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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 toxin serotypes A and E (
BoNT/A
and /E) cleave the carboxy-terminus of synaptosomal associated protein-25 (SNAP-25) removing nine and 26 residues, respectively. To investigate the effect of these lesions of the same target molecule, 11 volunteers were injected with 3 IU of
BoNT/A
in the extensor digitorum brevis (EDB) muscle of one foot and with 3 IU of
BoNT
/E in the contralateral one. In addition, seven volunteers were similarly injected with mixtures of
BoNT/A
+
BoNT
/E. Compound muscular action potential (CMAP) was measured at different time intervals and the percentage variation of CMAP (%CMAP) was calculated. Unexpectedly, a much faster recovery of %CMAP after
BoNT
/E injections was observed. Double poisoned EBD muscles recovered similarly to
BoNT
/E. So, a larger deletion of the SNAP-25 molecule caused by
BoNT
/E leads to a faster functional recovery.
...
PMID:Different time courses of recovery after poisoning with botulinum neurotoxin serotypes A and E in humans. 985 58
Tetanus toxin and the seven serologically distinct botulinal neurotoxins (
BoNT/A
to
BoNT
/G) abrogate synaptic transmission at nerve endings through the action of their light chains (L chains), which proteolytically cleave VAMP (vesicle-associated membrane protein)/synaptobrevin, SNAP-25 (synaptosome-associated protein of 25 kDa), or syntaxin.
BoNT
/C was reported to proteolyze both syntaxin and SNAP-25. Here, we demonstrate that cleavage of SNAP-25 occurs between Arg198 and Ala199, depends on the presence of regions Asn93 to Glu145 and Ile156 to Met202, and requires about 1,000-fold higher L chain concentrations in comparison with
BoNT/A
and
BoNT
/E. Analyses of the
BoNT/A
and
BoNT
/E cleavage sites revealed that changes in the carboxyl-terminal residues, in contrast with changes in the amino-terminal residues, drastically impair proteolysis. A proteolytically inactive
BoNT/A
L chain mutant failed to bind to VAMP/synaptobrevin and syntaxin, but formed a stable complex (KD = 1.9 x 10(-7) M) with SNAP-25. The minimal essential domain of SNAP-25 required for cleavage by
BoNT/A
involves the segment Met146-Gln197, and binding was optimal only with full-length SNAP-25. Proteolysis by
BoNT
/E required the presence of the domain Ile156-Asp186. Murine SNAP-23 was cleaved by
BoNT
/E and, to a reduced extent, by
BoNT/A
, whereas human SNAP-23 was resistant to all clostridial L chains. Lys185Asp or Pro182Arg mutations of human SNAP-23 induced susceptibility toward
BoNT
/E or toward both
BoNT/A
and
BoNT
/E, respectively.
...
PMID:Proteolysis of SNAP-25 isoforms by botulinum neurotoxin types A, C, and E: domains and amino acid residues controlling the formation of enzyme-substrate complexes and cleavage. 988 85
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.
...
PMID:Clostridium neurotoxins influence serotonin uptake and release differently in rat brain synaptosomes. 1021 76
Botulinum neurotoxins type A (
BoNT/A
), the most toxic substance known to man, is produced by Clostridium botulinum type A as a complex with a group of neurotoxin-associated proteins (NAPs), possibly through a polycistronic expression of a clustered group of genes. The
botulinum neurotoxin
complex is the only known example of a protein complex where a group of proteins (NAPs) protect another protein (
BoNT
) against acidity and proteases of the GI tract. We now report that NAPs also potentiate the Zn2+ endopeptidase activity of
BoNT/A
in both in vitro and in vivo assays against its known intracellular target protein, 25 kDa synaptosomal associated protein (SNAP-25). While
BoNT/A
exhibited no protease activity prior to reduction with dithiothreitol (DTT), the
BoNT/A
complex exhibited a high protease activity even in its nonreduced form. Our results suggest that the bacterial production of NAPs along with
BoNT
is designed for the NAPs to play an accessory role in the neurotoxin function, in contrast to their previously known limited role in protecting the neurotoxin in the GI tract and in the external environment. Structural features of
BoNT/A
change considerably upon disulfide reduction, as revealed by near-UV circular dichroism spectroscopy.
BoNT/A
in the reduced form adopts a more flexible structure than in the unreduced form, as also indicated by large differences in DeltaH values (155 vs 248 kJ mol-1) of temperature-induced unfolding of
BoNT/A
.
...
PMID:Enhancement of the endopeptidase activity of botulinum neurotoxin by its associated proteins and dithiothreitol. 1034 12
Data from 616 patients suffering from idiopathic cervical dystonia were analyzed to determine the efficacy and safety of treatment with
botulinum neurotoxin
type A (
BoNT/A
). Since the specific purpose of this study was to determine the long-term effects of this treatment, the analysis focused specifically on the patients (n = 303) having received six or more injections. Statistical analysis of a standardized documentation showed sustained significant benefit as measured by a disease severity score independent of the type of cervical dystonia. Furthermore, pronounced individual differences were found in response to this treatment although initial clinical scores and doses of
BoNT/A
were similar. There was no indication of previously unknown adverse events, the only risk being the development of serum antibodies against the toxin. As in previous studies on short-term effects of
BoNT/A
treatment, the most frequent adverse event was dysphagia, which occurred on average 9.7 days after injection and lasted on average 3.5 weeks. While secondary nonresponse was seen in approx. 5% of patients, antibody tests revealed neutralizing serum antibodies in only 2%. On the basis of the present data, therapy of cervical dystonia with
BoNT/A
seems to be safe and yields good stable results even after 5 years of treatment.
...
PMID:Long-term treatment of cervical dystonia with botulinum toxin A: efficacy, safety, and antibody frequency. German Dystonia Study Group. 1036 94
Botulism, which was first reported over a century ago, is caused by botulinum neurotoxins produced by Clostridium botulinum in seven immunological serotypes (A through G). The primary structures of a number of these BoNTs have been determined and are reviewed here, together with their gene structure and synthesis. The biological actions of BoNTs, which result in their ability to block neurotransmitter release have been the subject of intensive study, and in this review we discuss the binding of BoNTs to the cell surface as well as the mechanism of their intercellular action. The ability of BoNTs to block neurotransmitter release has been exploited in therapeutic applications to reduce muscle hyperactivity for the treatment of a variety of clinical conditions associated with involuntary muscle spasm and contractions. The advantages, limitations, and risks of these applications are discussed. Certain compounds provide some limited protection against
BoNT
. However, more effective protection has been obtained immunologically either by passive immunity (i.e., by administration of anti-
BoNT
Abs) or by immunization with inactivated toxin. More recently, excellent protection has been obtained by immunization with the receptor-binding region comprising the C-terminal (residues 860 to 1296) fragment (Hc) of the heavy chain of
BoNT/A
. Here we review the mapping of the epitopes on the Hc region of
BoNT/A
that are recognized by anti-
BoNT/A
Abs raised in horse, human, and mouse. The epitopes on the Hc that are recognized by anti-Hc Abs and by Hc-primed T lymphocytes were mapped in two mouse strains [BALB/c (H-2d) and SJL (H-2s)]. The peptides, which contain Ab or T cell epitopes (or both) on the Hc, were used as immunogens in BALB/c and SJL mice and we identified those peptides whose Ab and/or T-cell response cross-react with Hc. Identification of these peptides is an important first step in the intricate requirements for the design of a synthetic vaccine.
...
PMID:Structure, activity, and immune (T and B cell) recognition of botulinum neurotoxins. 1042
Primary dissociated fetal mouse spinal cord cultures were used to study the mechanisms underlying the differences in persistence of
botulinum neurotoxin
A (
BoNT/A
) and
botulinum neurotoxin
/E (
BoNT
/E) activities. Spinal cord cultures were exposed to
BoNT/A
(0.4 pM) for 2-3 days, which converted approximately half of the SNAP-25 to an altered form lacking the final nine C-terminal residues. The distribution of toxin-damaged to control SNAP-25 remained relatively unchanged for up to 80 days thereafter. Application of a high concentration of
BoNT
/E (250 pM) either 25 or 60 days following initial intoxication with
BoNT/A
converted both normal and
BoNT/A
-truncated SNAP-25 into a single population lacking the final 26 C-terminal residues. Excess
BoNT
/E was removed by washout, and recovery of intact SNAP-25 was monitored by Western blot analysis. The
BoNT
/E-truncated species gradually diminished during the ensuing 18 days, accompanied by the reappearance of both normal and
BoNT/A
-truncated SNAP-25. Return of
BoNT/A
-truncated SNAP-25 was observed in spite of the absence of
BoNT/A
in the culture medium during all but the first 3 days of exposure. These results indicate that proteolytic activity associated with the
BoNT/A
light chain persists inside cells for > 11 weeks, while recovery from
BoNT
/E is complete in < 3 weeks. This longer duration of enzymatic activity appears to account for the persistence of serotype A action.
...
PMID:Persistence of botulinum neurotoxin action in cultured spinal cord cells. 1045 45
The clostridial neurotoxins (CNTs), comprised of tetanus neurotoxin (TeNT) and the seven serotypes of
botulinum neurotoxin
(
BoNT
A-G), specifically bind to neuronal cells and disrupt neurotransmitter release by cleaving proteins involved in synaptic vesicle membrane fusion. In this study, multiple CNT sequences were analyzed within the context of the 1277 residue
BoNT/A
crystal structure to gain insight into the events of binding, pore formation, translocation, and catalysis that are required for toxicity. A comparison of the TeNT-binding domain structure to that of
BoNT/A
reveals striking differences in their surface properties. Further, the solvent accessibility of a key tryptophan in the C terminus of the
BoNT/A
-binding domain refines the location of the ganglioside-binding site. Data collected from a single frozen crystal of
BoNT/A
are included in this study, revealing slight differences in the binding domain orientation as well as density for a previously unobserved translocation domain loop. This loop and the conservation of charged residues with structural proximity to putative pore-forming sequences lend insight into the CNT mechanism of pore formation and translocation. The sequence analysis of the catalytic domain revealed an area near the active-site likely to account for specificity differences between the CNTs. It revealed also a tertiary structure, highly conserved in primary sequence, which seems critical to catalysis but is 30 A from the active-site zinc ion. This observation, along with an analysis of the 54 residue "belt" from the translocation domain are discussed with respect to the mechanism of catalysis.
...
PMID:Sequence homology and structural analysis of the clostridial neurotoxins. 1051 45
Neurotransmitter release from synaptic vesicles is mediated by complex machinery, which includes the v- and t-SNAP receptors (SNAREs), vesicle-associated membrane protein (VAMP), synaptotagmin, syntaxin, and synaptosome-associated protein of 25 kDa (SNAP-25). They are essential for neurotransmitter exocytosis because they are the proteolytic substrates of the clostridial neurotoxins tetanus neurotoxin and botulinum neurotoxins (BoNTs), which cause tetanus and botulism, respectively. Specifically, SNAP-25 is cleaved by both
BoNT/A
and E at separate sites within the COOH-terminus. We now demonstrate, using toxin-insensitive mutants of SNAP-25, that these two toxins differ in their specificity for the cleavage site. Following modification within the COOH-terminus, the mutants completely resistant to
BoNT
/E do not bind VAMP but were still able to form a sodium dodecyl sulfate-resistant complex with VAMP and syntaxin. Furthermore, these mutants retain function in vivo, conferring
BoNT
/E-resistant exocytosis to transfected PC12 cells. These data provide information on structural requirements within the C-terminal domain of SNAP-25 for its function in exocytosis and raise doubts about the significance of in vitro binary interactions for the in vivo functions of synaptic protein complexes.
...
PMID:Botulinum neurotoxin E-insensitive mutants of SNAP-25 fail to bind VAMP but support exocytosis. 1058 2
Botulinum neurotoxin serotypes A and E (
BoNT/A
and
BoNT
/E) block neurotransmitter release, presumably by cleaving SNAP-25, a protein involved in docking of synaptic vesicles with the presynaptic plasma membrane. Three excitation-secretion uncoupling peptides (ESUPs), which mimic the carboxy-terminal domain of SNAP-25 and span or adjoin the cleavage sites for
BoNT/A
and
BoNT
/E, also inhibit transmitter release from permeabilized bovine chromaffin cells. In this study, these peptides were tested for effects on acetylcholine (ACh) release at an identified cholinergic synapse in isolated buccal ganglia of Aplysia californica. The presynaptic neuron was stimulated electrically to elicit action potentials. The postsynaptic neuron was voltage-clamped, and evoked inhibitory postsynaptic currents (IPSCs) were recorded. The ESUPs were pressure-injected into the presynaptic neuron, and their effects on the amplitude of the IPSCs were studied. Acetylcholine release from presynaptic cells, as measured by IPSC amplitudes, was gradually inhibited by the ESUPs. All three peptides caused ca. 40% reduction in IPSC amplitude in 2 h. Random-sequence peptides of the same amino acid composition had no effect. Injection of
BoNT
/E, in contrast, caused ca. 50% reduction in IPSC amplitude in 30 min and almost complete inhibition in 2 h. These results are the first demonstration that ESUPs block neuronal cholinergic synaptic transmission. They are consistent with the concept that ESUPs compete with the intact SNAP-25 for binding with other fusion proteins, thus inhibiting stimulus-evoked exocytosis of neurotransmitter.
...
PMID:Peptides that mimic the carboxy-terminal domain of SNAP-25 block acetylcholine release at an Aplysia synapse. 1059 95
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