Your search keyword '"Gallichan, Scott"' showing total 6 results

1. Protection of outbred mice against a vaginal challenge by a Chlamydia trachomatis serovar E recombinant major outer membrane protein vaccine is dependent on phosphate substitution in the adjuvant.

Author

Pal, Sukumar, Ausar, Salvador, Tifrea, Delia, Cheng, Chunmei, Gallichan, Scott, Sanchez, Violette, De La Maza, Luis, and Visan, Lucian

Subjects

Chlamydia trachomatis, IFN-γ, aluminum hydroxide adjuvant, neutralizing antibody, outbreed CD-1 mice, recombinant major outer membrane protein, subunit vaccine, Animals, Antibodies, Bacterial, Bacterial Outer Membrane Proteins, Bacterial Vaccines, Chlamydia Infections, Chlamydia trachomatis, Female, Mice, Phosphates, Serogroup

Abstract

Chlamydia trachomatis is the most common bacterial sexually-transmitted pathogen for which there is no vaccine. We previously demonstrated that the degree of phosphate substitution in an aluminum hydroxide adjuvant in a TLR-4-based C. trachomatis serovar E (Ser E) recombinant major outer membrane protein (rMOMP) formulation had an impact on the induced antibody titers and IFN-γ levels. Here, we have extended these observations using outbreed CD-1 mice immunized with C. trachomatis Ser E rMOMP formulations to evaluate the impact on bacterial challenge. The results confirmed that the rMOMP vaccine containing the adjuvant with the highest phosphate substitution induced the highest neutralizing antibody titers while the formulation with the lowest phosphate substitution induced the highest IFN-γ production. The most robust protection was observed in mice vaccinated with the formulation containing the adjuvant with the lowest phosphate substitution, as shown by the number of mice with positive vaginal cultures, number of positive cultures and number of C. trachomatis inclusion forming units recovered. This is the first report showing that vaccination of an outbred strain of mice with rMOMP induces protection against a vaginal challenge with C. trachomatis.

Published

2020

2. Protection of outbred mice against a vaginal challenge by a Chlamydia trachomatisserovar E recombinant major outer membrane protein vaccine is dependent on phosphate substitution in the adjuvant

Author

Pal, Sukumar, Ausar, Salvador Fernando, Tifrea, Delia F., Cheng, Chunmei, Gallichan, Scott, Sanchez, Violette, de la Maza, Luis M., and Visan, Lucian

Abstract

ABSTRACTChlamydia trachomatisis the most common bacterial sexually-transmitted pathogen for which there is no vaccine. We previously demonstrated that the degree of phosphate substitution in an aluminum hydroxide adjuvant in a TLR-4-based C. trachomatisserovar E (Ser E) recombinant major outer membrane protein (rMOMP) formulation had an impact on the induced antibody titers and IFN-γ levels. Here, we have extended these observations using outbreed CD-1 mice immunized with C. trachomatisSer E rMOMP formulations to evaluate the impact on bacterial challenge. The results confirmed that the rMOMP vaccine containing the adjuvant with the highest phosphate substitution induced the highest neutralizing antibody titers while the formulation with the lowest phosphate substitution induced the highest IFN-γ production. The most robust protection was observed in mice vaccinated with the formulation containing the adjuvant with the lowest phosphate substitution, as shown by the number of mice with positive vaginal cultures, number of positive cultures and number of C. trachomatisinclusion forming units recovered. This is the first report showing that vaccination of an outbred strain of mice with rMOMP induces protection against a vaginal challenge with C. trachomatis.

Published

2020

3. A bivalent pneumococcal histidine triad protein D-choline-binding protein A vaccine elicits functional antibodies that passively protect mice from Streptococcus pneumoniae challenge

Author

Ochs, Martina M., primary, Williams, Kimberley, additional, Sheung, Anthony, additional, Lheritier, Philippe, additional, Visan, Lucian, additional, Rouleau, Nicolas, additional, Proust, Emilie, additional, de Montfort, Aymeric, additional, Tang, Mei, additional, Mari, Karine, additional, Hopfer, Robert, additional, Gallichan, Scott, additional, and Brookes, Roger H., additional

Published

2016

4. Passive protection of mice againstStreptococcus pneumoniaechallenge by naturally occurring and vaccine-induced human anti-PhtD antibodies

Author

Brookes, Roger H, primary, Ming, Marin, additional, Williams, Kimberley, additional, Hopfer, Robert, additional, Gurunathan, Sanjay, additional, Gallichan, Scott, additional, Tang, Mei, additional, and Ochs, Martina M, additional

Published

2015

5. Passive protection of mice against Streptococcus pneumoniae challenge by naturally occurring and vaccine-induced human anti-PhtD antibodies.

Author

Brookes, Roger H, Ming, Marin, Williams, Kimberley, Hopfer, Robert, Gurunathan, Sanjay, Gallichan, Scott, Tang, Mei, and Ochs, Martina M

Published

2015

6. Passive protection of mice against Streptococcus pneumoniaechallenge by naturally occurring and vaccine-induced human anti-PhtD antibodies

Author

Brookes, Roger H, Ming, Marin, Williams, Kimberley, Hopfer, Robert, Gurunathan, Sanjay, Gallichan, Scott, Tang, Mei, and Ochs, Martina M

Abstract

Currently marketed Streptococcus pneumoniaevaccines are based on polysaccharide capsular antigens from the most common strains. Pneumococcal histidine triad protein D (PhtD) is a conserved surface protein that is being evaluated as a candidate for a vaccine with improved serotype coverage. Here, we measured the functional activity of human anti-PhtD antibodies in a passive protection model wherein mice were challenged with a lethal dose of S. pneumoniaeby intravenous injection. This functional activity was compared with anti-PhtD antibody concentrations measured by enzyme-linked immunosorbent assay (ELISA) to estimate the 50% protective dose (ED50). Anti-PhtD antibodies affinity purified from pooled normal human sera passively protected mice with an ED50 of 1679 ELISA units/ml (95% confidence interval, 1420–1946). Sera from subjects injected with aluminum-adjuvanted PhtD in a phase I trial had similar activity per unit of antibody (ED50 = 1331 ELISA units/ml [95% confidence interval, 762–2038]). Vaccine-induced activity in the passive protection model was blocked by pre-incubation with recombinant PhtD but not by a control S. pneumoniaeantigen (LytB). These results show that human anti-PhtD antibodies, whether naturally acquired or induced by the PhtD candidate vaccine, are functional. This supports the development of the PhtD candidate as part of a broadly protective pneumococcal vaccine.

Published

2015