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1

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Tetanus toxin and botulinum a toxin inhibit acetylcholine release from but not calcium uptake into brain tissue (1981)

Bigalke, H. ; Ahnert-Hilger, Gudrun ; Habermann, E.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 316 (1981), S. 143-148

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ISSN: 1432-1912

Keywords: Tetanus toxin ; Botulinum toxin ; Acetylcholine ; Calcium ; Brain

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Slices or particles from rat forebrain cortex were preloaded with [3H]choline, and the release of [3H]acetylcholine was evoked with potassium ions in a superfusion system. Release depended on the presence of calcium. 1. Incubation of the preloaded tissue preparation for 2 h with tetanus or botulinum A toxin did not change the [3H]acetylcholine content or the ratio [3H]acetylcholine/[3H]choline. Tetanus toxin diminished, dependent on dose and time, the release of [3H]acetylcholine evoked by 25 mM K+. It was about ten times more potent than botulinum A toxin. The effect of botulinum toxin was due to its neurotoxin content. Raising the potassium concentration partially overcame the inhibition by the toxins. Hemicholinium-3, applied to preloaded slices, left the subsequent [3H]acetylcholine release unchanged. Pretreatment of particles with neuraminidase diminished the content of long-chain gangliosides to the detection limit. Such particles remained fully sensitive to tetanus toxin, and at least partially sensitive to botulinum A toxin. 2. The potassium or sea anemone toxin II stimulated uptake of 45Ca2+ into cortex synaptosomes or particles was not inhibited by either toxin. Both toxins appear to impede the Ca2+-dependent mobilization of an easily releasable acetylcholine pool, without inhibiting the transmembranal calcium fluxes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00505308

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2

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The action of palytoxin on erythrocytes and resealed ghosts (1983)

Chhatwal, G. S. ; Hessler, H.-J. ; Habermann, E.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 323 (1983), S. 261-268

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ISSN: 1432-1912

Keywords: Palytoxin ; Erythrocyte ; Membrane ; Na+, K+-ATPase ; Calcium ; Ouabain

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Palytoxin increases the permeability of human erythrocytes and their resealed ghosts. To elucidate its mode of action the activation by ATP and Ca2+, the inhibition by ouabain, and the changes in permselectivity have been studied: 1. Depletion of cells from ATP considerably depresses their sensitivity towards palytoxin. Ouabain prevents the actions of the toxin, however, with different inhibition characteristics in normal and depleted cells. The concentration of palytoxin required to raise the K+ permeability is higher in ghosts than in erythrocytes. The sensitivity is restored by incorporating ATP which can be partially substituted by ADP and GTP but not by AMP, Pi, β-γ-methylene adenosine 5′-triphosphate or the chromium (III) complex of ATP. Ouabain inhibits the K+ release from resealed ghosts in the presence as well as absence of ATP. Ouabain also inhibits the palytoxin-triggered Na+ and choline efflux into Na+ medium, as well as the Na+, K+ and choline efflux into choline medium. Phosphate promotes the inhibitory action of ouabain. Incorporated vanadate or Mg2+ do not change the sensitivity of ghosts toward palytoxin. 2. External calcium down to 10 μM potentiates the action of palytoxin in ghosts resealed with or without ATP. In contrast to calcium ionophore A23187, palytoxin does not raise the influx of Ca2+. 3. Palytoxin triggers the formation of small pores in resealed ghosts. The efflux into Na+ medium decreases in the order K+≧Na+〉[3H]choline≫[14C]inositol〉[14C]sucrose, [3H]inulin≅0. Our data suggest that palytoxin, once bound to erythrocyte membranes, transforms the sodium pump, or its functional vicinity, into a pore allowing the passive transport of small ions. This process is assisted by ATP from inside whereas Ca2+ promotes from the outside the efficacy of palytoxin.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00497672

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3

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Electrophysiological and neurobiochemical evidence for the blockade of a potassium channel by dendrotoxin (1985)

Weller, U. ; Bernhardt, U. ; Siemen, D. ; [et al.]

Springer

Naunyn-Schmiedeberg's archives of pharmacology 330 (1985), S. 77-83

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ISSN: 1432-1912

Keywords: Dendrotoxin ; Potassium channel ; Nerve fibre ; Depolarization ; GABA

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The effects of dendrotoxin (DTX), a toxic peptide from Dendroaspis angusticeps venom, were studied electrophysiologically on peripheral frog nerve fibres, and biochemically on large synaptosomes from rat brain. 1. On nerve fibres, DTX reduced the amplitude and prolonged the duration of the action potential; even at 0.1 nmol/l DTX produced significant effects. Maximum block of potassium currents occurred at about 30 nmol/l. Turning on of the remaining current was slowed. Reversibility was incomplete. The reduction of potassium currents was between 31% and 85% at 85 nmol/l DTX (n=8). The remainder appeared to be resistant to DTX. Sodium channels were not affected. 2. On large synaptosomes DTX (above 1 nmol/l) produced a slight depolarization, indicated by an outward shift of the lipophilic cation tetraphenylphosphonium, and promoted the release of radioactivity after preloading with [3H] GABA. DTX had similar potency but lower efficacy in this respect than sea anemone toxin II (ATX II). In contrast to the effects of ATX II, those due to DTX were only partially inhibited by tetrodotoxin. The actions of 4-aminopyridine resembled those of DTX, but the latter was about 500 times more potent. The electrophysiological data provide direct evidence for blockade of a potassium channel by DTX. This action is sufficient to explain the biochemical observations, although additional effects on synaptosomes cannot be excluded.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00499898

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4

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125I-labelled tetanus toxin as a neuronal marker in tissue cultures derived from embryonic CNS (1975)

Dimpfel, W. ; Neale, J. H. ; Habermann, E.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 290 (1975), S. 329-333

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ISSN: 1432-1912

Keywords: Tetanus Toxin ; Iodine Labelling ; Neurones ; Tissue Culture ; Autoradiography

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Primary cultures derived from embryonic mouse brain and spinal cord were exposed to 125I-labelled tetanus toxin and subjected to autoradiography. Cells with neuronal, but not glial, morphology selectively accumulated the toxin. The distribution of the grains over these cells and their processes was not uniform, discrete processes showing heavier labelling.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00510562

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Distribution of 125I-tetanus toxin and 125I-toxoid in rats with generalized tetanus, as influenced by antitoxin (1973)

Habermann, E. ; Dimpfel, W.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 276 (1973), S. 327-340

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ISSN: 1432-1912

Keywords: Tetanus Toxin ; Pharmacokinetics ; Central Nervous System ; Iodine Labelling ; Receptors

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary In order to understand the symptomatology of generalized tetanus from the pharmacokinetics of the toxin, 125I-labelled toxin was injected i.v. in rats without and with antitoxin. 1. After a few hours latency, brain stem and spinal cord concentrate radioactive material up to the third day. The decline of radioactivity is very slow, semilogarithmic, and can be followed up to the 24th day after injection. In contrast, forebrain and cerebellum do not bind measurable radioactivity. Less than 1% of the radioactivity injected is found in the CNS. 2. The symptoms of tetanus start some time after the bulk of labelled toxin has been taken up by the CNS. They cease before all radioactivity has left it. 3. Antitoxin, given simultaneously, prevents the onset of symptoms and the uptake of radioactivity by the CNS. When given 10 h after labelled toxin, it nearly abolishes the fixation and still prevents the onset of symptoms. When given 48 h after toxin, it is nearly ineffective in both respects. Antitoxin first delays, then enhances the elimination of labelled toxin from the blood. 4. Labelled antitoxin is not enriched in the CNS. 5. The uptake of radioactivity into various parts of spinal cord corresponds well to their relative content in grey matter. 6. The pharmacokinetic behaviour of 125I-toxoid resembles that of toxin. However, in order to get measurable fixation to the CNS at least 50 times higher amounts are to be applied. It is concluded that the barrier between blood and CNS is practically impermeable to tetanus toxin. The results can be harmonized best with the assumption that generalized tetanus is nothing else than a multiple local tetanus.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00499887

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6

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Interaction of labelled tetanus toxin and toxoid with substructures of rat brain and spinal cord in vitro (1973)

Habermann, E.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 276 (1973), S. 341-359

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ISSN: 1432-1912

Keywords: Tetanus Toxin ; Iodine Labelling ; Central Nervous System ; Receptors ; Antitoxin

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. Lyophilized homogenate of rat brain binds 125I-labelled tetanus toxin better than does homogenate from spinal cord. This is in contrast to the in vivo behaviour of the toxin where it is bound only to spinal cord. Liver homogenate does not fix the toxin. 2. Autoradiography of preincubated slices from spinal cord shows that the radioactivity is evenly and nearly exclusively bound to gray matter. 3. Maximally 40% of the labelled material interacts with brain homogenate. The toxicity of the remaining supernatant is much more reduced than is its radio-activity. 125I-toxoid, prepared from labelled toxin by treatment with formol, is bound only very weakly. Thus we assume that our toxin preparation is already partially toxoided, and that binding to CNS matter bears some relevance to toxicity. 4. The fixation of the labelled toxin is reversible. The degree of reversibility depends on the conditions used. Binding can be nearly completely reversed or prevented by treatment with antitoxin, but not more than 50% of the binding is reversed by treatment with unlabelled toxin. Repeated washings also remove the bulk of the initially bound toxin. Thus binding sites with different affinities are to be assumed. 5. A complex between ganglioside and cerebroside binds the labelled toxin more firmly than does brain homogenate. No competition between unlabelled and labelled toxin has been observed for this solid phase. Antitoxin nearly completely prevents and largely reverses the fixation of labelled toxin. 6. On the basis of the selective, competitive reactivity of labelled and unlabelled tetanus toxin with brain matter, a radio receptor assay has been developed. It can be used for the measurement of tetanus toxin down to 5 ng. 7. Gradient centrifugation of sucrose homogenates preincubated with labelled toxin reveals one peak of radioactivity in the fractions where the synaptosomes are to be expected; the larger part of the toxin remains, however, unevenly distributed near the starting volume. 8. Desoxycholate solubilizes the complex between labelled toxin and brain matter with parallel dissolution of brain proteins. 9. Neither brain nor spinal cord homogenates degrade labelled toxin into TCA-soluble fragments at pH 7.5. Partial degradation occurs, however, at pH 3.5.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00499888

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7

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Investigations on the mechanism of cyclic guanosine monophosphate increase due to depolarizing agents as studied with sea anemone toxin II in mouse cerebellar slices (1979)

Ahnert, Gudrun ; Glossmann, H. ; Habermann, E.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 307 (1979), S. 159-166

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ISSN: 1432-1912

Keywords: Sodium channel ; Calcium ; Cyclic GMP ; Cerebellum

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Sea anemone toxin II (ATX II) and MCD-peptide, like other depolarizing agents, raise the content of cGMP and to a lesser extent of cAMP in mouse cerebellar slices. Na+ influx and Ca2+ movement are involved in their mode of action, as indicated by the following observations: 1. The rise of cGMP due to ATX II, MCD-peptide and high potassium was diminished when Na+ had been replaced by Li+. 2. The effects of both toxins and veratridine, but not of high potassium stimulation were prevented by tetrodotoxin (TTX). 3. The cGMP accumulation due to both toxins was abolished in the absence of extracellular Ca2+. 4. The so-called Ca2+-antagonist (−)-D-600 blocked the increase of cGMP due to ATX II, MCD-peptide, veratridine and high potassium. 5. ATX II stimulated the 45Ca2+ uptake in mouse cerebellar slices which was prevented by TTX and (−)-D-600.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00498458

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Tetanus toxin blocks the neuromuscular transmission in vitro like botulinum a toxin (1980)

Habermann, E. ; Dreyer, F. ; Bigalke, H.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 311 (1980), S. 33-40

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ISSN: 1432-1912

Keywords: Tetanus toxin ; Botulinum toxin ; Neuromuscular junction ; Calcium ; Neuraminidase

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. The blocking effect of tetanus toxin on the neuromuscular junction of the mouse phrenic nervehemidiaphragm preparation exposed to the toxin (0.05–20 μg/ml) in the organ bath was studied and compared with the action of botulinum A toxin. 2. The time course of the paralysis of the diaphragm could be divided into a latent and a manifest period. Still during the latent period the effect of the toxin became progressively resistant to washing and, with some delay, to antitoxin. 3. Between 25 and 41°C the time until paralysis strongly depended on temperature with Q 10 of about 2.7. 4. Procedures increasing the transmitter release shortened, and procedures depressing it prolonged the time until paralysis. 5. 4-Aminopyridine and guanidine temporarily restored the contraction of the partially paralyzed diaphragm, indicating the persistence of activatable calcium and acetylcholine pools. Raising the external Ca2+-concentration and application of the Ca-Ionophore A 23187 were ineffective in the doses applied. 6. About 80 min after exposure to the toxin (10 μg/ml), the m.e.p.p. activity decreased by a factor of 30. Parallel to this, paralysis of nerve evoked muscle contraction developed. 7. Neuraminidase treatment did not prevent tetanus toxin poisoning. 8. The paralysis is produced by tetanus toxin itself and not by contaminants as shown by the parallel decrease of toxicity and paralysis following treatment with either antitoxin or brain homogenate, or by the use of spontaneously inactivated toxin. 9. Tetanus toxin was compared with botulinum A toxin as to the shape of its dose-response curve, time course of paralysis, temporary reversal by 4-aminopyridine and behaviour against Ca-ionophore. In any case, both toxins were indistinguishable, albeit botulinum A neurotoxin was calculated to be about 2000 times more potent than tetanus toxin.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00500299

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9

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Action and binding of palytoxin, as studied with brain membranes (1983)

Habermann, E.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 323 (1983), S. 269-275

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ISSN: 1432-1912

Keywords: Palytoxin ; Tetraphenylphosphonium ; Depolarization ; Binding ; Borate ; Calcium

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Palytoxin in concentrations as low as 10−11 to 10−12 M promotes the outflow of the lipophilic [3H]-tetraphenylphosphonium ion from particulate brain cortex of guinea-pigs and rats, and from preloaded crude synaptosomes of rats, which indicates depolarization. The outflow is not influenced by tetrodotoxin or the calcium channel blocker nimodipin, or by substitution of choline for Na+ ions. It is increased by Ca2+ and by borate, the latter interacting with the toxin itself. To assess the fixation of palytoxin to biological membranes, a binding step was installed before the depolarization step. Palytoxin binds to membranes from rat brain, liver, kidney, human and dog erythrocytes, and to a lesser degree to liposomes made from rat brain or erythrocyte lipids. Binding is reversible. It is decreased by mild physical pretreatments of crude synaptosomes. Palytoxin binding is increased in the presence of micromolar concentrations of Ca2+ or borate. It is concluded that the potentiation of palytoxin actions by Ca2+ or borate is at least partially due to the promotion of its binding.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00497673

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Interaction of labelled tetanus toxin with substructures of rat spinal cord in vivo (1973)

Habermann, E. ; Dimpfel, W. ; Räker, K. O.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 276 (1973), S. 361-373

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ISSN: 1432-1912

Keywords: Tetanus Toxin ; Iodine Labelling ; Spinal Cord ; Autoradiography ; Antitoxin

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The in vivo interaction of 125I-labelled toxin with substructures of rat spinal cord has been studied. The rats were poisoned by i.v. injection about 40–50 h before sacrifice. 1. The labelled material accumulates in the grey substance, which is, on microdissection, about 6 times more active than the white. Autoradiography reveals that the toxin is particularly enriched in the ventrolateral part of the grey substance. 2. On ultracentrifugation of the homogenates, the label is preferentially fixed to the dense fractions known to contain the synaptosomes. However, a considerable part of the toxin is fixed to the lighter fractions too. 3. Upon gel filtration, the labelled material in SDS-homogenates from spinal cords poisoned in vivo is indistinguishable from toxin added to the homogenates already prepared. The same is true for the bulk of radioactivity when subjected to disc gel electrophoresis. 4. The labelled material is degraded by enzymes from spinal cord at pH 3.5, but not at pH 7.5. 5. The labelled material is relatively firmly bound to structures of spinal cord. The bonding is fairly resistant against washing, even in the presence of an excess of cold toxin, but it can be partially released by treatment with antitoxin. According to these findings, the labelled material is firmly but not irreversibly bound in vivo to discrete structures, corresponding preferentially to the synaptosomal fractions in the homogenates and the ventrolateral grey in the slices. No evidence has been found for its degradation in vivo. So far, the bulk of labelled material in the spinal cord is indistinguishable from tetanus toxin.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00499889

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