Sequence Variation within Botulinum Neurotoxin Serotypes Impacts Antibody Binding and Neutralization

Smith, Theresa J.; Lou, Jianlong; Geren, Isin N.; Forsyth, Charles M.; Tsai, Richard; LaPorte, Sherry L.; Tepp, William H.; Bradshaw, Marite; Johnson, Eric A.; Smith, Leonard A.; Marks, James D.

doi:10.1128/iai.73.9.5450-5457.2005

Cited by 264 publications

(260 citation statements)

References 54 publications

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“…This additional level of protection is far superior to that of the conventional pentavalent BoNT vaccine not optimized to include mucosal anti-BoNT immunity. A final disadvantage is that, although traditionally BoNTs have been grouped as one of seven serotypes, it has become apparent that each serotype is actually composed of a family of closely related subtypes in which the primary sequence of each BoNT/A subtype can vary by as much as 32% (30). Therefore, it would be advantageous to produce a vaccine that can preserve as many of the neutralizing and cross-neutralizing epitopes among serotypes and serotype variants.…”

Section: Discussionmentioning

confidence: 99%

Mucosal Vaccine Targeting Improves Onset of Mucosal and Systemic Immunity to Botulinum Neurotoxin A

Maddaloni

Staats

Mierzejewska

et al. 2006

The Journal of Immunology

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Absence of suitable mucosal adjuvants for humans prompted us to consider alternative vaccine designs for mucosal immunization. Because adenovirus is adept in binding to the respiratory epithelium, we tested the adenovirus 2 fiber protein (Ad2F) as a potential vaccine-targeting molecule to mediate vaccine uptake. The vaccine component (the host cell-binding domain to botulinum toxin (BoNT) serotype A) was genetically fused to Ad2F to enable epithelial binding. The binding domain for BoNT was selected because it lies within the immunodominant H chain as a β-trefoil (Hcβtre) structure; we hypothesize that induced neutralizing Abs should be protective. Mice were nasally immunized with the Hcβtre or Hcβtre-Ad2F, with or without cholera toxin (CT). Without CT, mice immunized with Hcβtre produced weak secretory IgA (sIgA) and plasma IgG Ab response. Hcβtre-Ad2F-immunized mice produced a sIgA response equivalent to mice coimmunized with CT. With CT, Hcβtre-Ad2F-immunized mice showed a more rapid onset of sIgA and plasma IgG Ab responses that were supported by a mixed Th1/Th2 cells, as opposed to mostly Th2 cells by Hcβtre-dosed mice. Mice immunized with adjuvanted Hcβtre-Ad2F or Hcβtre were protected against lethal BoNT serotype A challenge. Using a mouse neutralization assay, fecal Abs from Hcβtre-Ad2F or Hcβtre plus CT-dosed mice could confer protection. Parenteral immunization showed that the inclusion of Ad2F enhances anti-Hcβtre Ab titers even in the absence of adjuvant. This study shows that the Hcβtre structure can confer protective immunity and that use of Hcβtre-Ad2F gives more rapid and sustained mucosal and plasma Ab responses.

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Section: Discussionmentioning

confidence: 99%

Mucosal Vaccine Targeting Improves Onset of Mucosal and Systemic Immunity to Botulinum Neurotoxin A

Maddaloni

Staats

Mierzejewska

et al. 2006

The Journal of Immunology

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“…However, botulinum neurotoxins are known to be diverse [31,32], with multiple subtypes that present distinct challenges in designing effective prophylactic and therapeutic molecules. While some toxin subtypes differ by as much as 32%, only the C and D serotypes show specific mosaic patterns, which make protection after vaccination particularly challenging.…”

Section: Discussionmentioning

confidence: 99%

Protection with recombinant Clostridium botulinum C1 and D binding domain subunit (Hc) vaccines against C and D neurotoxins

Webb¹,

Smith²,

Wright³

et al. 2007

Vaccine

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Recombinant botulinum Hc (rBoNT Hc) vaccines for serotypes C1 and D were produced in the yeast Pichia pastoris and used to determine protection against four distinct BoNT C and D toxin subtypes. Mice were vaccinated with rBoNT/C1 Hc, rBoNT/D Hc, or with a combination of both vaccines and challenged with BoNT C1, D, C/D, or D/C toxin. Mice receiving monovalent vaccinations were partially or completely protected against homologous toxin and not protected against heterologous toxin. Bivalent vaccine candidates completely survived challenges from all toxins except D/C toxin. These results indicate the recombinant C1 and D Hc vaccines are not only effective in a monovalent formula but offer complete protection against both parental and C/D mosaic toxin and partial protection against D/C mosaic toxin when delivered as a bivalent vaccine.

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“…Human botulism is generally associated with exposures to BoNTs of the serotypes A, B, E, and F. In addition to distinct serotypes, many BoNT subtypes have been recently identified based on their sequence variations and antigenic differences. [4][5][6] For example, gene sequence analysis has identified five BoNT/A subtypes (A1 through A5). [7][8][9] Whereas the sequence similarity among different serotypes is relatively low, the subtypes within a BoNT serotype generally exhibit high sequence similarity.…”

Section: Introductionmentioning

confidence: 99%

Subtyping Botulinum Neurotoxins by Sequential Multiple Endoproteases In-Gel Digestion Coupled with Mass Spectrometry

Wang¹,

Baudys²,

Rees³

et al. 2012

Anal. Chem.

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Botulinum neurotoxin (BoNT) is one of the most toxic substances known. BoNT is classified into seven distinct serotypes labeled A through G. Among individual serotypes, researchers have identified subtypes based on amino acid variability within a serotype and toxin variants with minor amino acid sequence differences within a subtype. BoNT subtype identification is valuable for tracing and tracking bacterial pathogens. A proteomics approach is useful for BoNT subtyping since botulism is caused by botulinum neurotoxin and does not require the presence of the bacteria or its DNA. Enzymatic digestion and peptide identification using tandem mass spectrometry determines toxin protein sequences. But with the conventional one-step digestion method, producing sufficient numbers of detectable peptides to cover the entire protein sequence is difficult and incomplete sequence coverage results in uncertainty in distinguishing BoNT subtypes and toxin variants because of high sequence similarity. We report here a method of multiple enzymes and sequential in-gel digestion (MESID) to characterize the BoNT protein sequence. Complementary peptide detection from toxin digestions has yielded near-complete sequence coverage for all seven BoNT serotypes. Application of the method to a BoNT-contaminated carrot juice sample resulted in the identification of 98.4% protein sequence which led to a confident determination of the toxin subtype.

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Sequence Variation within Botulinum Neurotoxin Serotypes Impacts Antibody Binding and Neutralization

Cited by 264 publications

References 54 publications

Mucosal Vaccine Targeting Improves Onset of Mucosal and Systemic Immunity to Botulinum Neurotoxin A

Mucosal Vaccine Targeting Improves Onset of Mucosal and Systemic Immunity to Botulinum Neurotoxin A

Protection with recombinant Clostridium botulinum C1 and D binding domain subunit (Hc) vaccines against C and D neurotoxins

Subtyping Botulinum Neurotoxins by Sequential Multiple Endoproteases In-Gel Digestion Coupled with Mass Spectrometry

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