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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)
Reductive methylation of
botulinum neurotoxin
(NT) serotypes A and B at various ratios of protein to reagent modified up to 75% of the
lysine
residues. Amino acid analysis of the modified proteins (HCl hydrolysed) confirmed selective modifications of
lysine
. The derivative N,N-dimethyl
lysine
was more abundant than monomethyl
lysine
; trimethyl
lysine
was not detected. Distribution of modified
lysine
residues among the heavy and light chains (Mr approximately 100,000 and approximately 50,000, respectively) of the dichain type A NT (Mr approximately 150,000) was approximately proportional to the
lysine
contents of the two subunit chains of the NT. Toxicity (mouse lethality) and serological reactivity (polyclonal antibody) of serotype A NT were not (or insignificantly) damaged following methylation of up to 72
lysine
residues. Modification of 3 additional residues caused precipitous loss in toxicity. Toxicity of serotype B NT, unlike type A, appeared more sensitive to
lysine
modification. The large number of
lysine
residues that can be methylated without damaging toxicity of type A NT can be exploited to a) radiolabel the dichain protein exclusively in one chain keeping the other chain unlabelled, b) restrict the number of tryptic cleavage sites of the NT, and c) tag the protein with various markers or reactive ligands.
...
PMID:Reductive methylation of lysine residues of botulinum neurotoxin types A and B. 314 88
Clostridium
botulinum neurotoxin
type A (BTx-A) is known to inhibit the release of acetylcholine at the neuromuscular junctions and synapses and to cause neuroparalysis and death. In this study, we have identified two monoclonal antibodies, BT57-1 and BT150-3, which protect ICR mice against lethal doses of BTx-A challenge. The neutralizing activities for BT57-1 and BT150-3 were 10(3) and 10(4) times the 50% lethal dose, respectively. Using immunoblotting analysis, BT57-1 was recognized as a light chain and BT150-3 was recognized as a heavy chain of BTx-A. Also, applying the phage display method, we investigated the antibodies' neutralizing B-cell epitopes. These immunopositive phage clones displayed consensus motifs, Asp-Pro-Leu for BT57-1 and Cys-X-Asp-Cys for BT150. The synthetic peptide P4M (KGTFDPLQEPRT) corresponded to the phage-displayed peptide selected by BT57-1 and was able to bind the antibodies specifically. This peptide was also shown by competitive inhibition assay to be able to inhibit phage clone binding to BT57-1. Aspartic acid (D(5)) in P4M was crucial to the binding of P4M to BT57-1, since its binding activity dramatically decreased when it was changed to
lysine
(K(5)). Finally, immunizing mice with the selected phage clones elicited a specific humoral response against BTx-A. These results suggest that phage-displayed random-peptide libraries are useful in identifying the neutralizing epitopes of monoclonal antibodies. In the future, the identification of the neutralizing epitopes of BTx-A may provide important information for the identification of the BTx-A receptor and the design of a BTx-A vaccine.
...
PMID:Characterization of neutralizing antibodies and identification of neutralizing epitope mimics on the Clostridium botulinum neurotoxin type A. 1142 42
The seven botulinum neurotoxins (BoNTs) are zinc metalloproteases that cleave neuronal proteins involved in neurotransmitter release and are among the most toxic natural products known. High-throughput
BoNT
assays are needed for use in antibotulinum drug discovery and to characterize
BoNT
protease activities. Compared to other proteases, BoNTs exhibit unusually stringent substrate requirements with respect to amino acid sequences and polypeptide lengths. Nonetheless, we have devised a strategy for development of fluorigenic
BoNT
protease assays, based on earlier structure-function studies, that has proven successful for three of the seven serotypes: A, B, and F. In synthetic peptide substrates, the P(1) and P(3)' residues were substituted with 2,4-dinitrophenyl-
lysine
and S-(N-[4-methyl-7-dimethylamino-coumarin-3-yl]-carboxamidomethyl)-cysteine, respectively. By monitoring the
BoNT
-catalyzed increase in fluorescence over time, initial hydrolysis rates could be obtained in 1 to 2 min when
BoNT
concentrations were 60 ng/ml (about 1 nM) or higher. Each
BoNT
cleaved its fluorigenic substrate at the same location as in the neuronal target protein, and kinetic constants indicated that the substrates were selective and efficient. The fluorigenic assay for
BoNT
B was used to characterize a new competitive inhibitor of
BoNT
B protease activity with a K(i) value of 4 micro M. In addition to real-time activity measurements, toxin concentration determinations, and kinetic studies, the
BoNT
substrates described herein may be directly incorporated into automated high-throughput assay systems to screen large numbers of compounds for potential antibotulinum drugs.
...
PMID:Fluorigenic substrates for the protease activities of botulinum neurotoxins, serotypes A, B, and F. 1251 8
Clostridium botulinum type B neurotoxin was effectively bound to synaptotagmin 2 (Stg2) associated with ganglioside GT1b, however, the molecular interaction between the neurotoxin and the Stg2/GT1b complex has not been identified. Previously, we found that infant botulism-related strain 111 generated a low activity of the neurotoxin (111/NT), which differed in some amino acid residues, especially in the carboxyl terminal half of the heavy chain (H(C)), from the original neurotoxin of strain Okra (Okra/NT) associated with a food-borne botulism. In this study, we evaluated the binding capabilities of site-directed mutants of Okra/H(C) to the Stg2/GT1b complex and to GT1b alone, and investigated the relationship between the toxic action and receptor binding. Replacement of K1187 and E1190 with glutamic acid and
lysine
, respectively, which substituted for the 111/NT residues, caused a reduction of binding affinity to the Stg2/GT1b complex, suggesting that both these residues contribute to the different binding affinity between Okra/NT and 111/NT. Substitution of four residues, H1240, S1259, W1261 and Y1262, which form a ganglioside pocket, drastically decreased the binding of H(C) to the Stg2/GT1b complex and to GT1b. Mutation in the residues, K1186, E1189, K1191 and K1260 reduced the binding of H(C) to GT1b alone, but not to the Stg2/GT1b complex. Analyses of effects of mutant toxins on toxicity of
BoNT
/B to cerebellar granule cells suggest the association of cell toxicity with binding to Stg2/GT1b complex but not that to GT1b alone.
...
PMID:Differential contribution of the residues in C-terminal half of the heavy chain of botulinum neurotoxin type B to its binding to the ganglioside GT1b and the synaptotagmin 2/GT1b complex. 1718 34
