Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.24.69 (botulinum neurotoxin)
1,901 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A way of fragmentation of Clostridium botulinum neurotoxin was carried out to elucidate the structure-function relationship of neurotoxin. The hitherto only plausible fragment was isolated from the trypsin-treated heavy chain of botulinum type E neurotoxin. In the presence of 4 M urea, one protein peak emerged from QAE-Sephadex column loaded with the heavy chain mildly treated with trypsin by elution with 0.1 M sodium chloride. Although many protein bands were detected in SDS-PAGE of the treated heavy chain, the eluted protein migrated in a single band to the position of 41,000 Da. The recovery of the 41,000-Da fragment was 28.6%, but with a 2 M urea-containing buffer as eluant, the recovery was less than 12%. The 41,000-Da fragment bound to gangliosides GD1a, GT1b, and GQ1b, to which neurotoxin and the heavy chain bound. The 41,000-Da fragment partially interfered with the binding of 125I-labeled neurotoxin to mouse brain synaptosomes. We have proposed a three-fragment structure (L.H-1.H-2) for botulinum type E neurotoxin. The characters of the 41,000-Da fragment described in this paper seem to substantiated our proposal that type E neurotoxin consists of three fragments, L.H-1.H-2, and that the ganglioside-binding fragment is H-2.
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PMID:Purification and characterization of the ganglioside-binding fragment of Clostridium botulinum type E neurotoxin. 842 78

Permeabilized PC12 cells exhibit a Ca(2+)-stimulated norepinephrine secretory pathway which is sensitive to botulinum neurotoxin serotypes A, B and E [Lomneth R., Martin T.F.J. and DasGupta B. R. (1991) J. Neurochem. 57: 1413-1421]. Two novel amino terminal fragments of the 150 kDa neurotoxin serotype E (approximately 112 and 48 kDa), produced by digestion with pepsin, were tested in permeabilized PC12 cells. The intracellular inhibitory activity of the approximately 112 kDa amino terminal fragment, like that of the 150 kDa neurotoxin, was progressively enhanced after trypsinization and dithiothreitol reduction. The approximately 50 kDa C-terminal half of the heavy chain therefore does not contribute to the enhancement of inhibitory activity. The approximately 48 kDa amino terminal light chain-like fragment completely inhibited release of norepinephrine, with an IC50 = 500 pM (more potent than the light chain isolated after digestion with trypsin) not requiring reduction with dithiothreitol. These results clarify the molecular basis of activation of neurotoxin by trypsin and dithiothreitol.
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PMID:Calcium-dependent release of norepinephrine from permeabilized PC12 cells is inhibited by approximately 48 and approximately 112 kDa fragments of botulinum neurotoxin type E. 847 25

Botulinum neurotoxin type A, a di-chain protein produced by Clostridium botulinum and responsible for botulism, blocks acetylcholine release from peripheral nerves by binding to the terminals, undergoing internalization and proteolyzing a protein essential for exocytosis. As butolinum neurotoxin is being used clinically for the treatment of dystonias and certain spasticities, deciphering the details of its specific targeting to cholinergic nerve endings has assumed great importance. Thus, interaction of butolinum neurotoxin type A with murine motor nerve terminals-a prime target in vivo-was investigated. Autoradiographic analysis revealed saturable, high-affinity interaction of radioiodinated toxin (0.4 nM) with two ecto-acceptor types, distinguished by an excess of the toxin's heavy chain which prevented only a fraction of this binding. Botulinum neurotoxin was also biotinylated through its free sulfhydryl groups, known not to be essential for neurotoxicity. Similar binding of this active derivative was, likewise, partially blocked by heavy chain, confirming the above results. This binding that is resistant to heavy chain equates to botulinum neurotoxin interacting with productive ecto-acceptors, leading to delivery to its cytosolic site of action, because heavy chain proved unable to antagonize toxin-induced neuromuscular paralysis. In contrast, it is deduced that botulinum neurotoxin bound to heavy chain-susceptible sites has a different fate, presumably due to trafficking via another route, and thus would be inefficient in causing neuroparalysis.
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PMID:Productive and non-productive binding of botulinum neurotoxin A to motor nerve endings are distinguished by its heavy chain. 872 65

In order to gain insights into the steps (binding, uptake, intracellular effect) which differ in the inhibitory actions of tetanus toxin and botulinum neurotoxins types A or B, their temperature dependencies were investigated at identified cholinergic and non-cholinergic synapses in Aplysia. Upon lowering the temperature from 22 degrees C to 10 degrees C, extracellularly applied botulinum neurotoxin type A and B appeared unable to inhibit transmitter release whilst tetanus toxin exhibited a residual activity. Binding of each toxin to the neuronal membrane appeared virtually unaltered following this temperature change. By contrast, the intracellular effects of botulinum neurotoxin type B and tetanus toxin were strongly attenuated by temperature reduction whereas the inhibitory action of botulinum neurotoxin type A was only moderately reduced. Importantly, this discrepancy relates to the known proteolytic cleavage of different synaptic proteins by these two toxin groups. Since both the binding and intracellular activity of botulinum neurotoxin type A are minimally affected at 10 degrees C, its inability to inhibit neurotransmission at this low temperature when applied extracellularly indicated attenuation of its uptake. Due to the strict temperature dependence of the intracellular action of tetanus toxin and botulinum neurotoxin type B, but not A, an examination of the effects of changes in temperature on the internalization step was facilitated by the use of heterologous mixtures of the toxins' heavy and light chains. At 10 degrees C, heavy chain from tetanus toxin but not from botulinum neurotoxin type B mediated uptake of botulinum neurotoxin type A light chain. Collectively, these results provide evidence that, at least in Aplysia, the uptake mechanism for botulinum neurotoxin types A and B differs from that of tetanus toxin.
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PMID:Differences in the multiple step process of inhibition of neurotransmitter release induced by tetanus toxin and botulinum neurotoxins type A and B at Aplysia synapses. 884 60

The purpose of this study was to identify the location of domains within the serotype A neurotoxin of Clostridium botulinum (BoNT/A) that conferred protection against botulism. The BoNT/A gene was subcloned into a series of 10 overlapping fragments that were expressed in Escherichia coli. The expressed proteins were partially purified and used to immunize mice. The resulting antisera were screened by immunoblotting analysis for the presence of BoNT/A-specific antibody. All fragments, except one, elicited antibody that recognized BoNT/A in an immunoblot. Serological screening identified several fragment-specific cross-reactive epitopes that were shared by heterologous serotypes of BoNT. Most of these epitopes immunoreactive by enzyme-linked immunosorbent assay, but not by immunoblot. Only two fragments were shown to confer protection against BoNT/A intoxication. Both of these proteins were derived from segments of the heavy chain and encoded amino acid residues H455-661 and H1150-1289 of BoNT/A.
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PMID:Mapping of protective and cross-reactive domains of the type A neurotoxin of Clostridium botulinum. 901 96

We have mapped the regions recognized by T and/or B cells (Abs) on the C-terminal domain (Hc) of the heavy chain of botulinum neurotoxin serotype A (BoNT/A) after immunization of two inbred mouse strains with pentavalent toxoid (BoNTs A, B, C, D and E). Using a set of synthetic overlapping peptides, encompassing the entire Hc domain (residues 855-1296), we demonstrated that T cells of Balb/c (H-2d) mice, primed with one injection of toxoid, recognized two major regions within residues 897-915 and 939-957. After multiple inoculations with toxoid, T cells of Balb/c expanded their recognition ability and responded very well to challenge with peptide 1261-1279 and moderately to stimulation with peptide 1149-1167. Unlike Balb/c T cells, those of toxoid-primed SJL (H-2s) mice exhibited a more complex profile and responded to challenge with a large number of overlapping peptides. After one toxoid injection, however, three peptides, 897-915, 939-957/953-971 overlap and 1051-1069, were the most potent T cells stimulators. After three toxoid injections, peptides 897-915 and 1051-1069 remained immunodominant while the third region was shifted upstream to 925-943/939-957 overlap. The immunodominant epitope within peptide 897-915 was recognized exclusively by T cells, since no Abs were detected against this region. The Ab binding profiles of the two mouse strains were quite similar, showing only small quantitative differences. Both, Balb/c and SJL anti-toxoid Abs displayed strong binding mainly to peptide 1177-1195, followed by peptides 869-887/883-901 overlap and 1275-1296. In addition, a significant amount of Balb/c anti-toxoid Abs was bound to peptide 1135-1153. Unlike Balb/c Abs, that interacted weakly with peptides 995-1013 and 1051-1069, the anti-toxoid Abs of SJL mice exhibited strong binding toward both peptides. The results showed that, in a given strain, the regions recognized by anti-toxoid Abs and T cells may coincide or may be uniquely B or T cell determinants.
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PMID:Localization of the regions on the C-terminal domain of the heavy chain of botulinum A recognized by T lymphocytes and by antibodies after immunization of mice with pentavalent toxoid. 924 68

Clostridium botulinum neurotoxin (NT) serotypes A, B, and E have 9, 10, and 8 Cys residues, respectively, as deduced from nucleotide sequences [Whelan et al. (1992), Appl. Environ. Microbiol. 48, 2345-2354]. Each of the 150-kDa NTs has at least one disulfide; but type B, like types A and E, may have two disulfides. Using two different chemical reagents, we studied the status of the Cys residues in these three proteins after (i) the final anion exchange chromatographic step in their purification (fresh NT), (ii) 24 hr storage at 8 degrees C, (iii) precipitation with ammonium sulfate (precipitated NT), and (iv) dissolving the precipitated NT in 6 M guanidine HCl. In all three NT serotypes the number of Cys residues titrated with 5,5'-dithiobis-2-nitrobenzoic acid (DTNB) as free -SH groups varied, depending upon the absence or presence of EDTA added to the chromatography buffer, storage condition, age, and presence of the denaturant. Titration of 9.5-10 and 5.4-6.0 -SH groups in fresh NTs type B and E, respectively, indicated total and partial absence of disulfide bonds. Fewer titratable -SH groups in the precipitated NT than in the fresh NT suggested formation of disulfide and/or inaccessibility of the -SH groups due to protein's conformational change(s). When the precipitated NTs were dissolved in 6 M guanidine HCl, in the absence of any added reducing agent, all Cys residues of types B and E, and 6.4-8.3 Cys in type A NT were titratable with DTNB. Iodoacetamide modification of precipitated NT types A, B, and E carboxymethylated 4, 2, and 2 Cys residues, respectively; these numbers rose to 6, 9.4, and 8 when these proteins were carboxymethylated after dissolving in 6 M guanidine HCl in the absence of any added reducing agent. We propose that S-S- cleavage mediated by the -SH/-S-S- exchange observed in vitro after unfolding the NTs (also unfolded by 2 M guanidine HCl or urea) possibly mimicks a similar exchange process inside the endosomes, where the NTs are thought to undergo conformational changes, resulting in the reductive cleavage of the interchain disulfide between the 50-kDa light and 100-kDa heavy chain, which in turn releases the light chain and allows its egress out of the endosomes into the cytosol.
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PMID:Status of Cys residues in the covalent structure of botulinum neurotoxin types A, B, and E. 958 42

Clostridium botulinum neurotoxin acts on nerve endings to block acetylcholine release. Binding of the neurotoxin to a membrane receptor through its heavy chain is the first essential step in its mode of toxin action. Type E botulinum neurotoxin (BoNT/E) or type A botulinum neurotoxin (BoNT/A) receptor was purified from rat brain synaptosomes employing a neurotoxin affinity column chromatography. The protein fraction eluted from the affinity column with 0.5 M NaCl contained a 57 kDa protein as a major eluant. Immunoblotting the eluant with anti-synaptotagmin antibodies revealed that the 57 kDa protein was synaptotagmin I. Rat synaptotagmin I has been suggested as the receptor for BoNT/B (Nishiki et al., J. Biol. Chem. 269, 10498-10503, 1994) in rat brain. In this study, binding of BoNT/A and BoNT/E to synaptotagmin I was studied by a microtiter plate-based method. Binding of synaptotagmin I to BoNT/A coated on the plate was competitively reduced upon preincubation of the proteins with BoNT/E, suggesting a competitive binding of BoNT/A and BoNT/E to the receptor. Taken together, these results suggest that the same receptor protein binds to all three BoNT serotypes tested.
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PMID:Isolation of synaptotagmin as a receptor for types A and E botulinum neurotoxin and analysis of their comparative binding using a new microtiter plate assay. 978 60

Predictions were made of the secondary, two-dimensional (2-D) structures and side-chain solvent accessibilities of the light (L) chains of the clostridial neurotoxins (botulinum neurotoxin serotypes A-G and tetanus neurotoxin). An artificial neural network was used to make these predictions from a multiple alignment of their primary structures and was the approach used in making successful predictions for the C-fragments of these neurotoxins (Lebeda et al., J. Prot. Chem., 17:311, 1998). We also exploited the fact that the L-chains are Zn-dependent proteases. Although no other metalloproteases were found to be sequentially homologous to these neurotoxin L-chains, a sequence clustering algorithm showed that several bacterially derived Zn-dependent proteases, including thermolysin, were the most similar. A 2-D structure topology map for the type A L-chain was constructed by using thermolysin as a design template. As in thermolysin, the region containing the Zn-binding sequence motif, which is part of the active site in these neurotoxins, was predicted to be minimally solvent accessible. On the other hand, the locations of residues with highly exposed side chains were predicted to occur in non-periodic structure elements. Together, these 2-D structure and solvent accessibility predictions can be used to identify important solvent-exposed regions of the L-chain. These regions may include sites that interact with residues of the neurotoxin heavy chain, sites that bind to vesicle-docking substrates or sites that form antibody epitopes.
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PMID:Predictions of secondary structure and solvent accessibility of the light chain of the clostridial neurotoxins. 978 61

Clostridium neurotoxins produce inhibition of both basal and K(+)-evoked serotonin release in rat brain synaptosomes. To produce these effects, tetanus toxin (TeTx), as well as botulinum neurotoxin type A (BoNT/A), added to brain synaptosomes, must be incubated at 37 degrees C over a long interval (hours). This serotonin exocytosis inhibition was abolished with previous treatment with specific Zn2(+)-metalloprotease inhibitors. Nevertheless, a short incubation time produces different behavior of the indicated neurotoxins: TeTx significantly blocks the sodium-dependent, high-affinity serotonin uptake, whereas a small increase of this uptake was found with BoNT/A. Both Zn2(+)-metalloprotease active fragments, light chains of TeTx and BoNT/A, are unable to reproduce the block of the serotonin uptake, whereas the C-terminal portion of the TeTx heavy chain (Hc-TeTx), which binds specifically to the target tissue, inhibited the serotonin uptake in a dose-dependent manner. The IC50 of Hc-TeTx ranges from 0.62 to 2.08 nM. Binding of [3H]imipramine and [3H]serotonin did not change after toxin treatments, which indicates that these clostridium neurotoxins do not act on the serotonin high-affinity site at the serotonin transporter or at other serotonin high-affinity sites. These results could indicate that TeTx and Hc-TeTx bind to different targets than BoNT/A in the plasma membrane.
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PMID:Clostridium neurotoxins influence serotonin uptake and release differently in rat brain synaptosomes. 1021 76


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