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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)
Botulinum neurotoxin B (
BoNT
/B) produces muscle paralysis by cleaving synaptobrevin/vesicle-associated membrane protein (VAMP), an 18-kDa membrane-associated protein located on the surface of small synaptic vesicles. A capillary electrophoresis (CE) assay was developed to evaluate inhibitors of the proteolytic activity of
BoNT
/B with the objective of identifying suitable candidates for treatment of botulism. The assay was based on monitoring the cleavage of a peptide that corresponds to residues 44-94 of human
VAMP-2
(V51) following reaction with the catalytic light chain (LC) of
BoNT
/B. Cleavage of V51 generated peptide fragments of 18 and 33 amino acids by scission of the bond between Q76 and F77. The fragments and parent peptide were clearly resolved by CE, allowing accurate quantification of the
BoNT
/B LC-mediated reaction rates. The results indicate that CE is suitable for assessing the enzymatic activity of
BoNT
/B LC.
...
PMID:A capillary electrophoresis technique for evaluating botulinum neurotoxin B light chain activity. 1469 Feb 46
Synaptic exocytosis requires the soluble N-ethylmaleimide-sensitive factor attachment protein receptor (SNARE) proteins syntaxin 1, SNAP-25, and synaptobrevin (VAMP). Assembly of the SNAREs into a stable core complex is supposed to catalyze membrane fusion, and proteoliposomes reconstituted with synaptic SNARE proteins spontaneously fuse with each other. We now show that liposome fusion mediated by synaptic SNAREs is inhibited by
botulinum neurotoxin
E (
BoNT
/E) but can be rescued by supplementing the C-terminal portion of SNAP-25. Furthermore, fusion is prevented by a SNAP-25-specific antibody known to block exocytosis in chromaffin cells, and it is competed for by soluble fragments of the R-SNAREs
synaptobrevin 2
, endobrevin/VAMP-8, and tomosyn. No accumulation of clustered vesicles is observed during the reaction. Rapid artificial clustering of SNARE-containing proteoliposomes enhances the fusion rate at low but not at saturating liposome concentrations. We conclude that the rate of liposome fusion is dominated by the intrinsic properties of the SNAREs rather than by the preceding docking step.
...
PMID:Determinants of liposome fusion mediated by synaptic SNARE proteins. 1498 Dec 39
We recently reported that store-operated Ca(2+) entry (SOCE) in nonexcitable cells is likely to be mediated by a reversible interaction between Ca(2+) channels in the plasma membrane and the endoplasmic reticulum, a mechanism known as "secretion-like coupling." As for secretion, in this model the actin cytoskeleton plays a key regulatory role. In the present study we have explored the involvement of the secretory proteins synaptosome-associated protein (SNAP-25) and vesicle-associated membrane protein (VAMP) in SOCE in pancreatic acinar cells. Cleavage of SNAP-25 and VAMPs by treatment with botulinum toxin A (
BoNT
A) and tetanus toxin (TeTx), respectively, effectively inhibited amylase secretion stimulated by the physiological agonist CCK-8.
BoNT
A significantly reduced Ca(2+) entry induced by store depletion using thapsigargin or CCK-8. In addition, treatment with
BoNT
A once SOCE had been activated reduced Ca(2+) influx, indicating that SNAP-25 is needed for both the activation and maintenance of SOCE in pancreatic acinar cells.
VAMP-2
and VAMP-3 are expressed in mouse pancreatic acinar cells. Both proteins associate with the cytoskeleton upon Ca(2+) store depletion, although only
VAMP-2
seems to be sensitive to TeTx. Treatment of pancreatic acinar cells with TeTx reduced the activation of SOCE without affecting its maintenance. These findings support a role for SNAP-25 and
VAMP-2
in the activation of SOCE in pancreatic acinar cells and show parallels between this process and secretion in a specialized secretory cell type.
...
PMID:Cleavage of SNAP-25 and VAMP-2 impairs store-operated Ca2+ entry in mouse pancreatic acinar cells. 1535 48
Botulinum neurotoxins types B, D, F, and G, and tetanus neurotoxin inhibit vesicular fusion via proteolytic cleavage of VAMP/Synaptobrevin, a core component of the membrane fusion machinery. Thus, these neurotoxins became widely used tools for investigating vesicular trafficking routes. Except for VAMP-1,
VAMP-2
, and Cellubrevin, no other member of the VAMP family represents a substrate for these neurotoxins. The molecular basis for this discrepancy is not known. A 34 amino acid residue segment of
VAMP-2
was previously suggested to mediate the interaction with
botulinum neurotoxin
B, but the validity of the data was later questioned. To check whether this segment alone controls the susceptibility toward
botulinum neurotoxin
B, it was used to replace the corresponding segment in TI-VAMP. The resulting VAMP hybrid and
VAMP-2
were hydrolysed at virtually identical rates. Resetting the
VAMP-2
portion in the hybrid from either end to TI-VAMP residues gradually reduced the cleavability. A hybrid encompassing merely the
VAMP-2
segment 71-80 around the Gln76/Phe77 scissile bond was still hydrolysed, albeit at a approximately tenfold lower cleavage rate. The contribution of each non-conserved amino acid of the whole 34-mer segment to the interaction was investigated employing
VAMP-2
. We find that the eight non-conserved residues of the 71-80 segment are all necessary for efficient cleavage. Mutation of an additional six residues located upstream and downstream of this segment affects substrate hydrolysis as well. Vice versa, a readily cleavable TI-VAMP molecule requires at the least the replacement of Ile158, Thr161, and the section 165-174 by Asp64, Ala67, and the 71-80 segment of
VAMP-2
, respectively. However, the insensitivity of TI-VAMP to
botulinum neurotoxin
B relies on at least 12 amino acid changes versus
VAMP-2
. These are scattered along an interface of 22 amino acid residues in length.
...
PMID:Identification of the amino acid residues rendering TI-VAMP insensitive toward botulinum neurotoxin B. 1643 Sep 21
Soluble N-ethylmaleimide-sensitive factor attachment protein receptor (SNARE) proteins play key roles in membrane fusion, but their sorting to specific membranes is poorly understood. Moreover, individual SNARE proteins can function in multiple membrane fusion events dependent upon their trafficking itinerary. Synaptosome-associated protein of 25 kDa (SNAP25) is a plasma membrane Q (containing glutamate)-SNARE essential for Ca2+-dependent secretory vesicle-plasma membrane fusion in neuroendocrine cells. However, a substantial intracellular pool of SNAP25 is maintained by endocytosis. To assess the role of endosomal SNAP25, we expressed
botulinum neurotoxin
E (
BoNT
E) light chain in PC12 cells, which specifically cleaves SNAP25.
BoNT
E expression altered the intracellular distribution of SNAP25, shifting it from a perinuclear recycling endosome to sorting endosomes, which indicates that SNAP25 is required for its own endocytic trafficking. The trafficking of syntaxin 13 and endocytosed cargo was similarly disrupted by
BoNT
E expression as was an endosomal SNARE complex comprised of SNAP25/syntaxin 13/
vesicle-associated membrane protein 2
. The small-interfering RNA-mediated down-regulation of SNAP25 exerted effects similar to those of
BoNT
E expression. Our results indicate that SNAP25 has a second function as an endosomal Q-SNARE in trafficking from the sorting endosome to the recycling endosome and that
BoNT
E has effects linked to disruption of the endosome recycling pathway.
...
PMID:A second SNARE role for exocytic SNAP25 in endosome fusion. 1648 93
The seven serotypes (A-G) of botulinum neurotoxins (BoNTs) function through their proteolytic cleavage of one of three proteins (SNAP-25, Syntaxin, and VAMP) that form the SNARE complex required for synaptic vesicle fusion. The different BoNTs have very specific protease recognition requirements, between 15 and 50 amino acids in length depending on the serotype. However, the structural details involved in substrate recognition remain largely unknown. Here is reported the 1.65 A resolution crystal structure of the catalytic domain of
BoNT
serotype D (
BoNT
/D-LC), providing insight into the protein-protein binding interaction and final proteolysis of
VAMP-2
. Structural analysis has identified a hydrophobic pocket potentially involved in substrate recognition of the P1' VAMP residue (Leu 60) and a second remote site for recognition of the V1 SNARE motif that is critical for activity. A structural comparison of
BoNT
/D-LC with
BoNT
/F-LC that also recognizes
VAMP-2
one residue away from the
BoNT
/D-LC site provides additional molecular details about the unique serotype specific activities. In particular,
BoNT
/D prefers a hydrophobic interaction for the V1 motif of
VAMP-2
, while
BoNT
/F adopts a more hydrophilic strategy for recognition of the same V1 motif.
...
PMID:Structure of botulinum neurotoxin type D light chain at 1.65 A resolution: repercussions for VAMP-2 substrate specificity. 1651 20
Tetanus neurotoxin (TeNT(1)) is a bacterial protease which specifically cleaves the vesicle protein synaptobrevin-2 (vesicle associated membrane protein-2,
VAMP-2
). This proteolytic feature of the toxin has been used to develop a sensitive endopeptidase assay for the detection of TeNT activity as an alternative to the in vivo assay for TeNT toxicity. Recombinant synaptobrevin-2 (rSyb2) is immobilized onto a microtiter plate, and the cleavage of immobilized rSyb2 by TeNT is detected with a polyclonal antibody directed against the newly generated C-terminus of the cleavage product. This antibody is shown to be a highly specific tool for detecting rSyb2 proteolysis by TeNT. The method reaches a detection limit of less than 1pg TeNT/ml. To our knowledge, this is the most sensitive in vitro assay for the detection of TeNT activity, and it is easy to perform. Besides, the assay can also detect the activity of
botulinum neurotoxin
type B (
BoNT
/B). The method can be applied to examine the toxicity of TeNT or
BoNT
/B preparations as well as the influence of chemicals on TeNT and
BoNT
/B activity. In the future, the assay may also serve as a basis for the replacement of the in vivo safety control of tetanus vaccines.
...
PMID:An in vitro assay for detection of tetanus neurotoxin activity: using antibodies for recognizing the proteolytically generated cleavage product. 1782 26
Regulated exocytosis in neurons and neuroendocrine cells requires the formation of a stable soluble N-ethylmaleimide-sensitive factor attachment protein receptor (SNARE) complex consisting of synaptobrevin-2/
vesicle-associated membrane protein 2
, synaptosome-associated protein of 25 kDa (SNAP-25), and syntaxin 1. This complex is subsequently disassembled by the concerted action of alpha-SNAP and the ATPases associated with different cellular activities-ATPase N-ethylmaleimide-sensitive factor (NSF). We report that NSF inhibition causes accumulation of alpha-SNAP in clusters on plasma membranes. Clustering is mediated by the binding of alpha-SNAP to uncomplexed syntaxin, because cleavage of syntaxin with
botulinum neurotoxin
C1 or competition by using antibodies against syntaxin SNARE motif abolishes clustering. Binding of alpha-SNAP potently inhibits Ca(2+)-dependent exocytosis of secretory granules and SNARE-mediated liposome fusion. Membrane clustering and inhibition of both exocytosis and liposome fusion are counteracted by NSF but not when an alpha-SNAP mutant defective in NSF activation is used. We conclude that alpha-SNAP inhibits exocytosis by binding to the syntaxin SNARE motif and in turn prevents SNARE assembly, revealing an unexpected site of action for alpha-SNAP in the SNARE cycle that drives exocytotic membrane fusion.
...
PMID:A novel site of action for alpha-SNAP in the SNARE conformational cycle controlling membrane fusion. 1809 56
BoNT
/B holotoxin (HT) from the native source is a mixture of nicked and un-nicked forms. A previous study showed that while un-nicked HT could be transcytosed by intestinal epithelial cells, they did not correlate this with proteolytic activity or biological effect(s). Un-nicked HT is likely to be present in
BoNT
biological warfare agents (BWA), so it is important to investigate the relative toxicity of un-nicked HT in this BWA. To address this issue, we purified un-nicked HT from commercial sources and evaluated its ability to cleave substrates both in vitro and in vivo, and its effects on vesicle trafficking. The un-nicked HT was unable to cleave VAMPTide substrate used for in vitro proteolytic assays. Brief digestion of the un-nicked toxin with trypsin resulted in significant activation of the toxin proteolytic ability. SHSY-5Y human neuroblastoma cells were used to examine HT uptake and activation in vivo. Vesicle trafficking can be measured following K(+) stimulation of cells preloaded with [(3)H]-noradrenaline (NA). We found that highly purified un-nicked HT did inhibit NA release but at much reduced levels compared to the nicked toxin. That the reduction in NA release was due to
BoNT
effects on SNARE proteins was supported by the finding that
VAMP-2
protein levels in un-nicked toxin treated cells was greater than those treated with nicked toxin. These results demonstrate that although un-nicked HT has markedly reduced toxicity than the nicked form, due to the preponderance in
BoNT
/B preparations from the native bacteria, it is a major source of toxicity.
...
PMID:Un-nicked BoNT/B activity in human SHSY-5Y neuronal cells. 1845 16
Botulinum neurotoxin (
BoNT
; serotypes A-G) and tetanus neurotoxin elicit flaccid and spastic paralysis, respectively. These neurotoxins are zinc proteases that cleave SNARE proteins to inhibit synaptic vesicle fusion to the plasma membrane. Although
BoNT
/B and tetanus neurotoxin (TeNT) cleave
VAMP-2
at the same scissile bond, their mechanism(s) of
VAMP-2
recognition is not clear. Mapping experiments showed that residues 60-87 of
VAMP-2
were sufficient for efficient cleavage by
BoNT
/B and that residues 40-87 of
VAMP-2
were sufficient for efficient TeNT cleavage. Alanine-scanning mutagenesis and kinetic analysis identified three regions within
VAMP-2
that were recognized by
BoNT
/B and TeNT: residues adjacent to the site of scissile bond cleavage (cleavage region) and residues located within N-terminal and C-terminal regions relative to the cleavage region. Analysis of residues within the cleavage region showed that mutations at the P7, P4, P2, and P1' residues of
VAMP-2
had the greatest inhibition of LC/B cleavage (> or =32-fold), whereas mutations at P7, P4, P1', and P2' residues of
VAMP-2
had the greatest inhibition of LC/TeNT cleavage (> or =64-fold). Residues within the cleavage region influenced catalysis, whereas residues N-terminal and C-terminal to the cleavage region influenced binding affinity. Thus,
BoNT
/B and TeNT possess similar organization but have unique residues to recognize and cleave
VAMP-2
. These studies provide new insights into how the clostridial neurotoxins recognize their substrates.
...
PMID:Substrate recognition of VAMP-2 by botulinum neurotoxin B and tetanus neurotoxin. 1851 17
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