Vaccination with mutant toxin against STEC in pigs

Vibrio parahaemolyticus secretes thermostable direct hemolysin (TDH), a major virulence factor. Earlier studies report that TDH is a pore-forming toxin. However, the characteristics of pores formed by TDH in the lipid bilayer, which is permeable to small ions, remain to be elucidated. Ion channel-like activities were observed in lipid bilayers containing TDH. Three types of conductance were identified. All the channels displayed relatively low ion selectivity, and similar ion permeability. The Cl− channel inhibitors, DIDS, glybenclamide, and NPPB, did not affect the channel activity of pores formed by TDH. R7, a mutant toxin of TDH, also forms pores with channel-like activity in lipid bilayers. The ion permeability of these channels is similar to that of TDH. R7 binds cultured cells and liposomes to a lower extent, compared to TDH. R7 does not display significant hemolytic activity and cell cytotoxicity, possibly owing to the difficulty of insertion into lipid membranes. Once R7 is assembled within lipid membranes, it may assume the same structure as TDH. The authors propose that the single glycine at position 62, substituted with serine in the R7 mutant toxin, plays an important role in TDH insertion into the lipid bilayer.

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Native and Mutant Forms of Cholera Toxin and Heat-Labile Enterotoxin Effectively Enhance Protective Efficacy of Live Attenuated and Heat-Killed Shigella Vaccines

Infection and Immunity ◽

10.1128/iai.67.11.5841-5847.1999 ◽

1999 ◽

Vol 67 (11) ◽

pp. 5841-5847 ◽

Cited By ~ 28

Author(s):

Antoinette B. Hartman ◽

Lillian L. Van De Verg ◽

Malabi M. Venkatesan

Keyword(s):

Guinea Pig ◽

Cholera Toxin ◽

Protective Efficacy ◽

Shigella Flexneri ◽

Serum Antibody ◽

Adjuvant Effect ◽

O Antigen ◽

Heat Labile ◽

Mutant Forms ◽

Mutant Toxin

Both native and mutant forms of cholera toxin (CT) and heat-labile enterotoxin (LT) are effective adjuvants for antigens and killed whole-cell preparations. To determine whether these toxin molecules could also boost the immunogenicity and efficacy of live attenuated vaccines directed against shigellosis, the guinea pig keratoconjunctivitis model was used to evaluate the adjuvant effect of these toxin molecules on EcSf2a-3, a ΔvirG ΔaroD Escherichia coli-Shigella flexneri 2a hybrid vaccine strain that was previously found to be less protective than its parent strain in the guinea pig model. Experiments using native and mutant toxin molecules showed that both CT and LT and mutant derivatives were effective as an adjuvant for EcSf2a-3 and that the mutant toxin molecules, which were developed to retain adjuvanticity without the toxicity associated with the native molecules, were as effective as the native toxin molecules as adjuvants. Protective efficacy was enhanced for both the oral and intranasal routes of immunization. Serum antibody response to theS. flexneri 2a O antigen, the primary antigen for protective immunity, was not dependent on the addition of an adjuvant. However, enumeration of the O-antigen-specific immunoglobulin G (IgG) and IgA antibody-secreting cells in the spleen and draining lymph nodes following intranasal immunization suggested that enhancement of the local immune response by the toxin molecules may contribute to the observed increase in protective efficacy. The efficacy of heat-killedS. flexneri 2a was enhanced only by mutant LT molecules. These results suggest that the best candidates for enhancing the efficacy of both live attenuated and heat-killed Shigellavaccines with minimal reactogenicity are the mutant toxin molecules.

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Crystallization and preliminary crystallographic study of the functional form of theBacillus thuringiensismosquito-larvicidal Cry4Aa mutant toxin

Acta Crystallographica Section D Biological Crystallography ◽

10.1107/s0907444904011205 ◽

2004 ◽

Vol 60 (7) ◽

pp. 1315-1318 ◽

Cited By ~ 5

Author(s):

Panadda Boonserm ◽

Chanan Angsuthanasombat ◽

Julien Lescar

Keyword(s):

Functional Form ◽

Crystallographic Study ◽

Mutant Toxin

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Comparison of the Diphtheria Mutant Toxin, Crm197, with a Haemophilus Influenzae Type-b Polysaccharide-Crm197 Conjugate by Optical Spectroscopy

European Journal of Biochemistry ◽

10.1111/j.1432-1033.1997.00320.x ◽

1997 ◽

Vol 246 (2) ◽

pp. 320-327 ◽

Cited By ~ 21

Author(s):

Dennis T. Crane ◽

Barbara Bolgiano ◽

Christopher Jones

Keyword(s):

Haemophilus Influenzae ◽

Optical Spectroscopy ◽

Haemophilus Influenzae Type ◽

Haemophilus Influenzae Type B ◽

Type B ◽

Mutant Toxin

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Aggregation of Bacillus thuringiensisCry1A Toxins upon Binding to Target Insect Larval Midgut Vesicles

Applied and Environmental Microbiology ◽

10.1128/aem.65.6.2503-2507.1999 ◽

1999 ◽

Vol 65 (6) ◽

pp. 2503-2507 ◽

Cited By ~ 59

Author(s):

Arthur I. Aronson ◽

Chaoxian Geng ◽

Lan Wu

Keyword(s):

Heliothis Virescens ◽

Tight Binding ◽

Amino Terminus ◽

Irreversible Binding ◽

Insect Larvae ◽

Mild Conditions ◽

Amphipathic Helices ◽

Cry1ac Toxin ◽

Toxin Receptor ◽

Mutant Toxin

ABSTRACT During sporulation, Bacillus thuringiensis produces crystalline inclusions comprised of a mixture of δ-endotoxins. Following ingestion by insect larvae, these inclusion proteins are solubilized, and the protoxins are converted to toxins. These bind specifically to receptors on the surfaces of midgut apical cells and are then incorporated into the membrane to form ion channels. The steps required for toxin insertion into the membrane and possible oligomerization to form a channel have been examined. When bound to vesicles from the midguts of Manduca sexta larvae, the Cry1Ac toxin was largely resistant to digestion with protease K. Only about 60 amino acids were removed from the Cry1Ac amino terminus, which included primarily helix α1. Following incubation of the Cry1Ab or Cry1Ac toxins with vesicles, the preparations were solubilized by relatively mild conditions, and the toxin antigens were analyzed by immunoblotting. In both cases, most of the toxin formed a large, antigenic aggregate of ca. 200 kDa. These toxin aggregates did not include the toxin receptor aminopeptidase N, but interactions with other vesicle components were not excluded. No oligomerization occurred when inactive toxins with mutations in amphipathic helices (α5) and known to insert into the membrane were tested. Active toxins with other mutations in this helix did form oligomers. There was one exception; a very active helix α5 mutant toxin bound very well to membranes, but no oligomers were detected. Toxins with mutations in the loop connecting helices α2 and α3, which affected the irreversible binding to vesicles, also did not oligomerize. There was a greater extent of oligomerization of the Cry1Ac toxin with vesicles from theHeliothis virescens midgut than with those from theM. sexta midgut, which correlated with observed differences in toxicity. Tight binding of virtually the entire toxin molecule to the membrane and the subsequent oligomerization are both important steps in toxicity.

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Saccharomyces cerevisiae spheroplasts are sensitive to the action of diphtheria toxin

Molecular and Cellular Biology ◽

10.1128/mcb.2.5.588-592.1982 ◽

1982 ◽

Vol 2 (5) ◽

pp. 588-592

Author(s):

S Murakami ◽

J W Bodley ◽

D M Livingston

Keyword(s):

Saccharomyces Cerevisiae ◽

Protein Synthesis ◽

Diphtheria Toxin ◽

Mammalian Cells ◽

Cell Interaction ◽

Yeast Cells ◽

Intact Cells ◽

Rna And Dna Synthesis ◽

Mutant Toxin ◽

Rna And Dna

Diphtheria toxin kills spheroplasts of Saccharomyces cerevisiae but not the intact yeast cells. After 2 h of exposure to ca. 10(-7) M toxin, less than 1% of spheroplasts were able to regenerate into intact cells. The same high levels of toxin inhibited the rate of protein synthesis by more than 90% within 1 h, whereas RNA and DNA synthesis were not inhibited until 4 h or exposure. Both killing and protein synthesis inhibition were dependent on toxin concentration. The nature of the toxin-cell interaction was also studied by using fragments of intact toxin and mutant toxin proteins. Neither toxin fragment A nor CRM45 nor CRM197 affected spheroplasts, but CRM197 and ATP prevented the inhibitory action of intact toxin. These results suggest that toxin acts on S. cerevisiae spheroplasts in much the same manner as it acts on sensitive mammalian cells.

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Application of Mutated Clostridium difficile Toxin A for Determination of Glucosyltransferase-Dependent Effects

Infection and Immunity ◽

10.1128/iai.00545-06 ◽

2006 ◽

Vol 74 (10) ◽

pp. 6006-6010 ◽

Cited By ~ 32

Author(s):

Matthias Teichert ◽

Helma Tatge ◽

Janett Schoentaube ◽

Ingo Just ◽

Ralf Gerhard

Keyword(s):

Cell Culture ◽

Stress Response ◽

Clostridium Difficile ◽

Cellular Stress Response ◽

Toxin A ◽

Clostridium Difficile Toxin ◽

Clostridium Difficile Toxin A ◽

Independent Effects ◽

Mutant Toxin

ABSTRACT Mutation of tryptophan-101 in Clostridium difficile toxin A, a 308-kDa glucosyltransferase, resulted in a 50-fold-reduced cytopathic activity in cell culture experiments. The mutant toxin A was characterized and applied to distinguish between glucosyltransferase-dependent and -independent effects with respect to RhoB up-regulation as a cellular stress response.

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