Effects of the venom of Philanthus triangulum F. (Hym. sphecidae) and β‐ and δ‐philanthotoxin on axonal excitability and synaptic transmission in the cockroach CNS

Tom Piek; Bernard Hue; Marcel Pelhate; Jonathan A. David; Willem Spanjer; Robin D. Veldsema‐Currie

Effects of the venom of Philanthus triangulum F. (Hym. sphecidae) and β‐ and δ‐philanthotoxin on axonal excitability and synaptic transmission in the cockroach CNS

Tom Piek^*, Bernard Hue, Marcel Pelhate, Jonathan A. David, Willem Spanjer, Robin D. Veldsema‐Currie

^*Corresponding author for this work

School of Biology

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

This paper provides answers to the questions which of the toxins present in the venom of the wasp Philanthus triangulum may be responsible for the previously reported blockage of transmission through the sixth abdominal ganglion of the cockroach, and whether this may occur by block of synaptic transmission or by affecting axonal exitability. In current clamp experiments the crude venom induces a slight depolarization of the membrane of the giant axon from the sixth abdominal ganglion of the cockroach and a small and irreversible decrease in the amplitude of the action potential. These marginal effects are not seen with relatively high concentrations of the philanthotoxins β‐PTX and δ‐PTX. It appears that neither the crude venom nor the toxins significantly affect the excitability of the cockroach giant axon. At a concentration of 20 μg ml⁻¹ δ‐PTX causes a slowly reversible block of synaptic transmission from the cercal nerve XI to a giant interneuron without any change in resting membrane potential, whereas β‐PTX is inactive. Iontophoretically evoked acetylcholine potentials of the giant neuron are more sensitive to δ‐PTX than excitatory postsynaptic potentials. This suggests that the toxin acts on the postsynaptic membrane.

Original language	English
Title of host publication	Proc. 5th European Symposium on Animal, Plant and Microbial Toxins
Editors	D. Mebs , G. Habermehl
Pages	86
Publication status	Published - 1983

Publication series

Name	Archives of Insect Biochemistry and Physiology
ISSN (Print)	0739-4462

Keywords

ACh‐iontophoresis
axonal excitability
Periplaneta americana CNS
synaptic transmission
β‐ and δ‐philanthotoxin

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Piek, T., Hue, B., Pelhate, M., David, J. A., Spanjer, W., & Veldsema‐Currie, R. D. (1983). Effects of the venom of Philanthus triangulum F. (Hym. sphecidae) and β‐ and δ‐philanthotoxin on axonal excitability and synaptic transmission in the cockroach CNS. In D. Mebs , & G. Habermehl (Eds.), Proc. 5th European Symposium on Animal, Plant and Microbial Toxins (pp. 86). (Archives of Insect Biochemistry and Physiology).

Piek, Tom ; Hue, Bernard ; Pelhate, Marcel et al. / Effects of the venom of Philanthus triangulum F. (Hym. sphecidae) and β‐ and δ‐philanthotoxin on axonal excitability and synaptic transmission in the cockroach CNS. Proc. 5th European Symposium on Animal, Plant and Microbial Toxins . editor / D. Mebs ; G. Habermehl. 1983. pp. 86 (Archives of Insect Biochemistry and Physiology).

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title = "Effects of the venom of Philanthus triangulum F. (Hym. sphecidae) and β‐ and δ‐philanthotoxin on axonal excitability and synaptic transmission in the cockroach CNS",

abstract = "This paper provides answers to the questions which of the toxins present in the venom of the wasp Philanthus triangulum may be responsible for the previously reported blockage of transmission through the sixth abdominal ganglion of the cockroach, and whether this may occur by block of synaptic transmission or by affecting axonal exitability. In current clamp experiments the crude venom induces a slight depolarization of the membrane of the giant axon from the sixth abdominal ganglion of the cockroach and a small and irreversible decrease in the amplitude of the action potential. These marginal effects are not seen with relatively high concentrations of the philanthotoxins β‐PTX and δ‐PTX. It appears that neither the crude venom nor the toxins significantly affect the excitability of the cockroach giant axon. At a concentration of 20 μg ml−1 δ‐PTX causes a slowly reversible block of synaptic transmission from the cercal nerve XI to a giant interneuron without any change in resting membrane potential, whereas β‐PTX is inactive. Iontophoretically evoked acetylcholine potentials of the giant neuron are more sensitive to δ‐PTX than excitatory postsynaptic potentials. This suggests that the toxin acts on the postsynaptic membrane.",

keywords = "ACh‐iontophoresis, axonal excitability, Periplaneta americana CNS, synaptic transmission, β‐ and δ‐philanthotoxin",

author = "Tom Piek and Bernard Hue and Marcel Pelhate and David, {Jonathan A.} and Willem Spanjer and Veldsema‐Currie, {Robin D.}",

year = "1983",

language = "English",

series = "Archives of Insect Biochemistry and Physiology",

pages = "86",

editor = "{Mebs }, {D. } and Habermehl, {G. }",

booktitle = "Proc. 5th European Symposium on Animal, Plant and Microbial Toxins",

}

Piek, T, Hue, B, Pelhate, M, David, JA, Spanjer, W & Veldsema‐Currie, RD 1983, Effects of the venom of Philanthus triangulum F. (Hym. sphecidae) and β‐ and δ‐philanthotoxin on axonal excitability and synaptic transmission in the cockroach CNS. in D Mebs & G Habermehl (eds), Proc. 5th European Symposium on Animal, Plant and Microbial Toxins . Archives of Insect Biochemistry and Physiology, pp. 86.

Effects of the venom of Philanthus triangulum F. (Hym. sphecidae) and β‐ and δ‐philanthotoxin on axonal excitability and synaptic transmission in the cockroach CNS. / Piek, Tom; Hue, Bernard; Pelhate, Marcel et al.
Proc. 5th European Symposium on Animal, Plant and Microbial Toxins . ed. / D. Mebs ; G. Habermehl. 1983. p. 86 (Archives of Insect Biochemistry and Physiology).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

TY - GEN

T1 - Effects of the venom of Philanthus triangulum F. (Hym. sphecidae) and β‐ and δ‐philanthotoxin on axonal excitability and synaptic transmission in the cockroach CNS

AU - Piek, Tom

AU - Hue, Bernard

AU - Pelhate, Marcel

AU - David, Jonathan A.

AU - Spanjer, Willem

AU - Veldsema‐Currie, Robin D.

PY - 1983

Y1 - 1983

N2 - This paper provides answers to the questions which of the toxins present in the venom of the wasp Philanthus triangulum may be responsible for the previously reported blockage of transmission through the sixth abdominal ganglion of the cockroach, and whether this may occur by block of synaptic transmission or by affecting axonal exitability. In current clamp experiments the crude venom induces a slight depolarization of the membrane of the giant axon from the sixth abdominal ganglion of the cockroach and a small and irreversible decrease in the amplitude of the action potential. These marginal effects are not seen with relatively high concentrations of the philanthotoxins β‐PTX and δ‐PTX. It appears that neither the crude venom nor the toxins significantly affect the excitability of the cockroach giant axon. At a concentration of 20 μg ml−1 δ‐PTX causes a slowly reversible block of synaptic transmission from the cercal nerve XI to a giant interneuron without any change in resting membrane potential, whereas β‐PTX is inactive. Iontophoretically evoked acetylcholine potentials of the giant neuron are more sensitive to δ‐PTX than excitatory postsynaptic potentials. This suggests that the toxin acts on the postsynaptic membrane.

AB - This paper provides answers to the questions which of the toxins present in the venom of the wasp Philanthus triangulum may be responsible for the previously reported blockage of transmission through the sixth abdominal ganglion of the cockroach, and whether this may occur by block of synaptic transmission or by affecting axonal exitability. In current clamp experiments the crude venom induces a slight depolarization of the membrane of the giant axon from the sixth abdominal ganglion of the cockroach and a small and irreversible decrease in the amplitude of the action potential. These marginal effects are not seen with relatively high concentrations of the philanthotoxins β‐PTX and δ‐PTX. It appears that neither the crude venom nor the toxins significantly affect the excitability of the cockroach giant axon. At a concentration of 20 μg ml−1 δ‐PTX causes a slowly reversible block of synaptic transmission from the cercal nerve XI to a giant interneuron without any change in resting membrane potential, whereas β‐PTX is inactive. Iontophoretically evoked acetylcholine potentials of the giant neuron are more sensitive to δ‐PTX than excitatory postsynaptic potentials. This suggests that the toxin acts on the postsynaptic membrane.

KW - ACh‐iontophoresis

KW - axonal excitability

KW - Periplaneta americana CNS

KW - synaptic transmission

KW - β‐ and δ‐philanthotoxin

M3 - Conference contribution

T3 - Archives of Insect Biochemistry and Physiology

SP - 86

BT - Proc. 5th European Symposium on Animal, Plant and Microbial Toxins

A2 - Mebs , D.

A2 - Habermehl, G.

ER -

Piek T, Hue B, Pelhate M, David JA, Spanjer W, Veldsema‐Currie RD. Effects of the venom of Philanthus triangulum F. (Hym. sphecidae) and β‐ and δ‐philanthotoxin on axonal excitability and synaptic transmission in the cockroach CNS. In Mebs D, Habermehl G, editors, Proc. 5th European Symposium on Animal, Plant and Microbial Toxins . 1983. p. 86. (Archives of Insect Biochemistry and Physiology).

Effects of the venom of Philanthus triangulum F. (Hym. sphecidae) and β‐ and δ‐philanthotoxin on axonal excitability and synaptic transmission in the cockroach CNS

Abstract

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Keywords

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