Apamin: a specific toxin to study a class of Ca2+-dependent K+ channels.

Apamin is a bee venom neurotoxin of 18 amino-acids containing two disulfide bridges. Current clamp and voltage clamp experiments have shown that externally applied apamin blocks specifically at low concentration (0.1 microM) the Ca2+-dependent slow K+ conductance which mediates the long-lasting after-hyperpolarization in neuroblastoma cells and rat muscle cells in culture. The apamin-sensitive Ca2+-dependent slow K+ conductance is voltage-dependent and tetraethylammonium (TEA) insensitive. It is distinct from the high conductance Ca2+-dependent K+ channel revealed by patch clamp experiments. Biochemical characterization of the apamin receptor in rat striated muscle, neuroblastoma cells, rat synaptosomes, smooth muscles and hepatocytes was carried out with the use of a radiolabelled monoiodo-apamin derivative (125I-apamin) of high specific radioactivity (2 000 Ci/mmol). The dissociation constant of the apamin-receptor complex is between 15 and 60 pM for all tissue preparations. The density of binding sites is very low; it varied between 1 and 40 fmol/mg of protein. Radiation inactivation analysis indicates a molecular weight for the apamin receptor of 250 000 daltons whereas affinity labelling with 125I-apamin results in covalent labelling of a single polypeptide chain with a molecular weight of about 30 000 daltons. We conclude that the apamin-sensitive Ca2+-dependent K+ channel is probably a large oligomeric structure containing one subunit of 30 000 daltons.