleus which was measured by the decrease after conditioning volleys in the median nerve of the short-latency lemniscal response to cuneate stimulation. The GABA receptor blocking agent, picrotoxin, antagonized the effects of diazepam on pre- and postsynaptic inhibition in a surmountable way. After thiosemicarbazide (TSC), an inhibitor of GABA synthesis, both pre- and postsynaptic inhibition were greatly reduced and the augmenting effect of diazepam on both types of inhibition was nearly abolished. Aminooxyacetic acid (AOAA), an inhibitor of GABA degradation, slightly enhanced pre- and postsynaptic inhibition; the effects of diazepam were unaffected by AOAA. Diazepam, flunitrazepam and phenobarbitone did not alter the resting excitability of primary afferent endings or of cuneo-thalamic relay (CTR) cells in the cuneate nucleus. After higher doses (30 mg/kg i.v.) of phenobarbitone pre- and postsynaptic inhibition, which were enhanced by 10 mg/kg of this drug, tended to return to pre-drug values or below. Phenobarbitone, in contrast to benzodiazepines, also depressed in a dose-dependent way the N wave, which is an index of the orthodromic excitation of the CTR cells. Baclofen strongly depressed the cuneate N wave, decreased the excitability of CTR cells, reduced pre- and postsynaptic inhibition, but had no effect on the resting excitability of primary afferent endings. Our findings suggest the following modes of action of the above mentioned drugs: 1. benzodiazepines enhance selectively the GABA-mediated pre- and postsynaptic inhibition in the cuneate nucleus; 2. phenobarbitone slightly enhances pre- and postsynaptic inhibition only in a narrow dose range, and in addition reduces the |
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ISSN: | 0028-1298 1432-1912 |
DOI: | 10.1007/BF00507844 |