Aconitum sp. alkaloids: The modulation of voltage-dependent Na+ channels, toxicity and antinociceptive properties

Jutta Friese; Johannes Gleitz; Ulrike T. Gutser; Jürgen F. Heubach; Theo Matthiesen; Bob Wilffert; Norma Selve

doi:10.1016/S0014-2999(97)01268-5

Aconitum sp. alkaloids: The modulation of voltage-dependent Na+ channels, toxicity and antinociceptive properties

Jutta Friese^*, Johannes Gleitz, Ulrike T. Gutser, Jürgen F. Heubach, Theo Matthiesen, Bob Wilffert, Norma Selve

^*Corresponding author for this work

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

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Abstract

Alkaloids from Aconitum sp., used as analgesics in traditional Chinese medicine, were investigated to elucidate their antinociceptive and toxic properties considering: (1) binding to Na+ channel epitope site 2, (2) alterations in synaptosomal Na+ and Ca2+ concentration ([Na+](i), [Ca2+](i)), (3) arrhythmogenic action of isolated atria, (4) antinociceptive and (5) acute toxic action In mice. The study revealed a high affinity group (K-i 1 mu M) and a low affinity group (K-i 10 mu M) of alkaloids binding to site 2. The compounds of the high affinity group induce an increase in synaptosomal [Na+](i) and [Ca2+](i) (EC50 3 mu M), are antinociceptive (ED50, 25 mu g/kg), provoke tachyarrhythmia and are highly toxic (LD50 70 mu g/kg), whereas low affinity alkaloids reduce [Ca2+](i), induce bradycardia and are less antinociceptive (ED50 20 mg/kg) and less toxic (LD50 30 mg/kg). These results suggest that the alkaloids can be grouped in Na+ channel activating and blocking compounds, but none of the alkaloids seem to be suitable as analgesics because of the low LD50/ED50 values. (C) 1997 Elsevier Science B.V.

Original language	English
Pages (from-to)	165-174
Number of pages	10
Journal	European Journal of Pharmacology
Volume	337
Issue number	2-3
DOIs	https://doi.org/10.1016/S0014-2999(97)01268-5
Publication status	Published - 22-Oct-1997
Externally published	Yes

Keywords

Aconitum alkaloid
Antinociception
Na+channel
Toxicity
aconitine
alkaloid
analgesic agent
mesaconitine
sodium channel
animal experiment
animal model
antinociception
article
Chinese medicine
controlled study
drug effect
drug toxicity
male
nonhuman
priority journal
rat

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title = "Aconitum sp. alkaloids: The modulation of voltage-dependent Na+ channels, toxicity and antinociceptive properties",

abstract = "Alkaloids from Aconitum sp., used as analgesics in traditional Chinese medicine, were investigated to elucidate their antinociceptive and toxic properties considering: (1) binding to Na+ channel epitope site 2, (2) alterations in synaptosomal Na+ and Ca2+ concentration ([Na+](i), [Ca2+](i)), (3) arrhythmogenic action of isolated atria, (4) antinociceptive and (5) acute toxic action In mice. The study revealed a high affinity group (K-i 1 mu M) and a low affinity group (K-i 10 mu M) of alkaloids binding to site 2. The compounds of the high affinity group induce an increase in synaptosomal [Na+](i) and [Ca2+](i) (EC50 3 mu M), are antinociceptive (ED50, 25 mu g/kg), provoke tachyarrhythmia and are highly toxic (LD50 70 mu g/kg), whereas low affinity alkaloids reduce [Ca2+](i), induce bradycardia and are less antinociceptive (ED50 20 mg/kg) and less toxic (LD50 30 mg/kg). These results suggest that the alkaloids can be grouped in Na+ channel activating and blocking compounds, but none of the alkaloids seem to be suitable as analgesics because of the low LD50/ED50 values. (C) 1997 Elsevier Science B.V.",

keywords = "Aconitum alkaloid, Antinociception, Na+channel, Toxicity, aconitine, alkaloid, analgesic agent, mesaconitine, sodium channel, animal experiment, animal model, antinociception, article, Chinese medicine, controlled study, drug effect, drug toxicity, male, nonhuman, priority journal, rat",

author = "Jutta Friese and Johannes Gleitz and Gutser, {Ulrike T.} and Heubach, {J{\"u}rgen F.} and Theo Matthiesen and Bob Wilffert and Norma Selve",

year = "1997",

month = oct,

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doi = "10.1016/S0014-2999(97)01268-5",

language = "English",

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T1 - Aconitum sp. alkaloids

T2 - The modulation of voltage-dependent Na+ channels, toxicity and antinociceptive properties

AU - Friese, Jutta

AU - Gleitz, Johannes

AU - Gutser, Ulrike T.

AU - Heubach, Jürgen F.

AU - Matthiesen, Theo

AU - Wilffert, Bob

AU - Selve, Norma

PY - 1997/10/22

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N2 - Alkaloids from Aconitum sp., used as analgesics in traditional Chinese medicine, were investigated to elucidate their antinociceptive and toxic properties considering: (1) binding to Na+ channel epitope site 2, (2) alterations in synaptosomal Na+ and Ca2+ concentration ([Na+](i), [Ca2+](i)), (3) arrhythmogenic action of isolated atria, (4) antinociceptive and (5) acute toxic action In mice. The study revealed a high affinity group (K-i 1 mu M) and a low affinity group (K-i 10 mu M) of alkaloids binding to site 2. The compounds of the high affinity group induce an increase in synaptosomal [Na+](i) and [Ca2+](i) (EC50 3 mu M), are antinociceptive (ED50, 25 mu g/kg), provoke tachyarrhythmia and are highly toxic (LD50 70 mu g/kg), whereas low affinity alkaloids reduce [Ca2+](i), induce bradycardia and are less antinociceptive (ED50 20 mg/kg) and less toxic (LD50 30 mg/kg). These results suggest that the alkaloids can be grouped in Na+ channel activating and blocking compounds, but none of the alkaloids seem to be suitable as analgesics because of the low LD50/ED50 values. (C) 1997 Elsevier Science B.V.

AB - Alkaloids from Aconitum sp., used as analgesics in traditional Chinese medicine, were investigated to elucidate their antinociceptive and toxic properties considering: (1) binding to Na+ channel epitope site 2, (2) alterations in synaptosomal Na+ and Ca2+ concentration ([Na+](i), [Ca2+](i)), (3) arrhythmogenic action of isolated atria, (4) antinociceptive and (5) acute toxic action In mice. The study revealed a high affinity group (K-i 1 mu M) and a low affinity group (K-i 10 mu M) of alkaloids binding to site 2. The compounds of the high affinity group induce an increase in synaptosomal [Na+](i) and [Ca2+](i) (EC50 3 mu M), are antinociceptive (ED50, 25 mu g/kg), provoke tachyarrhythmia and are highly toxic (LD50 70 mu g/kg), whereas low affinity alkaloids reduce [Ca2+](i), induce bradycardia and are less antinociceptive (ED50 20 mg/kg) and less toxic (LD50 30 mg/kg). These results suggest that the alkaloids can be grouped in Na+ channel activating and blocking compounds, but none of the alkaloids seem to be suitable as analgesics because of the low LD50/ED50 values. (C) 1997 Elsevier Science B.V.

KW - Aconitum alkaloid

KW - Antinociception

KW - Na+channel

KW - Toxicity

KW - aconitine

KW - alkaloid

KW - analgesic agent

KW - mesaconitine

KW - sodium channel

KW - animal experiment

KW - animal model

KW - antinociception

KW - article

KW - Chinese medicine

KW - controlled study

KW - drug effect

KW - drug toxicity

KW - male

KW - nonhuman

KW - priority journal

KW - rat

U2 - 10.1016/S0014-2999(97)01268-5

DO - 10.1016/S0014-2999(97)01268-5

M3 - Article

SN - 0014-2999

VL - 337

SP - 165

EP - 174

JO - European Journal of Pharmacology

JF - European Journal of Pharmacology

IS - 2-3

ER -

Aconitum sp. alkaloids: The modulation of voltage-dependent Na+ channels, toxicity and antinociceptive properties

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