Monia D’Amico scite author profile

H]DA release enhancement was competitively inhibited by pirenzepine (1-10 nmol/L) and abolished by the M 3 -preferring antagonist 4-diphenylacetoxy N-methylpiperidine methiodide (1 lmol/L), but was unaffected by the M 1 -selective antagonist MT-7 (10-100 nmol/L) or by Pertussis toxin (1.5-3 lg/mL), which uncouples M 2 -and M 4 -mediated responses. Finally, OXO-induced potentiation of depolarization-induced [ 3 H]DA release was not additive to that produced by XE-991 (10 lmol/L), was unaffected by retigabine (10 lmol/L), and was abolished by synaptosomal entrapment of anti-KCNQ2 antibodies. Collectively, these findings indicate that, in rat striatal nerve endings, I KM channels containing KCNQ2 subunits regulate depolarization-induced DA release and that I KM suppression is involved in the reinforcement of depolarization-induced DA release triggered by the activation of pre-synaptic muscarinic heteroreceptors.

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Pre‐synaptic BK channels selectively control glutamate versus GABA release from cortical and hippocampal nerve terminals

Martire

Barrese

D’Amico

et al. 2010

Journal of Neurochemistry

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In the present study, by means of genetic, biochemical, morphological, and electrophysiological approaches, the role of large-conductance voltage- and Ca(2+)-dependent K(+) channels (BK channels) in the release of excitatory and non-excitatory neurotransmitters at hippocampal and non-hippocampal sites has been investigated. The results obtained show that the pharmacological modulation of pre-synaptic BK channels selectively regulates [(3)H]D-aspartate release from cortical and hippocampal rat synaptosomes, but it fails to influence the release of excitatory neurotransmitters from cerebellar nerve endings or that of [(3)H]GABA, [(3)H]Noradrenaline, or [(3)H]Dopamine from any of the brain regions investigated. Confocal immunofluorescence experiments in hippocampal or cerebrocortical nerve terminals revealed that the main pore-forming BK α subunit was more abundantly expressed in glutamatergic (vGLUT1(+)) versus GABAergic (GAD(65-67)(+)) nerve terminals. Double patch recordings in monosynaptically connected hippocampal neurons in culture confirmed a preferential control exerted by BK channels on glutamate over GABA release. Altogether, the present results highlight a high degree of specificity in the regulation of the release of various neurotransmitters from distinct brain regions by BK channels, supporting the concept that BK channel modulators can be used to selectively limit excessive excitatory amino acid release, a major pathogenetic mechanism in several neuropsychiatric disorders

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Presynaptic effects of anandamide and WIN55,212-2 on glutamatergic nerve endings isolated from rat hippocampus

Cannizzaro

D’Amico

Preziosi

et al. 2006

Neurochemistry International

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Inhibition by Anandamide and Synthetic Cannabimimetics of the Release of [³H]d-Aspartate and [³H]GABA from Synaptosomes Isolated from the Rat Hippocampus

et al. 2004

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Cannabinoids (CB) can act as retrograde synaptic mediators of depolarization-induced suppression of inhibition or excitation in hippocampus. This mechanism may underlie the impairment of some cognitive processes produced by these compounds, including short-term memory formation in the hippocampus. In this study, we investigated several compounds known to interact with CB receptors, evaluating their effects on K(+)-evoked release of [3H]D-aspartate ([3H]D-ASP) and [3H]GABA from superfused synaptosomes isolated from the rat hippocampus. [3H]D-ASP and [3H]GABA release were inhibited to different degrees by the synthetic cannabinoids WIN 55,212-2; CP 55,940, and arachidonyl-2'-chloroethylamide/N-(2-chloroethyl)-5Z,8Z,11Z,14Z-eicosatetraenamide (ACEA), as well as by the endocannabinoids, anandamide (AEA), and 2-arachidonoylglycerol (2-AG). Both types of release were also inhibited by capsaicin. The inhibition produced by each of the cannabinoid compounds and capsaicin was unaffected by capsazepine or by the CB1-receptor antagonists AM-251 and SR141716A. The mechanism underlying AEA- and synthetic CB-induced inhibition of the release of [3H]GABA and [3H]D-ASP from rat hippocampal synaptosomes might not involve activation of presynaptic CB1 receptors.

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Monia D’Amico

M Channels Containing KCNQ2 Subunits Modulate Norepinephrine, Aspartate, and GABA Release from Hippocampal Nerve Terminals

Involvement of KCNQ2 subunits in [³H]dopamine release triggered by depolarization and pre‐synaptic muscarinic receptor activation from rat striatal synaptosomes

Pre‐synaptic BK channels selectively control glutamate versus GABA release from cortical and hippocampal nerve terminals

Presynaptic effects of anandamide and WIN55,212-2 on glutamatergic nerve endings isolated from rat hippocampus

Inhibition by Anandamide and Synthetic Cannabimimetics of the Release of [³H]d-Aspartate and [³H]GABA from Synaptosomes Isolated from the Rat Hippocampus

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Monia D’Amico

M Channels Containing KCNQ2 Subunits Modulate Norepinephrine, Aspartate, and GABA Release from Hippocampal Nerve Terminals

Involvement of KCNQ2 subunits in [3H]dopamine release triggered by depolarization and pre‐synaptic muscarinic receptor activation from rat striatal synaptosomes

Pre‐synaptic BK channels selectively control glutamate versus GABA release from cortical and hippocampal nerve terminals

Presynaptic effects of anandamide and WIN55,212-2 on glutamatergic nerve endings isolated from rat hippocampus

Inhibition by Anandamide and Synthetic Cannabimimetics of the Release of [3H]d-Aspartate and [3H]GABA from Synaptosomes Isolated from the Rat Hippocampus

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Product

Resources

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Involvement of KCNQ2 subunits in [³H]dopamine release triggered by depolarization and pre‐synaptic muscarinic receptor activation from rat striatal synaptosomes

Inhibition by Anandamide and Synthetic Cannabimimetics of the Release of [³H]d-Aspartate and [³H]GABA from Synaptosomes Isolated from the Rat Hippocampus