1. The electrophysiological effects of a pumiliotoxin-B-like alkaloid extracted from the skin of the Australian frog Pseudophryine coriacea (PsC) have been studied in rat superior cervical ganglia at 37-degrees-C. 2. PsC (50 mg/ml) elicits a broadening of the evoked compound action potential and, at rest, the appearance of spontaneous spike discharge at 10-20 Hz. Action potentials presumably originate far away from the soma, which is invaded in a typical IS-SD sequence. 3. The toxin effect is not related to any direct action on the preganglionic fibers of the sympathetic trunk, and does not involve synaptic mechanisms. 4. Two-electrode voltage-clamp experiments showed that the main properties of the major voltage-dependent ionic currents are apparently unaffected by the toxin, while the cell input resistance is considerably reduced. 5. The data are consistent with the hypothesis that PsC elicits a cationic permeability increase generating a pacemaker current in a region close to the cell soma.
ELECTROPHYSIOLOGICAL EFFECTS OF A NEUROTOXIN EXTRACTED FROM THE SKIN OF THE AUSTRALIAN FROG PSEUDOPHRYNE-CORIACEA / Sacchi, O; Bardoni, Rita; Magherini, Pier Cosimo; Belluzzi, O.. - In: COMPARATIVE BIOCHEMISTRY AND PHYSIOLOGY. C, COMPARATIVE PHARMACOLOGY AND TOXICOLOGY. - ISSN 0742-8413. - STAMPA. - 103:(1992), pp. 291-297.
ELECTROPHYSIOLOGICAL EFFECTS OF A NEUROTOXIN EXTRACTED FROM THE SKIN OF THE AUSTRALIAN FROG PSEUDOPHRYNE-CORIACEA
BARDONI, Rita;MAGHERINI, Pier Cosimo;
1992
Abstract
1. The electrophysiological effects of a pumiliotoxin-B-like alkaloid extracted from the skin of the Australian frog Pseudophryine coriacea (PsC) have been studied in rat superior cervical ganglia at 37-degrees-C. 2. PsC (50 mg/ml) elicits a broadening of the evoked compound action potential and, at rest, the appearance of spontaneous spike discharge at 10-20 Hz. Action potentials presumably originate far away from the soma, which is invaded in a typical IS-SD sequence. 3. The toxin effect is not related to any direct action on the preganglionic fibers of the sympathetic trunk, and does not involve synaptic mechanisms. 4. Two-electrode voltage-clamp experiments showed that the main properties of the major voltage-dependent ionic currents are apparently unaffected by the toxin, while the cell input resistance is considerably reduced. 5. The data are consistent with the hypothesis that PsC elicits a cationic permeability increase generating a pacemaker current in a region close to the cell soma.
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