electrophysiological study of susceptible (Cooper) and resistant (kdr; super-kdr) strains of the adult housefly (Musca domestica L.) using an isolated mesothoracic leg preparation

electrophysiological study of susceptible (Cooper) and resistant (kdr; super-kdr) strains of the adult housefly (Musca domestica L.) using an isolated mesothoracic leg preparation

Sensory fibres in the isolated metathoracic leg of houseflies were used as a neurophysiological assay to investigate nerve insensitivity factors in knockdown-resistant strains (kdr, super-kdr) against DDT, the pyrethroids delamethrin and RU15525, and the N-alkyl amide BTG502. Several neurophysiologi...

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Veröffentlicht in:Pesticide science 1991, Vol.30 (4), p.379-396
Hauptverfasser: Gibson, A.J, Osborne, M.P, Ross, H.F
Format: Artikel
Sprache:eng
Schlagworte:
bioassays
DDT (pesticide)
deltamethrin
insecticide resistance
Musca domestica
n-alkyl amide btg502
neurophysiology
pyrethroid insecticides
ru15525
stains
strain differences
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creator Gibson, A.J
Osborne, M.P
Ross, H.F
description Sensory fibres in the isolated metathoracic leg of houseflies were used as a neurophysiological assay to investigate nerve insensitivity factors in knockdown-resistant strains (kdr, super-kdr) against DDT, the pyrethroids delamethrin and RU15525, and the N-alkyl amide BTG502. Several neurophysiological effects were induced by these compounds, but the only consistent one was an elevation of the spontaneously occuring firing rate. Whilst both resistant strains possess a nerve insensitivity factor, that of the more resistant super-kdr flies appeared to be weaker than that of kdr. When probed with BTG502, super-kdr nerves were no more resistant to this compound than those of the susceptible Cooper strain. Kdr nerves were considerably less sensitive (at least 100-fold) than either of these other two strains. These results indicate that the voltage-dependent sodium channels are different in all three strains and that the higher resistance shown by super-kdr over kdr flies cannot be accounted for by simple enhancement of the kdr nerve-insensitivity factor. Therefore, target sites other than the voltage-dependent sodium channel have to be considered to account fully for super-kdr resistance. Such sites could occur at synaptic contacts, possibly involving phosphorylation of proteins and/or calcium-ion regulation.
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Several neurophysiological effects were induced by these compounds, but the only consistent one was an elevation of the spontaneously occuring firing rate. Whilst both resistant strains possess a nerve insensitivity factor, that of the more resistant super-kdr flies appeared to be weaker than that of kdr. When probed with BTG502, super-kdr nerves were no more resistant to this compound than those of the susceptible Cooper strain. Kdr nerves were considerably less sensitive (at least 100-fold) than either of these other two strains. These results indicate that the voltage-dependent sodium channels are different in all three strains and that the higher resistance shown by super-kdr over kdr flies cannot be accounted for by simple enhancement of the kdr nerve-insensitivity factor. Therefore, target sites other than the voltage-dependent sodium channel have to be considered to account fully for super-kdr resistance. 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Several neurophysiological effects were induced by these compounds, but the only consistent one was an elevation of the spontaneously occuring firing rate. Whilst both resistant strains possess a nerve insensitivity factor, that of the more resistant super-kdr flies appeared to be weaker than that of kdr. When probed with BTG502, super-kdr nerves were no more resistant to this compound than those of the susceptible Cooper strain. Kdr nerves were considerably less sensitive (at least 100-fold) than either of these other two strains. These results indicate that the voltage-dependent sodium channels are different in all three strains and that the higher resistance shown by super-kdr over kdr flies cannot be accounted for by simple enhancement of the kdr nerve-insensitivity factor. Therefore, target sites other than the voltage-dependent sodium channel have to be considered to account fully for super-kdr resistance. Such sites could occur at synaptic contacts, possibly involving phosphorylation of proteins and/or calcium-ion regulation.</abstract></addata></record>
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source Wiley Online Library
subjects bioassays
DDT (pesticide)
deltamethrin
insecticide resistance
Musca domestica
n-alkyl amide btg502
neurophysiology
pyrethroid insecticides
ru15525
stains
strain differences
title electrophysiological study of susceptible (Cooper) and resistant (kdr; super-kdr) strains of the adult housefly (Musca domestica L.) using an isolated mesothoracic leg preparation
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