Pentobarbitone modulates calcium transients in axons and synaptic boutons of hippocampal CA1 neurons

Baudoux, Sylvie; Empson, Ruth M.; Richards, Christopher D.

doi:10.1038/sj.bjp.0705519

Cited by 31 publications

(15 citation statements)

References 37 publications

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“…CNS depression arises from their well‐known enhancement of inhibitory post‐synaptic Cl ‐ currents carried by GABA A receptors (Evans, 1979; Mathers and Barker, 1980; Olsen, 1988; Macdonald et al . 1989), and also by inhibition of excitatory pre‐synaptic neurotransmitter release (Brooks and Eckert, 1947; Weakly, 1969; Richards, 1972; Baudoux et al ., 2003) involving reduced Ca 2+ entry into the pre‐synaptic nerve terminal (Morgan and Bryant, 1977; Leslie et al . 1980; Baudoux et al ., 2003).…”

Section: Introductionmentioning

confidence: 99%

Pentobarbital inhibition of human recombinant α_1A P/Q‐type voltage‐gated calcium channels involves slow, open channel block

Schober¹,

Sokolova²,

Gingrich³

2010

British J Pharmacology

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BACKGROUND AND PURPOSEPre-synaptic neurotransmitter release is largely dependent on Ca 2+ entry through P/Q-type (CaV2. (IBa) currents were studied using whole-cell patch clamp recording in HEK-293 cells heterologously expressing (a1A)human(b2aa2d-1)rabbit PQCCs. KEY RESULTSPB reversibly depressed peak current (Ipeak) and enhanced apparent inactivation (fractional current at 800 ms, r800) in a concentration-dependent fashion irrespective of charge carrier (50% inhibitory concentration: Ipeak, 656 mM; r800, 104 mM). Rate of mono-exponential IBa decay was linearly dependent on PB concentration. PB reduced channel availability by deepening non-steady-state inactivation curves without altering voltage dependence, slowed recovery from activity-induced unavailable states and produced use-dependent block. PB (100 mM) induced use-dependent block during physiological, high frequency pulse trains and overall depressed PQCC activity by two-fold. CONCLUSION AND IMPLICATIONSThe results support a PB pharmacological mechanism involving a modulated receptor with preferential slow, bimolecular, open channel block (Kd = 15 mM). Clinical PB concentrations (<200 mM) inhibit PQCC during high frequency activation that reduces computed neurotransmitter release by 16-fold and is comparable to the magnitude of Ca 2+ -dependent facilitation, G-protein modulation and intrinsic inactivation that play critical roles in PQCC modulation underlying synaptic plasticity. The results are consistent with the hypothesis that PB inhibition of PQCCs contributes to central nervous system depression underlying anticonvulsant therapy and general anaesthesia.

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Section: Introductionmentioning

confidence: 99%

Pentobarbital inhibition of human recombinant α_1A P/Q‐type voltage‐gated calcium channels involves slow, open channel block

Schober¹,

Sokolova²,

Gingrich³

2010

British J Pharmacology

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“…pre increase in the presynaptic boutons [16,17] and depresses excitatory synaptic transmission in the CNS [18]. In these reports, the inhibitory [13,14] and 150-300 lM [17,18], respectively. Pentobarbital concentration of 200 lM was sufficient to inhibit depolarization-induced secretion by 30-50% [18].…”

Section: Discussionmentioning

confidence: 94%

“…-evoked glutamate release from rat cerebrocortical slices by mediating activation of GABA A receptors [13]. However, it has also been suggested that presynaptic GABA A receptors are not implicated in depressant actions of IV anesthetic agents in the presynaptic boutons [16,17]. Furthermore, it has been reported that GABA A receptors also reduce neurotransmitter release by another mechanism that does not affect Ca 2?…”

Section: Discussionmentioning

confidence: 95%

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Effects of propofol and pentobarbital on calcium concentration in presynaptic boutons on a rat hippocampal neuron

Sugiyama

Kitahara

et al. 2011

J Anesth

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“…Thus, pentobarbital depressed EPSP responses by both enhancing dendritic inhibition, as well as by a presynaptic action to reduce glutamate release as previously reported. (36) …”

Section: Resultsmentioning

confidence: 99%

Anesthetic Agent-Specific Effects on Synaptic Inhibition

2014

Anesthesia &Amp; Analgesia

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Background Anesthetics enhance gamma-aminobutyric acid (GABA)-mediated inhibition in the central nervous system. Different agents have been shown to act on tonic versus synaptic GABA receptors to different degrees, but it remains unknown whether different forms of synaptic inhibition are also differentially engaged. With this in mind, we tested the hypothesis that different types of GABA-mediated synapses exhibit different anesthetic sensitivities. The present study compared effects produced by isoflurane, halothane, pentobarbital, thiopental and propofol on paired pulse GABAA receptor-mediated synaptic inhibition. Effects on glutamate-mediated facilitation were also studied. Methods Synaptic responses were measured in rat hippocampal brain slices. Orthodromic paired pulse stimulation was used to assess anesthetic effects on either glutamate-mediated excitatory inputs or GABA-mediated inhibitory inputs to CA1 neurons. Antidromic stimulation was used to assess anesthetic effects on CA1 background excitability. Agents were studied at equi-effective concentrations for population spike depression to compare their relative degree of effect on synaptic inhibition. Results Differing degrees of anesthetic effect on paired pulse facilitation at excitatory glutamate synapses were evident, and blocking GABA inhibition revealed a previously unseen presynaptic action for pentobarbital. Although all five anesthetics depressed synaptically evoked excitation of CA1 neurons, the involvement of enhanced GABA-mediated inhibition differed considerably among agents. Single pulse inhibition was enhanced by propofol, thiopental and pentobarbital, but only marginally by halothane and isoflurane. In contrast, isoflurane enhanced paired pulse inhibition strongly, as did thiopental, but propofol, pentobarbital and halothane were less effective. Conclusions These observations support the idea that different GABA synapses use receptors with differing subunit compositions, and that anesthetics exhibit differing degrees of selectivity for these receptors. The differing anesthetic sensitivities seen in the present study, at glutamate and GABA synapses, help explain the unique behavioral/clinical profiles produced by different classes of anesthetics, and indicate that there are selective targets for new agent development.

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Pentobarbitone modulates calcium transients in axons and synaptic boutons of hippocampal CA1 neurons

Cited by 31 publications

References 37 publications

Pentobarbital inhibition of human recombinant α_1A P/Q‐type voltage‐gated calcium channels involves slow, open channel block

Pentobarbital inhibition of human recombinant α_1A P/Q‐type voltage‐gated calcium channels involves slow, open channel block

Effects of propofol and pentobarbital on calcium concentration in presynaptic boutons on a rat hippocampal neuron

Anesthetic Agent-Specific Effects on Synaptic Inhibition

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Pentobarbitone modulates calcium transients in axons and synaptic boutons of hippocampal CA1 neurons

Cited by 31 publications

References 37 publications

Pentobarbital inhibition of human recombinant α1A P/Q‐type voltage‐gated calcium channels involves slow, open channel block

Pentobarbital inhibition of human recombinant α1A P/Q‐type voltage‐gated calcium channels involves slow, open channel block

Effects of propofol and pentobarbital on calcium concentration in presynaptic boutons on a rat hippocampal neuron

Anesthetic Agent-Specific Effects on Synaptic Inhibition

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Product

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Pentobarbital inhibition of human recombinant α_1A P/Q‐type voltage‐gated calcium channels involves slow, open channel block

Pentobarbital inhibition of human recombinant α_1A P/Q‐type voltage‐gated calcium channels involves slow, open channel block