Lamotrigine reduces spontaneous and evoked GABAA receptor-mediated synaptic transmission in the basolateral amygdala: implications for its effects in seizure and affective disorders

Lamotrigine reduces spontaneous and evoked GABAA receptor-mediated synaptic transmission in the basolateral amygdala: implications for its effects in seizure and affective disorders

Lamotrigine (LTG) is an antiepileptic drug that is also effective in the treatment of certain psychiatric disorders. Its anticonvulsant action has been attributed to its ability to block voltage-gated Na(+) channels and reduce glutamate release. LTG also affects GABA-mediated synaptic transmission,...

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Bibliographic Details
Published in:Neuropharmacology Vol. 42; no. 4; pp. 522 - 529
Main Authors: BRAGA, M. F. M, ARONIADOU-ANDERJASKA, V, POST, R. M, LI, H
Format: Journal Article
Language:English
Published: Oxford Elsevier 01-03-2002
Subjects:
Amygdala - drug effects
Amygdala - physiology
Animals
Anticonvulsants - pharmacology
Anticonvulsants - therapeutic use
Anticonvulsants. Antiepileptics. Antiparkinson agents
Biological and medical sciences
Excitatory Amino Acid Antagonists - pharmacology
GABA-A Receptor Antagonists
In Vitro Techniques
Lamotrigine
Medical sciences
Mood Disorders - drug therapy
Mood Disorders - physiopathology
Neuropharmacology
Pharmacology. Drug treatments
Psycholeptics: tranquillizer, neuroleptic
Psychology. Psychoanalysis. Psychiatry
Psychopharmacology
Rats
Rats, Sprague-Dawley
Receptors, GABA-A - physiology
Seizures - drug therapy
Seizures - physiopathology
Synaptic Transmission - drug effects
Synaptic Transmission - physiology
Triazines - pharmacology
Triazines - therapeutic use
Rat
Neuroleptic
Inhibitory postsynaptic potential
Psychotropic
Rodentia
Central nervous system
Anticonvulsant
In vitro
Vertebrata
Mammalia
Synaptic transmission
Animal
Triazene derivatives
Mechanism of action
Amygdaloid nucleus
Gabaergic receptor A
Brain (vertebrata)
Lamotrigine
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Summary:Lamotrigine (LTG) is an antiepileptic drug that is also effective in the treatment of certain psychiatric disorders. Its anticonvulsant action has been attributed to its ability to block voltage-gated Na(+) channels and reduce glutamate release. LTG also affects GABA-mediated synaptic transmission, but there are conflicting reports as to whether inhibitory transmission is enhanced or suppressed by LTG. We examined the effects of LTG on GABA(A) receptor-mediated synaptic transmission in slices from rat amygdala, a brain area that is particularly important in epileptogenesis and affective disorders. In intracellular recordings, LTG (100 microM) reduced GABA(A) receptor-mediated IPSPs evoked by electrical stimulation in neurons of the basolateral nucleus. In whole-cell recordings, LTG (10, 50 and 100 microM) decreased the frequency and amplitude of spontaneous IPSCs, as well as the amplitude of evoked IPSCs, but had no effect on the kinetics of these currents. LTG also had no effects on the frequency, amplitude or kinetics of miniature IPSCs recorded in the presence of TTX. These results suggest that in the basolateral amygdala, LTG suppresses GABA(A) receptor-mediated synaptic transmission by a direct and/or indirect effect on presynaptic Ca(++) influx. The modulation of inhibitory synaptic transmission may be an important mechanism underlying the psychotropic effects of LTG.
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ISSN:0028-3908
1873-7064
DOI:10.1016/s0028-3908(01)00198-8