No evidence for specific opioid effects on batrachotoxin-modified sodium channels from human brain synaptosomes

Christian Frenkel; Alexander Gerhard; Hans C. Wartenberg; Benno Rehberg; Bernd W. Urban

doi:10.1016/S0304-3940(97)00408-4

No evidence for specific opioid effects on batrachotoxin-modified sodium channels from human brain synaptosomes

Christian Frenkel, Alexander Gerhard, Hans C. Wartenberg, Benno Rehberg, Bernd W. Urban

Research output: Contribution to journal › Article › peer-review

Abstract

Human central nervous system (CNS) sodium channels modified by batrachotoxin and incorporated inter voltage-clamped lipid bilayers, were exposed to various concentrations of the opioid alfentanil (0.2-8.0 mM). Alfentanil caused a concentration-dependent and membrane potential independent reduction of the single channel amplitude and the fractional channel open-time. The weighted computer fit of the dose-response curve yielded a maximal conductance block of 50% with an EC50 of 1.3 mM. These effects occurred at levels beyond clinically relevant human serum/brain levels (0.003 mM) but within the predicted concentration range using the Meyer-Overton (lipid solubility/anaesthetic potency) correlation. Thus, human CNS sodium channels are probably not a main target site for the clinical effects of alfentanil but they provide a model system to estimate the proportion of the lipophilic interactions contributing to its overall effect.

Original language	English
Pages (from-to)	41-44
Number of pages	3
Journal	Neuroscience letters
Volume	229
Issue number	1
DOIs	https://doi.org/10.1016/S0304-3940(97)00408-4
Publication status	Published - 20 Jun 1997

Keywords

Alfentanil
Anaesthesia
Human brain
Lipid bilayer
Mechanism of action
Opioid
Voltage- clamp

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10.1016/S0304-3940(97)00408-4

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title = "No evidence for specific opioid effects on batrachotoxin-modified sodium channels from human brain synaptosomes",

abstract = "Human central nervous system (CNS) sodium channels modified by batrachotoxin and incorporated inter voltage-clamped lipid bilayers, were exposed to various concentrations of the opioid alfentanil (0.2-8.0 mM). Alfentanil caused a concentration-dependent and membrane potential independent reduction of the single channel amplitude and the fractional channel open-time. The weighted computer fit of the dose-response curve yielded a maximal conductance block of 50% with an EC50 of 1.3 mM. These effects occurred at levels beyond clinically relevant human serum/brain levels (0.003 mM) but within the predicted concentration range using the Meyer-Overton (lipid solubility/anaesthetic potency) correlation. Thus, human CNS sodium channels are probably not a main target site for the clinical effects of alfentanil but they provide a model system to estimate the proportion of the lipophilic interactions contributing to its overall effect.",

keywords = "Alfentanil, Anaesthesia, Human brain, Lipid bilayer, Mechanism of action, Opioid, Voltage- clamp",

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T1 - No evidence for specific opioid effects on batrachotoxin-modified sodium channels from human brain synaptosomes

AU - Frenkel, Christian

AU - Gerhard, Alexander

AU - Wartenberg, Hans C.

AU - Rehberg, Benno

AU - Urban, Bernd W.

PY - 1997/6/20

Y1 - 1997/6/20

N2 - Human central nervous system (CNS) sodium channels modified by batrachotoxin and incorporated inter voltage-clamped lipid bilayers, were exposed to various concentrations of the opioid alfentanil (0.2-8.0 mM). Alfentanil caused a concentration-dependent and membrane potential independent reduction of the single channel amplitude and the fractional channel open-time. The weighted computer fit of the dose-response curve yielded a maximal conductance block of 50% with an EC50 of 1.3 mM. These effects occurred at levels beyond clinically relevant human serum/brain levels (0.003 mM) but within the predicted concentration range using the Meyer-Overton (lipid solubility/anaesthetic potency) correlation. Thus, human CNS sodium channels are probably not a main target site for the clinical effects of alfentanil but they provide a model system to estimate the proportion of the lipophilic interactions contributing to its overall effect.

AB - Human central nervous system (CNS) sodium channels modified by batrachotoxin and incorporated inter voltage-clamped lipid bilayers, were exposed to various concentrations of the opioid alfentanil (0.2-8.0 mM). Alfentanil caused a concentration-dependent and membrane potential independent reduction of the single channel amplitude and the fractional channel open-time. The weighted computer fit of the dose-response curve yielded a maximal conductance block of 50% with an EC50 of 1.3 mM. These effects occurred at levels beyond clinically relevant human serum/brain levels (0.003 mM) but within the predicted concentration range using the Meyer-Overton (lipid solubility/anaesthetic potency) correlation. Thus, human CNS sodium channels are probably not a main target site for the clinical effects of alfentanil but they provide a model system to estimate the proportion of the lipophilic interactions contributing to its overall effect.

KW - Alfentanil

KW - Anaesthesia

KW - Human brain

KW - Lipid bilayer

KW - Mechanism of action

KW - Opioid

KW - Voltage- clamp

U2 - 10.1016/S0304-3940(97)00408-4

DO - 10.1016/S0304-3940(97)00408-4

M3 - Article

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VL - 229

SP - 41

EP - 44

JO - Neuroscience letters

JF - Neuroscience letters

IS - 1

ER -

No evidence for specific opioid effects on batrachotoxin-modified sodium channels from human brain synaptosomes

Abstract

Keywords

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