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Processing of tetanus and botulinum A neurotoxins in isolated chromaffin cells (1995)

Erdal, E. ; Bartels, F. ; Binscheck, T. ; [et al.]

Springer

Naunyn-Schmiedeberg's archives of pharmacology 351 (1995), S. 67-78

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ISSN: 1432-1912

Keywords: Chromaffin cells ; Clostridial toxins Electroporation ; Exocytosis ; Capacity measurement

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Tetanus and botulinum A neurotoxins were introduced into the cytosol of chromaffin cells by means of an electric field in which the plasma membrane is forced to form pores of approximately 1 μm at the sites facing the electrodes. As demonstrated by electron microscopy, both [125I] and gold-labelled tetanus toxin (TeTx) diffuse through these transient openings. Dichain TeTx, with its light chain linked to the heavy chain by means of a disulfide bond, causes the block of exocytosis to develop more slowly than does the purified light chain. The disulfide bonds, which in both toxins hold the subunits together, were cleaved by the intrinsic thioredoxin-reductase system. Single chain TeTx, in which the heavy and light chains are interconnected by an additional peptide bond, was far less effective than dichain TeTx at blocking exocytosis, which indicates that proteolysis is the rate-limiting step. The toxins were degraded further to low-molecular weight fragments which, together with intact toxins and subunits, were released by the cells. The intracellular half-life of [125 I] dichain TeTx was approximately three days. The number of light-chain molecules required to maintain exocytosis block in a single cell, as calculated by two different methods, was less than 10. The long duration of tetanus poisoning may result from the persistence of intracellular toxin due to a scarcity of free cytosolic proteases. This may also hold for the slow recovery from botulism.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00169066

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Distinct targets for tetanus and botulinum A neurotoxins within the signal transducing pathway in chromaffin cells (1991)

Marxen, P. ; Bartels, F. ; Ahnert-Hilger, G. ; [et al.]

Springer

Naunyn-Schmiedeberg's archives of pharmacology 344 (1991), S. 387-395

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ISSN: 1432-1912

Keywords: α-Toxin ; Proteinkinase C ; Exocytosis ; G-Proteins ; Cyclic nucleotides

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Tetanus and botulinum A neurotoxins inhibited exocytosis evolved by various secretagogues in intact and permeabilized chromaffin cells. The block of exocytosis in intact chromaffm cells due to botulinum A neurotoxin could partially be overcome by enhancing nicotine- and veratridine-induced stimulation, whereas the block due to tetanus toxin persisted under the same conditions. The receptor-mediated restoration of 3H-noradrenaline release was specific for nicotinic stimulation, because exocytosis did not occur during muscarinic stimulation. Depolarization of intact chromaffin cells with increasing concentration of K+ failed to restore exocytosis that had been blocked by either toxin. When chromaffin cells, treated with tetanus or botulinum A neurotoxins, were exposed to the Ca2+-ionophore A 23187 or permeabilized by staphylococcal α-toxin, Ca2+-stimulated exocytosis was also inhibited. The inhibition was unaffected by increasing concentrations of free Ca2+. Activation of proteinkinase C and of G-proteins by phorbolester and GMPPNHP, respectively, increased Ca2+-induced exocytosis in control cells as well as in cells treated with tetanus and botulinum A neurotoxins. The block, however, could not be relieved by these manipulations, and it could not be relieved by activating the cGMP or cAMP pathways with analoga of cyclic nucleotides, phosphodiesterases inhibitors, and forskolin either. It is concluded that nicotine and veratridine trigger a mechanism within the sequence of events leading to exocytosis that is located beyond the increase in intracellular Ca2+-concentration. This pathway may not be affected by botulinum A neurotoxin. The target of tetanus toxin is probably located even closer to the fusion process, i. e. beyond the step upon which botulinum A neurotoxin acts.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00172577

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