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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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On the endogenous mechanism of kinin release (1971)

Habermann, E. ; Jahrreiss, Rosemarie

Springer

Naunyn-Schmiedeberg's archives of pharmacology 269 (1971), S. 101-111

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ISSN: 1432-1912

Keywords: Kininogens ; Kallikreins ; Bradykinin ; Hageman Factor

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Sephadex G 200 chromatography of non-contacted human or bovine plasma reveals one peak of kininogen (LMW kininogen) which serves as substrate for both trypsin and contact kallikrein (= prekallikrein activated by Hageman Factor.) 2. Under special conditions (faster flow rate, protection with diisopropyl fluorophosphate and hexadimethrine bromide), a small kininogen fraction of higher molecular weight (HMW) occasionally preceded the LMW substrate. It appeared increased when the plasma was hemolytic whether contacted or not. 3. Native human plasma was subjected to DEAE sephadex chromatography using stepwise elution starting with relatively high salt concentration. The second peak called HMW-kininogen emerged together with the abrupt increase in ionic strength and contained 2.2 to 4.8 times less kinin than did the first. Both kininogens yielded kinin with purified contact kallikrein. 4. By analytical gel filtration of different HMW-kininogen preparations, molecular weights of about 100,000, 200,000 and 500,000 were estimated. We conclude that HMW-kininogen is not represented by a distinct, individual molecule. It may be a polymer of the low molecular weight kininogen or an aggregate of it with other plasma constituents.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01422019

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On the endogenous mechanism of kinin release (1971)

Jahrreiss, Rosemarie ; Habermann, E.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 269 (1971), S. 85-100

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ISSN: 1432-1912

Keywords: Kininogens ; Kallikreins ; Bradykinin ; Protease Inhibitors ; Hageman Factor

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. Prekallikrein, prepared according to Nagasawaet al., has been purified further by agarose gel electrophoresis. It can be activated directly by Hageman factor and by solid phase trypsin. Its specific activity (benzoyl arginine ethyl ester as substrate) was 13.2 μM min−1 mg−1. Gel filtration on a calibrated column of sephadex G 200 revealed a molecular weight of 101,000, which is close to the value reported for casein-activated kallikrein. 2. The contact-activated bovine enzyme was very similar to casein-activated porcine kallikrein. Both enzymes hydrolyzed benzoyl arginine ethyl ester and tosylarginine methyl ester with about the same speed. The sensitivity of the two preparations against trasylol®, soy bean inhibitor, and serum inhibitor was also not different. 3. In contrast to previous assumptions, purified bovine LMW kininogen (MW 50,000) proved to be substrate for contact-activated kallikrein. As with the caseinactivated enzyme, the total bradykinin content of the kininogen could be released. 4. Serum, even when heated previously to 61°C, contains inhibitors against kallikreins activated by contact or casein, as well as against trypsin. Whereas pretreatment according to Diniz and Carvalho (pH about 2; 98°C) renders the serum more susceptible to trypsin, such denaturated substrate is less accessible for both kallikreins. Serum or plasma pretreated according to Horton (pH2; 37°C), yield at least 50% of the kinin activity obtained with trypsin, irrespective of the kallikreins used. 5. When acid-treated (according to Horton) 61°-serum has been incubated first with casein-activated kallikrein, contact-activated enzyme does not release additional kinin activity and vice versa. 6. Plasma which has been rotated exhaustively with glass, nevertheless contains substrate for contact-activated kallikrein. 7. Addition of Hageman factor to Horton's substrate does not increase the kinin yield above that obtained by glass-contact of normal plasma. Addition of prekallikrein, however, increases the kinin yield about threefold. Therefore, neither Hageman factor nor substrate, but the actual amount of active kallikrein limits the kinin yield upon glass activation. 8. Our experiments with serum kallikreins and their substrates can be interpreted without assuming a distinct, contact activated kinin system.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01422018

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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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Advances in tetanus research (1974)

Habermann, E. ; Wellhöner, H. H.

Springer

Journal of molecular medicine 52 (1974), S. 255-265

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ISSN: 1432-1440

Keywords: Tetanus toxin ; Antitoxin ; 125Iodine ; Spinal cord ; Nerves ; Tetanustoxin ; Antitoxin ; 125Jod ; Rückenmark ; Nerven

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Description / Table of Contents: Zusammenfassung Unsere Kenntnis der Pathogenese des Wundstarrkrampfes hat sich durch Anwendung neuer biochemischer und neurophysiologischer Techniken innerhalb der letzten Jahre erheblich erweitert. Radioaktiv markiertes Tetanustoxin wurde innerhalb verschiedener Nerven bis zu den Vorderhörnern des Rückenmarks verfolgt; dort wurde das Toxin z.T. noch auf cellulärer Ebene nachgewiesen. Die Verteilung des Toxins ist zeitabhängig und wird durch Antitoxin beeinflußt. Je weiter der Zeitpunkt der Vergiftung zurückliegt, desto geringer ist der Effekt des Antitoxins auf die Symptomatologie und die spinale Anreicherung des Toxins. Die neurale Wanderung des Toxins wird durch Erregung des toxinhaltigen Nerven gefördert. Neben den motorischen Anteilen sind auch rein sensibel-sensorische und vegetative Nerven zur Weiterleitung des Toxins imstande. Der generalisierte Tetanus kann als eine Sonderform des lokalen Tetanus betrachtet werden. Während bisher das klassische α-motorische System des Rückenmarks im Vordergrund der Untersuchungen stand, weisen neuere Arbeiten auf eine gleichzeitige, vielleicht sogar vorwiegende Enthemmung des γ-motorischen Systems hin. Außerdem werden vegetative Spinalreflexe enthemmt, was auch bei der Therapie bedacht werden sollte. Die Hemmwirkung des Tetanustoxins auf periphere Synapsen weist auf große Ähnlichkeiten mit Botulinumtoxin hin, obwohl die Symptome am vergifteten Tier so verschieden sind. Künftige Untersuchungen werden sich voraussichtlich mit der Wirkungsweise des Toxins auf molekularer und cellulärer Ebene befassen.

Notes: Summary Due to the use of advanced biochemical and neurophysiological techniques, our knowledge of the pathogenesis of tetanus has considerably improved during the past years. Radio-labelled tetanus toxin has been traced within different nerves up to the anterior horn of the spinal cord where its localization down to the cellular level has been achieved. The distribution of labelled toxin depends on time and is influenced by antitoxin. The longer the duration of poisoning, the smaller the effect of antitoxin on the spinal enrichment of toxin and on the onset of toxic symptoms. The neural ascent of toxin into a spinal cord segment is enhanced by stimulation of the segmental nerves. Not only the motor nerves, but also sensory and vegetative nerves are able to serve as guide-rails for the toxin. The generalized tetanus has been understood as a special kind of local tetanus. For a long time, disinhibition of the alpha motor system was considered to be the characteristic action of tetanus toxin, but recent evidence is in favour of an additional disinhibition of the gamma motor system (perhaps even preceding the alpha disinhibition) and also of the sympathetic spinal reflexes. This finding should have therapeutic implications. The detection of inhibitory effects of tetanus toxin on peripheral cholinergic synapses points again to the close similarity between tetanus toxin and botulinum A toxin. The trends of future research will presumably lead to the elementary processes at the molecular and cellular level which are the basis of the clinical picture of tetanus.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01468455

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