The second BoNT thus fulfilled classic criteria for being designated BoNT/H. IBCA10-7060 is the first C. botulinum type Bh strain to be identified. BoNT/H is the first new botulinum toxin type to be recognized in >40 years, and its recognition could not have been accomplished without the availability of the mouse bioassay.
We sequenced the 2 botulinum toxin gene clusters of Clostridium botulinum strain IBCA10-7060 type Bh. The sequence of bont/H differed substantially from the sequences of the 7 known bont genes for toxin types A-G. The 5' one-third terminus of bont/H that codes for the botulinum toxin light chain differed markedly from the light chain coding sequences of toxin types A-G. The 3' two-thirds terminus of bont/H that codes for the botulinum toxin heavy chain contained a novel Hn translocation domain coding sequence and a nonneutralizing type A-like Hc binding domain coding sequence. bont/H was part of an orfX toxin gene cluster that was located at a unique chromosomal site distant from those used by other botulinum toxin gene clusters. The bont/B sequence was similar to that of subtype bont/B2 and was located within its ha toxin gene cluster at the oppA/brnQ site. Our findings further establish that C. botulinum IBCA10-7060 produces novel BoNT/H.
BackgroundA highly sensitive, rapid and cost efficient method that can detect active botulinum neurotoxin (BoNT) in complex biological samples such as foods or serum is desired in order to 1) counter the potential bioterrorist threat 2) enhance food safety 3) enable future pharmacokinetic studies in medical applications that utilize BoNTs.Methodology/Principal FindingsHere we describe a botulinum neurotoxin serotype A assay with a large immuno-sorbent surface area (BoNT/A ALISSA) that captures a low number of toxin molecules and measures their intrinsic metalloprotease activity with a fluorogenic substrate. In direct comparison with the “gold standard” mouse bioassay, the ALISSA is four to five orders of magnitudes more sensitive and considerably faster. Our method reaches attomolar sensitivities in serum, milk, carrot juice, and in the diluent fluid used in the mouse assay. ALISSA has high specificity for the targeted type A toxin when tested against alternative proteases including other BoNT serotypes and trypsin, and it detects the holotoxin as well as the multi-protein complex form of BoNT/A. The assay was optimized for temperature, substrate concentration, size and volume proportions of the immuno-sorbent matrix, enrichment and reaction times. Finally, a kinetic model is presented that is consistent with the observed improvement in sensitivity.Conclusions/SignificanceThe sensitivity, specificity, speed and simplicity of the BoNT ALISSA should make this method attractive for diagnostic, biodefense and pharmacological applications.
A total of 41 Clostridium botulinum serotype E strains from different geographic regions, including Canada, Denmark, Finland, France, Greenland, Japan, and the United States, were compared by multilocus sequence typing (MLST), amplified fragment length polymorphism (AFLP) analysis, variable-number tandem-repeat (VNTR) analysis, and botulinum neurotoxin (bont) E gene sequencing. The strains, representing environmental, food-borne, and infant botulism samples collected from 1932 to 2007, were analyzed to compare serotype E strains from different geographic regions and types of botulism and to determine whether each of the strains contained the transposon-associated recombinase rarA, involved with bont/E insertion. MLST examination using 15 genes clustered the strains into several clades, with most members within a cluster sharing the same BoNT/E subtype (BoNT/E1, E2, E3, or E6). Sequencing of the bont/E gene identified two new variants (E7, E8) that showed regions of recombination with other E subtypes. The AFLP dendrogram clustered the 41 strains similarly to the MLST dendrogram. Strains that could not be differentiated by AFLP, MLST, or bont gene sequencing were further examined using three VNTR regions. Both intact and split rarA genes were amplified by PCR in each of the strains, and their identities were confirmed in 11 strains by amplicon sequencing. The findings suggest that (i) the C. botulinum serotype E strains result from the targeted insertion of the bont/E gene into genetically conserved bacteria and (ii) recombination events (not random mutations) within bont/E result in toxin variants or subtypes within strains.
ᰔBotulinum neurotoxin, the most poisonous substance known and a potential biothreat agent (1), causes human and animal botulism worldwide (4,9). This toxin is encoded by the bont gene as part of a cluster that includes nontoxic accessory genes (10). Two main gene clusters are known: the hemagglutinincontaining (haϩ) cluster in toxin serotypes A1, B, C, D, and G and the orfX cluster in toxin serotypes A, E, and F (7, 10). In addition, some Clostridium botulinum type A strains (e.g., NCTC2916) contain a silent type B gene in their chromosome, designated A(B). The silent B toxin genes described to date contain the full length of the active type B gene cluster and one or more mutations that result in an unexpressed type B neurotoxin (3,8).Here we report the first infant botulism case resulting from a rare bont/A5 subtype, which we unexpectedly found to be part of a novel neurotoxin type A/B gene arrangement. Our bont/A5 gene sequence differs by 2 bp from the bont/A5 sequence previously identified in four wound botulism cases (2). The California infant strain, designated IBCA94-0216, was characterized by sequencing the toxin complex genes and their flanking regions (GenBank accession number FJ959094). Sequence analysis confirmed that the bont/A5 is located within a hemagglutinin complex (haϩ) that contains the genes ha70, ha17, ha33, botR, ntnh, and bont/A5 (Fig. 1). This type of toxin cluster is commonly associated with strains bont/A1 and bont/B but is not found in strains bont/A2, bont/A3, and bont/A4 (7, 10). The IBCA94-0216 neurotoxin gene cluster has an unexpected 76-bp deletion between the genes ha33 and botR. This is the first example of such a deletion.Downstream from bont/A5 are two copies of transposases belonging to the is3 family, a structure identical to the downstream flanking sequence of the type A1 Hall neurotoxin gene cluster ( Fig. 1) (10). Interestingly, 2,041 bp downstream from the bont/A5 gene and immediately following the second is3 is a partial bont/B gene that is only 65% of a full-length bont/B (6). The partial bont/B gene lacks the nucleotide sequence coding for the light chain of the toxin and begins at nucleotide 1362 of the 3,876-nucleotide full-length toxin gene. Comparisons of this region (1,362 to 3,876 nucleotides) revealed it is most similar to the rare bont/B3 subtype (5). The entire IBCA94-0216 bont/A/B cluster is flanked by a 5Ј flagellin gene and a 3Ј transposase, as is found in the silent type B gene cluster of strain NCTC2916 (7).Nucleic acid pairwise identities (using the Kimura two-parameter method in MEGA4 software) of the toxin cluster genes show that the IBCA94-0216 A5 neurotoxin and ntnh genes are most similar to the type A1 Hall neurotoxin and ntnh genes, respectively, while the hemagglutinin genes are most similar to the hemagglutinin genes of type B strains. This mosaic gene arrangement and the presence of the partial type B neurotoxin gene lead us to speculate that some form of genetic rearrangement occurred between type A and type B neurotoxin gene clusters in the c...
Sanger and shotgun sequencing of Clostridium botulinum strain Af84 type Af and its botulinum neurotoxin gene (bont) clusters identified the presence of three bont gene clusters rather than the expected two. The three toxin gene clusters consisted of bont subtypes A2, F4 and F5. The bont/A2 and bont/F4 gene clusters were located within the chromosome (the latter in a novel location), while the bont/F5 toxin gene cluster was located within a large 246 kb plasmid. These findings are the first identification of a C. botulinum strain that contains three botulinum neurotoxin gene clusters.
Background. Only Clostridium botulinum strain IBCA10-7060 produces the recently described novel botulinum neurotoxin type H (BoNT/H). BoNT/H (N-terminal two-thirds most homologous to BoNT/F and C-terminal one-third most homologous to BoNT/A) requires antitoxin to toxin ratios ≥1190:1 for neutralization by existing antitoxins. Hence, more potent and safer antitoxins against BoNT/H are needed.Methods. We therefore evaluated our existing monoclonal antibodies (mAbs) to BoNT/A and BoNT/F for BoNT/H binding, created yeast-displayed mutants to select for higher-affinity-binding mAbs by using flow cytometry, and evaluated the mAbs' ability to neutralize BoNT/H in the standard mouse bioassay.Results. Anti-BoNT/A HCC-binding mAbs RAZ1 and CR2 bound BoNT/H with high affinity. However, only 1 of 6 BoNT/F mAbs (4E17.2A) bound BoNT/H but with an affinity >800-fold lower (equilibrium dissociation binding constant [KD] = 7.56 × 10−8 M) than its BoNT/F affinity (KD = 9.1 × 10−11 M), indicating that the N-terminal two-thirds of BoNT/H is immunologically unique. The affinity of 4E17.2A for BoNT/H was increased >500-fold to KD = 1.48 × 10−10 M (mAb 4E17.2D). A combination of mAbs RAZ1, CR2, and 4E17.2D completely protected mice challenged with 280 mouse median lethal doses of BoNT/H at a mAb dose as low as 5 µg of total antibody.Conclusions. This 3-mAb combination potently neutralized BoNT/H and represents a potential human antitoxin that could be developed for the prevention and treatment of type H botulism.
A retrospective study of Clostridium botulinum strains isolated from patients from California with infant botulism identified the fourth known C. botulinum strain that produces both type B and type F botulinum toxins. This unique strain represented 0.12% of the California infant botulism case isolates from 1976 to 2003. The relative concentrations of type B and F toxins produced were temperature dependent.
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