Your search keyword '"Chargelegue D"' showing total 3 results

1. A peptide mimic of a protective epitope of respiratory syncytial virus selected from a combinatorial library induces virus-neutralizing antibodies and reduces viral load in vivo

Author

Chargelegue, D., Obeid, O.E., Hsu, S.C., Shaw, M.D., Denbury, A.N., Taylor, G., Steward, M.W., and TNO Preventie en Gezondheid

Subjects

Mice, Inbred BALB C, Vaccines, Synthetic, HN Protein, Antibodies, Monoclonal, Viral Vaccines, Respiratory Syncytial Virus Infections, Viral Load, Antibodies, Viral, Disease Models, Animal, Mice, Viral Proteins, Viral Envelope Proteins, Health, Neutralization Tests, Respiratory Syncytial Virus, Human, Animals, Epitopes, B-Lymphocyte, Female, Peptides, Antigens, Viral

Abstract

Respiratory syncytial virus (RSV) is the most important cause of bronchiolitis and pneumonia in infants and young children worldwide. As yet, there is no effective vaccine against RSV infection, and previous attempts to develop a formalin-inactivated vaccine resulted in exacerbated disease in recipients subsequently exposed to the virus. In the work described here, a combinatorial solid-phase peptide library was screened with a protective monoclonal antibody (MAb 19) to identify peptide mimics (mimotopes) of a conserved and conformationally-determined epitope of RSV fusion (F) protein. Two sequences identified (S1 [HWYISKPQ] and S2 [HWYDAEVL]) reacted specifically with MAb 19 when they were presented as solid-phase peptides. Furthermore, after amino acid substitution analyses, three sequences derived from S1 (S1S [HWSISKPQ], S1K [KWYISKPQ], and S1P [HPYISKPQ]), presented as multiple antigen peptides (MAPs), also showed strong reactivity with MAb 19. The affinity constants of the binding of MAb 19, determined by surface plasmon resonance analyses, were 1.19 x 109 and 4.93 x 109 M-1 for S1 and S1S, respectively. Immunization of BALB/c mice with these mimotopes, presented as MAPs, resulted in the induction of anti-peptide antibodies that inhibited the binding of MAb 19 to RSV and neutralized viral infection in vitro, with titers equivalent to those in sera from RSV-infected animals. Following RSV challenge of S1S mimotope-immunized mice, a 98.7% reduction in the titer of virus in the lungs was observed. Furthermore, there was a greatly reduced cell infiltration in the lungs of immunized mice compared to that in controls. These results indicate the potential of peptide mimotopes to protect against RSV infection without exacerbating pulmonary pathology.

Published

1998

2. Peptide mimics of a conformationally constrained protective epitopes of respiratory syncytial virus fusion protein

Author

Chargelegue, D., Obeid, O.E., Shaw, D.M., Denbury, A.N., Hobby, P., Hsu, S.C., Steward, M.W., and TNO Preventie en Gezondheid

Subjects

Mice, Inbred BALB C, HN Protein, Molecular Mimicry, Vaccination, Antibodies, Monoclonal, Antibodies, Viral, Respiratory Syncytial Viruses, RSV fusion protein, Epitopes, Mice, Viral Proteins, Viral Envelope Proteins, Health, Neutralization Tests, Animals, Peptides, Immunogen, Vaccine, Antigens, Viral

Abstract

Aims: To identify peptides that mimic (mimotopes) conformational and protective epitopes of RSV fusion protein and to assess their efficacy as immunogens and potential vaccines. Material and methods: An 8-mer solid- phase (TG resin) library was screened with a neutralising and protective RSV fusion protein specific monoclonal antibodies (Mab-19). After selection of positive beads, reactive sequences were identified by microsequencing and 8- mer peptides were synthesised. Improvement of binding was analysed by amino acid replacement using the SPOTs method. Results: Mabs were not able to bind to the free and soluble peptides, nor did these peptides induce anti-RSV specific antibodies. However, several peptides re-synthesised on a TG resin (to produce de-protected 8-mer peptides linked to the resin) or as SPOTs reacted specifically. Therefore it was critical to be able to reproduce this conformation in order to use these mimotopes as immunogens and potential vaccines. Using C-terminal constrained versions of the mimotopes, strong binding of one of the Mabs to the peptides was demonstrated by surface- plasmon resonance. Immunisation of Balb/c mice with these peptide-mimics produced anti-sera that: (1) reacted specifically with RSV; (2) inhibited the binding of the Mab to the virus; (3) neutralised RSV in vitro with high titres (range: 80-640); and (4) reduce significantly the vital load in the lungs of mice challenged with RSV (P < 0.01). Conclusions: This report demonstrates for the first time that: (1) a protective epitope of the conserved RSV fusion protein can be mimicked by synthetic peptides: and (2) immunisations with these mimotopes induced specific anti-RSV neutralising antibodies and reduced vital load in vivo. These results represent a novel concept for the development of a vaccine against RSV.

Published

1997

3. A murine monoclonal antibody produced in transgenic plants with plant-specific glycans is not immunogenic in mice

Author

Chargelegue D, Nd, Vine, Cj, Dolleweerd, Pascal Drake, and Jk, Ma

Subjects

Antigens, Bacterial, Mice, Inbred BALB C, Recombinant Fusion Proteins, Antibodies, Monoclonal, Enzyme-Linked Immunosorbent Assay, Biosensing Techniques, Plants, Genetically Modified, Antibodies, Bacterial, Immunoenzyme Techniques, Streptococcus mutans, Epitopes, Immunoglobulin kappa-Chains, Mice, Plants, Toxic, Polysaccharides, Lectins, Tobacco, Animals, Electrophoresis, Polyacrylamide Gel, Female, Immunization, Plant Lectins, Horseradish Peroxidase

Abstract

Previous studies have shown that the production of recombinant antibodies in plants is highly efficient and presents numerous therapeutic applications. It is, however, known that plant glycoproteins display different glycosylation patterns to those exhibited by mammalian glycoproteins. Thus, it is important to know if these plant recombinant antibodies could induce undesirable immune responses in mammals; and to date no report has documented the potential immunogenicity of parenterally administered plant recombinant antibodies in animals. In order to answer this question, mice were immunised subcutaneously with a recombinant mouse monoclonal antibody produced in tobacco plants, together with alum as adjuvant. Two control groups were immunised in the same way with either the original murine monoclonal antibody or horseradish peroxidase (a plant glycoprotein). Analyses by direct immunoassay, competition immunoassay and real-time surface plasmon resonance, showed undetectable levels of antibody directed against both the protein and the glycan part of the plant recombinant antibody. These results have a direct relevance for the application of plant recombinant proteins as therapeutic agents and vaccines in humans.