Search

Your search keyword '"Randall T. Irvin"' showing total 4 results
Start Over Author "Randall T. Irvin" Publisher wiley
4 results on '"Randall T. Irvin"'

1. The use of synthetic peptides in the design of a consensus sequence vaccine for Pseudomonas aeruginosa

Author

L.M.G. Glasier, Wah Y. Wong, Paul J. Cachia, R.R.W. Hodgins, Randall T. Irvin, and Robert S. Hodges

Subjects
Antiserum, Antigens, Bacterial, Immunogen, biology, Molecular Sequence Data, Antibodies, Bacterial, Biochemistry, Pilus, Microbiology, Mice, Endocrinology, Polyclonal antibodies, Drug Design, Pilin, Bacterial Vaccines, Pseudomonas aeruginosa, Consensus sequence, biology.protein, Animals, Pseudomonas Infections, Amino Acid Sequence, Rabbits, Peptides, Peptide sequence, Binding domain
Abstract

Pseudomonas aeruginosa employs pili to mediate adherence to epithelial cell surfaces. Research has shown that the C-terminal region of the pilin monomer contains the epithelial cell binding domain, which is semiconserved in seven different strains of this bacterium. Antibodies to this region of the pilin molecule are also able to block and prevent the infection process. As there is a degree of sequence and structural homology in the C-terminal region and all strains examined have been shown to bind to the same cell surface receptor, we reasoned that it should be possible to produce a synthetic peptide consensus sequence which would provide cross-reactive antiserum from a single peptide immunogen inhibiting the adherence of the known strains of P. aeruginosa. In this article we examine the cross-reactivity of five rabbit polyclonal antisera. One has been raised against the cell-surface receptor binding domain of native PAK strain pilin (residues 128-144) while the others have been raised to analogues of this region. Analysis of the cross-reactivity of these antisera, using competitive ELISA assay, has shown that it is possible to manipulate the amino acid sequence of a peptide immunogen to generate antiserum, which exhibits enhanced cross-reactivity to various strains of P. aeruginosa. Furthermore, when this peptide is conjugated to tetanus toxoid and used to vaccinate mice it provided cross-reactive protection against heterologous challenge with PAO strain bacteria. The results of these experiments are analyzed, and the applicability of our hypothesis and the implications of this approach to the design of a strain-independent consensus vaccine for immunization against Pseudomonas aeruginosa are discussed.

Published
2009

2. Use of synthetic peptides to confirm that the Pseudomonas aeruginosa PAK pilus adhesin and the Candida albicans fimbrial adhesin possess a homologous receptor‐binding domain

Author

Kok K. Lee, Randall T. Irvin, William Paranchych, Robert S. Hodges, and Lei Yu

Subjects
Molecular Sequence Data, Fimbria, G(M1) Ganglioside, macromolecular substances, Disaccharides, medicine.disease_cause, environment and public health, Microbiology, Antibodies, Pilus, Fungal Proteins, Lectins, Candida albicans, medicine, Humans, Amino Acid Sequence, Adhesins, Bacterial, Molecular Biology, Peptide sequence, Cells, Cultured, Conserved Sequence, Binding Sites, biology, Pseudomonas aeruginosa, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, Corpus albicans, Bacterial adhesin, Carbohydrate Sequence, Pilin, biology.protein, bacteria, biological phenomena, cell phenomena, and immunity, Cell Adhesion Molecules
Abstract

Pseudomonas aeruginosa PAK pili and Candida albicans fimbriae are adhesins present on the microbial cell surfaces which mediate binding to epithelial cell-surface receptors. The receptor-binding domain (adhesintope) of the PAK pilus adhesin has been shown previously to reside in the carboxy-terminal disulphide-bonded region of P. aeruginosa pilin (PAK128-144). The delineation of the C. albicans fimbrial adhesintope was investigated in these studies using synthetic peptides which correspond to the whole (PAK128-144) or part of (PAK134-140) adhesintope of the PAK pilus and their respective anti-peptide antisera and biotinylated PAK pili (Bt-PAK pili), fimbriae (Bt-fimbriae), P. aeruginosa whole cells (Bt-P. aeruginosa) and C. albicans whole cells (Bt-C. albicans). The results from these studies confirmed that a structurally conserved motif akin to the PAK(128-144) peptide sequence is present in C. albicans fimbrial adhesin and that the seven-amino-acid residue PAK(134-140) sequence plays an important role in forming the adhesintope for both P. aeruginosa PAK pilus and C. albicans fimbrial adhesins.

Published
1996

4. The Pseudomonas aeruginosa type IV pilin receptor binding domain functions as an adhesin for both biotic and abiotic surfaces

Author

Erin J. van Schaik, Dan Kao, Carmen L. Giltner, Daniel J. Hassett, Randall T. Irvin, Gerald F. Audette, and Robert S. Hodges

Subjects
Surface Properties, Molecular Sequence Data, Fimbria, Peptide, Microbiology, Bacterial Adhesion, Pilus, Amino Acid Sequence, Adhesins, Bacterial, Peptide sequence, Molecular Biology, chemistry.chemical_classification, biology, fungi, technology, industry, and agriculture, Biofilm, Stainless Steel, biology.organism_classification, Antibodies, Bacterial, Bacterial adhesin, Biochemistry, chemistry, Flagella, Biofilms, Fimbriae, Bacterial, Pilin, Mutation, Pseudomonas aeruginosa, biology.protein, Fimbriae Proteins, Peptides, Pseudomonadaceae
Abstract

Pseudomonas aeruginosa readily binds to stainless steel and other abiotic surfaces, causing major problems in both the medical and food industries. In this study, we show that P. aeruginosa binds to abiotic surfaces in a concentration-dependent, saturable manner during the initial stages of biofilm formation. P. aeruginosa type IV pili mediate binding to stainless steel as a pilus-deficient strain does not bind to steel, purified type IV pili bound in a concentration-dependent, saturable manner, and purified pili competitively inhibited whole cell binding. PAK pili can also bind polystyrene and polyvinylchloride in a concentration-dependant and saturable manner. As an antibody specific for the C-terminal pilin receptor binding domain inhibited adherence to abiotic surfaces, the role of the C-terminal receptor binding domain in mediating binding to steel surfaces was examined. A synthetic peptide of the PAK pilin epithelial cell receptor binding domain [PAK(128-144)ox] bound directly to steel with high affinity. The interaction of pili with steel was specifically inhibited by this peptide with an apparent Ki of approximately 0.2 nM and effectively inhibited the binding of viable homologous and heterologous P. aeruginosa strains to steel with an apparent Ki of approximately 4 nM. A single point mutation (K130I) in the PAO receptor binding domain was observed to abolish binding to stainless steel while binding to human buccal epithelial cells was enhanced. Therefore, the C-terminal receptor binding domain appears to have evolved for binding a variety of surfaces.

Published
2006

Catalog

Books, media, physical & digital resources
See catalog results