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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)
The seven types (A--G) of
botulinum neurotoxin
(
BoNT
) are Zn2+ -dependent endoproteases that potently block neurosecretion. Syntaxin is presently thought to be the sole substrate for
BoNT
/C1, and synaptosomal-associated protein of Mr = 25 000 (SNAP-25) is selectively proteolyzed by types A and E. In this study, the effects of C1 on Ca2+ -regulated exocytosis of dense core granules from adreno-chromaffin cells were examined together with its underlying molecular action. Intact chromaffin cells were exposed to the toxin, and catecholamine release therefrom was then measured in conjunction with the monitoring of syntaxin cleavage by Western blotting. A good correlation was obtained between degradation of syntaxin 1A/B and reduction in Ca2+- or Ba2+-dependent secretion. However, blotting with antibodies against a
C-terminal peptide
of SNAP-25 revealed the additional disappearance of immunoreactivity, with the same toxin concentration dependency as syntaxin breakdown. Notably, the cleaved SNAP-25 product was similar in size to that produced by BoNT/A; however, contamination of
BoNT
/C1 by serotypes A or E was eliminated. Therefore, it is concluded that syntaxin 1A/B and SNAP-25 are cleaved in intact cells poisoned with only C1. Notably, C1 treatment of chromaffin cells abolished Ca2+ -evoked secretion following digitonin permeabilization, compared with partial inhibition by BoNT/A, suggesting the importance of syntaxin for catecholamine release. Unexpectedly, C1 failed to proteolyze a soluble recombinant SNAP-25, even though it served as an efficient substrate for BoNT/A. These interesting observations suggest that C1 can only efficiently cleave SNAP-25 in intact cells, possibly due to the existence therein of a unique conformation and/or the participation of accessory factors.
...
PMID:Botulinum neurotoxin C1 cleaves both syntaxin and SNAP-25 in intact and permeabilized chromaffin cells: correlation with its blockade of catecholamine release. 861 67
The Ca2+-activated fusion of large dense core vesicles (LDCVs) with the plasma membrane is reconstituted in mechanically permeabilized PC12 cells by provision of millimolar MgATP and cytosolic proteins. Ca2+-activated LDCV exocytosis was inhibited completely by the type E but not the type A
botulinum neurotoxin
(
BoNT
) even though both BoNTs were equally effective in proteolytically cleaving the synaptosome-associated protein of 25 kDa (SNAP-25). The greater inhibition of exocytosis by
BoNT
E correlated with a greater destabilization of detergent-extracted complexes consisting of SNAP-25, synaptobrevin, and syntaxin. LDCVs in permeable PC12 cells can be poised at a late postdocking, prefusion state by MgATP-dependent priming processes catalyzed by N-ethylmaleimide sensitive factor and priming in exocytosis proteins.
BoNT
E completely blocked Ca2+-activated LDCV exocytosis in ATP-primed cells, whereas
BoNT
A was only slightly inhibitory, implying that the C-terminal region of SNAP-25 (Ile181-Gln197) between the cleavage sites for
BoNT
E and
BoNT
A is essential for late postdocking steps. A required role for SNAP-25 at this stage was also indicated by inhibition of Ca2+-activated LDCV fusion in ATP-primed cells by a
C-terminal peptide
antibody. We conclude that plasma membrane SNAP-25, particularly residues 181-197, is required for Ca2+-regulated membrane fusion at a step beyond LDCV docking and ATP utilization.
...
PMID:SNAP-25 is required for a late postdocking step in Ca2+-dependent exocytosis. 870 51
Membrane fusion requires the formation of four-helical bundles comprised of the SNARE proteins syntaxin, vesicle-associated membrane protein (VAMP), and the synaptosomal-associated protein of 25 kDa (SNAP-25). Botulinum neurotoxin E cleaves the C-terminal coil of SNAP-25, inhibiting exocytosis of norepinephrine from permeabilized PC12 cells. Addition of a 26-mer peptide comprising the C terminus of SNAP-25 that is cleaved by the toxin restores exocytosis, demonstrating that continuity of the SNAP-25 C-terminal helix is not critical for its function. By contrast, vesicle-associated membrane protein peptides could not rescue
botulinum neurotoxin
D-treated cells, suggesting that helix continuity is critical for VAMP function. Much higher concentrations of the SNAP-25
C-terminal peptide
are required for rescuing exocytosis (K(assembly) = approximately 460 microm) than for binding to other SNAREs in vitro (Kd < 5 microm). Each residue of the peptide was mutated to alanine to assess its functional importance. Whereas most mutants rescue exocytosis with lower efficiency than the wild type peptide, D186A rescues with higher efficiency, and kinetic analysis suggests this is because of higher affinity for the cellular binding site. This is consistent with Asp-186 contributing to negative regulation of the fusion process.
...
PMID:A discontinuous SNAP-25 C-terminal coil supports exocytosis. 1137 87
Botulinum neurotoxin serotypes A and E (BoNT/A and
BoNT
/E) block neurotransmitter release by cleaving the 206-amino-acid SNARE protein, SNAP-25. For each
BoNT
serotype, cleavage of SNAP-25 results in the loss of intact protein, the production of an N-terminal truncated protein, and the generation of a small
C-terminal peptide
. Peptides that mimic the C-terminal fragments of SNAP-25 following BoNT/A or
BoNT
/E cleavage were shown to depress transmitter release in bovine chromaffin cells and in Aplysia buccal ganglion cells. Similarly, the N-terminal-truncated SNAP-25 resulting from BoNT/A or
BoNT
/E cleavage has been found to inhibit transmitter exocytosis in various systems. With one exception, however, the inhibitory action of truncated SNAP-25 has not been demonstrated at a well-defined cholinergic synapse. The goal of the current study was to determine the level of inhibition of neurotransmitter release by N-terminal BoNT/A- or
BoNT
/E-truncated SNAP-25 in two different neuronal systems: cholinergically coupled Aplysia neurons and rat hippocampal cell cultures. Both truncated SNAP-25 products inhibited depolarization-dependent glutamate release from hippocampal cultures and depressed synaptic transmission in Aplysia buccal ganglion cells. These results suggest that truncated SNAP-25 can compete with endogenous SNAP-25 for binding with other SNARE proteins involved in transmitter release, thus inhibiting neurotransmitter exocytosis.
...
PMID:Inhibition of neurotransmitter release by peptides that mimic the N-terminal domain of SNAP-25. 1276 Apr 19
Synaptophysin and synaptobrevin are abundant membrane proteins of neuronal small synaptic vesicles. In mature, differentiated neurons they form the synaptophysin/synaptobrevin (Syp/Syb) complex. Synaptobrevin also interacts with the plasma membrane-associated proteins syntaxin and SNAP25, thereby forming the SNARE complex necessary for exocytotic membrane fusion. The two complexes are mutually exclusive. Synaptobrevin is a C-terminally membrane-anchored protein with one transmembrane domain. While its interaction with its SNARE partners is mediated exclusively by its N-terminal cytosolic region it has been unclear so far how binding to synaptophysin is accomplished. Here, we show that synaptobrevin can be cleaved in its synaptophysin-bound form by tetanus toxin and
botulinum neurotoxin
B, or by
botulinum neurotoxin
D, leaving shorter or longer
C-terminal peptide
chains bound to synaptophysin, respectively. A recombinant, C-terminally His-tagged synaptobrevin fragment bound to nickel beads specifically bound synaptophysin, syntaxin and SNAP25 from vesicular detergent extracts. After cleavage by tetanus toxin or botulinum toxin D light chain, the remaining C-terminal fragment no longer interacted with syntaxin or SNAP 25. In contrast, synaptophysin was still able to bind to the residual C-terminal synaptobrevin cleavage product. In addition, the His-tagged C-terminal synaptobrevin peptide 68-116 was also able to bind synaptophysin in detergent extracts from adult brain membranes. These data suggest that synaptophysin interacts with the C-terminal transmembrane part of synaptobrevin, thereby allowing the N-terminal cytosolic chain to interact freely with the plasma membrane-associated SNARE proteins. Thus, by binding synaptobrevin, synaptophysin may positively modulate neurotransmission.
...
PMID:The C-terminal transmembrane region of synaptobrevin binds synaptophysin from adult synaptic vesicles. 1590 Jul 6
Syntaxin (stx)-1 is an integral plasma membrane protein that is crucial for two distinct steps of regulated exocytosis, docking of secretory granules at the plasma membrane and membrane fusion. During docking, stx1 clusters at the granule docking site, together with the S/M protein munc18. Here we determined features of stx1 that contribute to its clustering at granules. In live insulin-secreting cells, stx1 and stx3 (but not stx4 or stx11) accumulated at docked granules, and stx1 (but not stx4) rescued docking in cells expressing
botulinum neurotoxin
-C. Using a series of stx1 deletion mutants and stx1/4 chimeras, we found that all four helical domains (Ha, Hb, Hc, SNARE) and the short
N-terminal peptide
contribute to recruitment to granules. However, only the Hc domain confers specificity, and it must be derived from stx1 for recruitment to occur. Point mutations in the Hc or the
N-terminal peptide
designed to interfere with binding to munc18-1 prevent stx1 from clustering at granules, and a mutant munc18 deficient in binding to stx1 does not cluster at granules. We conclude that stx1 is recruited to the docking site in a munc18-1-bound conformation, providing a rationale for the requirement for both proteins for granule docking.
...
PMID:Syntaxin clusters at secretory granules in a munc18-bound conformation. 3015 74
