Literature DB >> 21164281

Are neuronal voltage-gated calcium channels valid cellular targets for general anesthetics?

Peihan Orestes1, Slobodan M Todorovic.   

Abstract

The effects of anesthetics and analgesics on ion channels have been the subject of intense research since recent reports of direct actions of anesthetic molecules on ion channel proteins.  It is now known that ligand-gated channels, particularly γ-amino-butyric acid (GABAA) and N-methyl-D-aspartate (NMDA) receptors, play a key role in mediating anesthetic actions, but these channels are unable to account for all aspects of clinical anesthesia such as loss of consciousness, immobility, analgesia, amnesia, and muscle relaxation.  Furthermore, an assortment of voltage-gated and background channels also display anesthetic sensitivity and a key question arises: What role do these other channels play in clinical anesthesia? These channels have overlapping physiological roles and pharmacological profiles, making it difficult to assign aspects of the anesthetic state to individual channel types.  Here, we will focus on the function of neuronal voltage-gated calcium channels in mediating the effects of general anesthetics.

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Year:  2010        PMID: 21164281      PMCID: PMC3021099          DOI: 10.4161/chan.4.6.12873

Source DB:  PubMed          Journal:  Channels (Austin)        ISSN: 1933-6950            Impact factor:   2.581


  55 in total

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Review 6.  Regulation of T-type calcium channels in the peripheral pain pathway.

Authors:  Slobodan M Todorovic; Vesna Jevtovic-Todorovic
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8.  Pharmacological properties of T-type Ca2+ current in adult rat sensory neurons: effects of anticonvulsant and anesthetic agents.

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10.  L-type calcium channel blockade modifies anesthetic actions on aged hippocampal neurons.

Authors:  H El Beheiry; A Ouanounou; P L Carlen
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  18 in total

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Journal:  Channels (Austin)       Date:  2011-09-01       Impact factor: 2.581

3.  Alterations in Oscillatory Behavior of Central Medial Thalamic Neurons Demonstrate a Key Role of CaV3.1 Isoform of T-Channels During Isoflurane-Induced Anesthesia.

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6.  Isoflurane inhibits a Kir4.1/5.1-like conductance in neonatal rat brainstem astrocytes and recombinant Kir4.1/5.1 channels in a heterologous expression system.

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7.  Inhibition of T-type calcium current in rat thalamocortical neurons by isoflurane.

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8.  Novel neurosteroid hypnotic blocks T-type calcium channel-dependent rebound burst firing and suppresses long-term potentiation in the rat subiculum.

Authors:  Srdjan M Joksimovic; Yukitoshi Izumi; Sonja Lj Joksimovic; Vesna Tesic; Kathiresan Krishnan; Betelehem Asnake; Vesna Jevtovic-Todorovic; Douglas F Covey; Charles F Zorumski; Slobodan M Todorovic
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9.  Functional characterization and analgesic effects of mixed cannabinoid receptor/T-type channel ligands.

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10.  Isoflurane causes concentration-dependent inhibition of medullary raphé 5-HT neurons in situ.

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