Your search keyword '"Sealey, Katie"' showing total 10 results

1. Is the circulating UK Bordetella pertussis population evolving to evade vaccine-induced immunity?

Author

Sealey, Katie and Preston, Andrew

Subjects

616.07

Abstract

Bordetella pertussis is the causative agent of whooping cough (or pertussis) that has become resurgent worldwide. Resurgence has been linked to the introduction of acellular pertussis vaccines (ACVs) and the evolution of B. pertussis away from vaccine-induced immunity. In 2012, the United Kingdom suffered a major pertussis outbreak. I conducted whole genome sequencing and genomic analysis of 95 strains including those isolated from the UK outbreak and demonstrated that although large-scale genetic changes in B. pertussis were not the cause of this outbreak, vaccine-antigen encoding genes are evolving at higher rates than other surface protein-encoding genes, this difference becoming more pronounced since the introduction of the ACV in the UK. The dramatic increase in the frequency of pertactin (Prn)-deficient strains worldwide is possibly in response to vaccine-mediated selection pressure. However, just one Prn deficient strain was identified among the UK outbreak strains. Prn expression and IgG binding to B. pertussis obtained with post-vaccine sera was determined by flow cytometry and compared between pre-outbreak and outbreak strains, but no significant differences were observed. However, a positive correlation between Prn expression and post vaccination induced IgG binding to strains was identified, supporting the idea that strong immunological selection pressure is exerted on Prn and this is playing a role in the evolution of B. pertussis. The rapid evolution of vaccine-antigen encoding genes raises serious concerns regarding the ability of current vaccines to control pertussis.

Published

2016

2. Immunogenicity and Protective Capacity of Sugar ABC Transporter Substrate-Binding Protein against Streptococcus suis Serotype 2, 7 and 9 Infection in Mice.

Author

Yan, Zujie, Pan, Ruyi, Zhang, Junjie, Sun, Jianhe, Ma, Xiaochun, Dong, Nihua, Yao, Xiaohui, Wei, Jianchao, Liu, Ke, Qiu, Yafeng, Sealey, Katie, Nichols, Hester, Jarvis, Michael A., Upton, Mathew, Li, Xiangdong, Ma, Zhiyong, Liu, Juxiang, and Li, Beibei

Subjects

ATP-binding cassette transporters, CARRIER proteins, STREPTOCOCCUS suis, STREPTOCOCCUS, IMMUNE response, AMINO acid sequence

Abstract

Background: Streptococcus suis (S. suis) is a Gram-positive bacterium that causes substantial disease in pigs. S. suis is also an emerging zoonoses in humans, primarily in Asia, through the consumption of undercooked pork and the handling of infected pig meat as well as carcasses. The complexity of S. suis epidemiology, characterized by the presence of multiple bacterial serotypes and strains with diverse sequence types, identifies a critical need for a universal vaccine with the ability to confer cross-protective immunity. Highly conserved immunogenic proteins are generally considered good candidate antigens for subunit universal vaccines. Methods: In this study, the cross-protection of the sugar ABC transporter substrate-binding protein (S-ABC), a surface-associated immunogenic protein of S. suis, was examined in mice for evaluation as a universal vaccine candidate. Results: S-ABC was shown to be highly conserved, with 97% amino acid sequence identity across 31 S. suis strains deposited in GenBank. Recombinantly expressed S-ABC (rS-ABC) was recognized via rabbit sera specific to S. suis serotype 2. The immunization of mice with rS-ABC induced antigen-specific antibody responses, as well as IFN-γ and IL-4, in multiple organs, including the lungs. rS-ABC immunization conferred high (87.5% and 100%) protection against challenges with S. suis serotypes 2 and 9, demonstrating high cross-protection against these serotypes. Protection, albeit lower (50%), was also observed in mice challenged with S. suis serotype 7. Conclusions: These data identify S-ABC as a promising antigenic target within a universal subunit vaccine against S. suis. [ABSTRACT FROM AUTHOR]

Published

2024

3. Subunit Vaccine Targeting Phosphate ABC Transporter ATP-Binding Protein, PstB, Provides Cross-Protection against Streptococcus suis Serotype 2, 7, and 9 in Mice

Author

Yan, Zujie, primary, Yao, Xiaohui, additional, Pan, Ruyi, additional, Zhang, Junjie, additional, Ma, Xiaochun, additional, Dong, Nihua, additional, Wei, Jianchao, additional, Liu, Ke, additional, Qiu, Yafeng, additional, Sealey, Katie, additional, Nichols, Hester, additional, Jarvis, Michael A., additional, Upton, Mathew, additional, Li, Xiangdong, additional, Ma, Zhiyong, additional, Liu, Juxiang, additional, and Li, Beibei, additional

Published

2023

4. Genomic Analysis of Isolates From the United Kingdom 2012 Pertussis Outbreak Reveals That Vaccine Antigen Genes Are Unusually Fast Evolving

Author

Sealey, Katie L., Harris, Simon R., Fry, Norman K., Hurst, Laurence D., Gorringe, Andrew R., Parkhill, Julian, and Preston, Andrew

Published

2015

5. Adaptive radiation within the vaccine target tetraspanin-23 across nine Schistosoma species from Africa

Author

Sealey, Katie L., Kirk, Ruth S., Walker, Anthony J., Rollinson, David, and Lawton, Scott P.

Published

2013

6. Spreading by snail (Lymnaea stagnalis) defence cells is regulated through integrated PKC, FAK and Src signalling

Author

Walker, Anthony J., Lacchini, Audrey H., Sealey, Katie L., Mackintosh, David, and Davies, Angela J.

Published

2010

7. Is the circulating UK Bordetella pertussis population evolving to evade vaccine-induced immunity?

Author

Sealey, Katie

Abstract

Bordetella pertussis is the causative agent of whooping cough (or pertussis) that hasbecome resurgent worldwide. Resurgence has been linked to the introduction of acellular pertussis vaccines (ACVs) and the evolution of B. pertussis away from vaccine-induced immunity. In 2012, the United Kingdom suffered a major pertussis outbreak. I conducted whole genome sequencing and genomic analysis of 95 strains including those isolated from the UK outbreak and demonstrated that although large-scale genetic changes in B. pertussis were not the cause of this outbreak, vaccine-antigen encoding genes are evolving at higher rates than other surface protein-encoding genes, this difference becoming more pronounced since the introduction of the ACV in the UK. The dramatic increase in the frequency of pertactin (Prn)-deficient strains worldwide is possibly in response to vaccine-mediated selection pressure. However, just one Prn deficient strain was identified among the UK outbreak strains. Prn expression and IgG binding to B. pertussis obtained with post-vaccine sera was determined by flow cytometry and compared between pre-outbreak and outbreak strains, but no significant differences were observed. However, a positive correlation between Prn expression and post vaccinationinduced IgG binding to strains was identified, supporting the idea that strongimmunological selection pressure is exerted on Prn and this is playing a role in theevolution of B. pertussis. The rapid evolution of vaccine-antigen encoding genes raisesserious concerns regarding the ability of current vaccines to control pertussis.

Published

2015

8. Bordetella pertussis epidemiology and evolution in the light of pertussis resurgence

Author

Sealey, Katie L., primary, Belcher, Thomas, additional, and Preston, Andrew, additional

Published

2016

9. Genomic Analysis of Isolates From the United Kingdom 2012 Pertussis Outbreak Reveals That Vaccine Antigen Genes Are Unusually Fast Evolving

Author

Sealey, Katie L., primary, Harris, Simon R., additional, Fry, Norman K., additional, Hurst, Laurence D., additional, Gorringe, Andrew R., additional, Parkhill, Julian, additional, and Preston, Andrew, additional

Published

2014

10. Plasticity of fimbrial genotype and serotype within populations of Bordetella pertussis: analysis by paired flow cytometry and genome sequencing

Author

Vaughan, Thomas E., primary, Pratt, Catherine B., additional, Sealey, Katie, additional, Preston, Andrew, additional, Fry, Norman K., additional, and Gorringe, Andrew R., additional

Published

2014