Your search keyword '"Daniele Sblattero"' showing total 3 results

1. Predicting antigenic peptides suitable for the selection of phage antibodies

Author

James D. Marks, Andrew Bradbury, Daniele Sblattero, Vittorio Verzillo, Roberto Marzari, Robert W. Siegel, Colin Collins, and Peter Pavlik

Subjects

chemistry.chemical_classification, Antigenicity, Phage display, biology, Immunology, Context (language use), Peptide, General Medicine, Molecular biology, Biochemistry, chemistry, Polyclonal antibodies, biology.protein, Immunology and Allergy, Peptide library, Peptide sequence, Single-Chain Antibodies

Abstract

Selection from phage antibody libraries can be considered to be an in vitro immune system in which the antibody response is reduced to the bare minimum of antigen recognition. Using selections of antibodies on peptides from a phage antibody library, we investigated what constitutes peptide antigenicity in the context of the antibody-protein binding site. We selected polyclonal antibodies in a high throughput format against 44% of 90 overlapping peptides derived from three different proteins. Of these, 33% of peptides (epitopic peptides) were able to select antibodies that recognized the protein from which the peptides were derived. Although no algorithm was able to predict all epitopic peptides, solvent accessibility was the best predictor in this cell-free antibody selection context. We subsequently applied solvent accessibility to successfully predict epitopic peptides from p53 and Znf217, and showed that such peptide selected single-chain antibodies were able to recognize soluble p53 in ELISA and Znf217 in a western blot. This is likely to have considerable utility in functional genomics and proteomics where it should be possible to select antibodies against gene products on the basis of deduced amino acid sequence in a high throughput fashion.

Published

2004

2. Predicting antigenic peptides suitable for the selection of phage antibodies

Author

Peter, Pavlik, Robert W, Siegel, Roberto, Marzari, Daniele, Sblattero, Vittorio, Verzillo, Colin, Collins, James D, Marks, and Andrew, Bradbury

Subjects

Peptide Library, Molecular Sequence Data, Humans, Enzyme-Linked Immunosorbent Assay, Amino Acid Sequence, Peptides, Immunoglobulin Fragments, Antibodies

Abstract

Selection from phage antibody libraries can be considered to be an in vitro immune system in which the antibody response is reduced to the bare minimum of antigen recognition. Using selections of antibodies on peptides from a phage antibody library, we investigated what constitutes peptide antigenicity in the context of the antibody-protein binding site. We selected polyclonal antibodies in a high throughput format against 44% of 90 overlapping peptides derived from three different proteins. Of these, 33% of peptides (epitopic peptides) were able to select antibodies that recognized the protein from which the peptides were derived. Although no algorithm was able to predict all epitopic peptides, solvent accessibility was the best predictor in this cell-free antibody selection context. We subsequently applied solvent accessibility to successfully predict epitopic peptides from p53 and Znf217, and showed that such peptide selected single-chain antibodies were able to recognize soluble p53 in ELISA and Znf217 in a western blot. This is likely to have considerable utility in functional genomics and proteomics where it should be possible to select antibodies against gene products on the basis of deduced amino acid sequence in a high throughput fashion.

Published

2004

3. Analyzing the peripheral blood antibody repertoire of a celiac disease patient using phage antibody libraries.

Author

Daniele Sblattero, Fiorella Florian, Tarcisio Not, Alessandro Ventura, Andrew Bradbury, and Roberto Marzari

Subjects

*CELIAC disease, *IMMUNOGLOBULINS, *AUTOIMMUNITY, *IMMUNOLOGY

Abstract

Celiac disease (CD) is an autoimmune enteropathy characterized almalabsorption and immunological re-sponses to dietary gliadins and an auto antigen located in theendomysium. The latter has recently been identified as the enzyme tissue transglutaminase (tTG). The linkage between gliadins, tTG and the autoimmune response has still to be clarified. In this work we report the production and anal-ysisof a phage antibody library from the peripheral blood lymphocytes (PLB) of a CD patient. The library contained polyreactive and monoreactive antibodies to a -gliadin, to the dietary antigen ? -lactoglobulin, but not to tTG. The majority of the VH regions of the anti-a -gliadin antibodies belonged to the VH 4 family. The possibility of exploiting phage display antibodies as tools to study the molecular events associated with CD is discussed. [ABSTRACT FROM AUTHOR]

Published

2000