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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)
Tetanus toxin and botulinum neurotoxins are di-chain proteins of 150 kD molecular weight. They are produced by bacteria of the Clostridium genus. These toxins act on the nervous system by inhibiting neurotransmitter release (glycine and
GABA
in the case of tetanus toxin; acetylcholine in the case of botulinum neurotoxins) thus inducing the spastic or flaccid paralysis that characterizes tetanus and botulism, respectively. Their cellular mechanism of action involves three main steps, namely binding to the neurone membrane, internalization and intracellular blockade of the release mechanism for neurotransmitters. Membrane acceptors for these toxins are not yet fully identified; they would consist of membrane gangliosides and proteins. The internalization step would be achieved by endocytosis. Recent findings show that both binding and internalization are mediated only by the heavy chain of the toxins whereas the intracellular blockade of neurotransmitter release involves their light chain alone. The light chain has been identified as a zinc metalloprotease and its substrates would be proteins involved in the neurotransmitter release mechanism. The target of tetanus toxin and of
botulinum neurotoxin
type B is VAMP/synaptobrevin, a membrane protein of the synaptic vesicles of nerve cell terminals.
...
PMID:[Molecular mechanism of action of tetanus toxin and botulinum neurotoxins]. 791 55
1. Presynaptic inhibition of synaptic transmission in the hippocampus was investigated by comparing the effects of several agonists on miniature excitatory and inhibitory postsynaptic currents (mEPSCs and mIPSCs). 2. The Ca2+ ionophore ionomycin increased the frequency of mEPSCs and mIPSCs but did not affect their amplitude. Ionomycin-induced release required extracellular Ca2+ and was prevented by pretreatment with
botulinum neurotoxin
serotype F, like evoked synaptic transmission. Unlike evoked transmission, however, this increase did not involve activation of voltage-dependent Ca2+ channels because it was insensitive to Cd2+. 3. Both the lanthanide gadolinium and alpha-latrotoxin produced increases in the frequency of mEPSCs and mIPSCs, but their actions were independent of extracellular Ca2+. 4. Adenosine, the gamma-aminobutyric acid-B (GABAB) receptor agonist baclofen, and a mu-opioid receptor agonist strongly reduced the frequency of synaptic currents triggered by all three secretagogues. 5. We conclude that activation of these presynaptic receptors can reduce high frequencies of vesicular glutamate and
GABA
release by directly impairing transmitter exocytosis. Presynaptic inhibition of gadolinium- and alpha-latrotoxin-induced release indicates that this impairment occurs without changes in intraterminal Ca2+ homeostasis and when vesicle fusion is rendered Ca2+ independent, respectively. 6. The inhibition of ionomycin-induced release provides additional evidence for a direct, neurotransmitter receptor-mediated modulation of the proteins underlying vesicular docking or fusion as an important component of presynaptic inhibition of evoked synaptic transmission.
...
PMID:Presynaptic inhibition of calcium-dependent and -independent release elicited with ionomycin, gadolinium, and alpha-latrotoxin in the hippocampus. 873
Neurotransmitter transporters are regulated through a variety of signal transduction mechanisms which appear to operate in order to maintain appropriate levels of transmitter in the synaptic cleft. One such mechanism is the trafficking of the transporter in association with synaptic vesicle release machinery. This report examines the specifics of trafficking regulation of the rat brain GABA transporter GAT1 by syntaxin 1A, a plasma membrane component of the SNARE complex which is involved in vesicle membrane fusion. In hippocampal neurons,
botulinum neurotoxin
1C, which specifically cleaves syntaxin 1A, down-regulates plasma membrane GAT1 levels as assessed by surface biotinylation, suggesting that syntaxin 1A is a positive regulator of GAT1 surface expression. The up-regulation correlates with a decrease in intracellular GAT1 levels and is complete within several minutes. These data suggest that syntaxin 1A mediates the redistribution of GAT1 on a time scale important for the rapid regulation of extracellular
GABA
levels. Expression of different syntaxin 1A constructs in Xenopus oocytes suggests that several portions of the syntaxin 1A molecule are required for the trafficking of GAT1. These data suggest that the trafficking of GAT1 will be subject to regulatory control by the many molecules known to interact with various domains of syntaxin 1A.
...
PMID:Syntaxin 1A up-regulates GABA transporter expression by subcellular redistribution. 1139 10
The impact of syntaxin and SNAP-25 cleavage on [3H]noradrenaline ([3H]NA) and [3H]dopamine ([3H]DA) exocytotic release evoked by different stimuli was studied in superfused rat synaptosomes. The external Ca2+-dependent K+-induced [3H]catecholamine overflows were almost totally abolished by botulinum toxin C1 (
BoNT
/C1), which hydrolyses syntaxin and SNAP-25, or by botulinum toxin E (
BoNT
/E), selective for SNAP-25.
BoNT
/C1 cleaved 25% of total syntaxin and 40% of SNAP-25;
BoNT
/E cleaved 40% of SNAP-25 but left syntaxin intact. The
GABA
uptake-induced releases of [3H]NA and [3H]DA were differentially affected: both toxins blocked the former, dependent on external Ca2+, but not the latter, internal Ca2+-dependent.
BoNT
/C1 or
BoNT
/E only slightly reduced the ionomycin-evoked [3H]catecholamine release. More precisely, [3H]NA exocytosis induced by ionomycin was sensitive to toxins in the early phase of release but not later. The Ca2+-independent [3H]NA exocytosis evoked by hypertonic sucrose, thought to release from the readily releasable pool (RRP) of vesicles, was significantly reduced by
BoNT
/C1. Pre-treating synaptosomes with phorbol-12-myristate-13-acetate, to increase the RRP, enhanced the sensitivity to
BoNT
/C1 of [3H]NA release elicited by sucrose or ionomycin. Accordingly, cleavage of syntaxin was augmented by the phorbol-ester. To conclude, our results suggest that clostridial toxins selectively target exocytosis involving vesicles set into the RRP.
...
PMID:The sensitivity of catecholamine release to botulinum toxin C1 and E suggests selective targeting of vesicles set into the readily releasable pool. 1267 17
Renshaw cells receive a high density of inhibitory synapses characterized by large postsynaptic gephyrin clusters and mixed glycinergic/GABAergic inhibitory currents with large peak amplitudes and long decays. These properties appear adapted to increase inhibitory efficacy over Renshaw cells and mature postnatally by mechanisms that are unknown. We tested the hypothesis that heterosynaptic influences from excitatory motor axon inputs modulate the development of inhibitory synapses on Renshaw cells. Thus, tetanus (TeNT) and
botulinum neurotoxin
A (BoNT-A) were injected intramuscularly at postnatal day 5 (P5) to, respectively, elevate or reduce motor axon firing activity for approximately 2 weeks. After TeNT injections, the average gephyrin cluster areas on Renshaw cells increased by 18.4% at P15 and 28.4% at P20 and decreased after
BoNT
-A injections by 17.7% at P15 and 19.9% at P20. The average size differences resulted from changes in the proportions of small and large gephyrin clusters. Whole-cell recordings in P9-P15 Renshaw cells after P5 TeNT injections showed increases in the peak amplitude of glycinergic miniature postsynaptic currents (mPSCs) and the fast component of mixed (glycinergic/GABAergic) mPSCs compared with controls (60.9% and 78.9%, respectively). GABAergic mPSCs increased in peak amplitude to a smaller extent (45.8%). However, because of the comparatively longer decays of synaptic GABAergic currents, total current transfer changes after TeNT were similar for synaptic glycine and
GABA
(A) receptors (56 vs 48.9% increases, respectively). We concluded that motor axon excitatory synaptic activity modulates the development of inhibitory synapse properties on Renshaw cells, influencing recruitment of postsynaptic gephyrin and glycine receptors and, to lesser extent,
GABA
(A) receptors.
...
PMID:Regulation of gephyrin cluster size and inhibitory synaptic currents on Renshaw cells by motor axon excitatory inputs. 1564 85
Chronic migraine is a severely disabling headache evolving from episodic migraine as a result of different transforming factors and characterized by atypical pain modulation and peripheral and central sensitization. Discovered by serendipity, onabotulinum toxin A (BoNT-A) represents the only drug specifically approved for CM prophylaxis. According to the dominant opinion,
BoNT
-A acts peripherally, impairing the exocytosis of neuropeptide and neurotransmitter and the delivery of receptors and ion channels on the cell surface of peripheral trigeminal endings, thereby indirectly reducing central sensitization. However, it is not excluded that
BoNT
-A has also a central antinociceptive action, probably associated with an enhanced opioidergic and
GABA
-ergic transmission. This review discusses the rationale for use of
BoNT
-A in CM including its mechanisms of action and molecular targets and provides suggestions for a more tailored
BoNT
-A prophylaxis in patients with CM.
...
PMID:Rationale for use of onabotulinum toxin A (BOTOX) in chronic migraine. 2601 7
