Your search keyword '"Poyntz H"' showing total 13 results

1. Evaluation of the Immunological Mechanisms Induced by Mycobacteria and the Potential Effect this may have on Immunity Induced by Tuberculosis Vaccines

Author

Poyntz, H, Poyntz, Hazel, and McShane, H

Subjects

Vaccinology, Tropical medicine, Immunology, Infectious diseases, Clinical microbiology

Abstract

The efficacy of Bacille-Calmette Guerin (BCG) vaccination in protection against pulmonary tuberculosis (TB) is highly variable between populations. One possible explanation is increased exposure of certain populations to non-tuberculous mycobacteria (NTM). Given the variable efficacy of BCG an improved vaccine against TB is required. The novel TB vaccine MVA85A has shown promising results, however, the immunogenicity of the vaccine is reduced when it is administered in the Expanded Programme on Immunisation (EPI) schedule. This thesis aims to explore: (A) the effect of exposure to NTM on the level of protection afforded by BCG vaccination against Mycobacterium tuberculosis (M. tb) and (B) the immunological mechanisms behind EPI interference with MVA85A. The effect of M. avium (MA) exposure via systemic and oral routes on the efficacy of BCG was tested using M. tb aerosol infection in a mouse model. The adaptive immune response was profiled in BCG vaccinated mice with and without exposure to MA pre- and post- M. tb infection. The results showed BCG efficacy could be enhanced by exposure to dead MA by a systemic route; T helper 1 and T helper 17 responses were associated with increased protection. In contrast, BCG efficacy may have been reduced by exposure to live MA by the oral route; T helper 2 and regulatory T cells were associated with reduced protection. To answer the second aim MVA85A was co-administered to mice with aluminium adjuvants or aluminium-containing vaccines to replicate the effect of co-administration in the EPI schedule; the adaptive immune response was profiled. T helper 2 and regulatory T cell responses induced by aluminium-containing vaccines were associated with a reduction in the immunogenicity of MVA85A.

Published

2016

2. Evaluation of immunological mechanisms induced by Mycobacterium avium exposure and the effect upon pre-existing BCG immunity

Author

Poyntz, H, Betts, G, Stylianou, E, Griffiths, K, and Mcshane, H

Published

2016

3. Assessing the immunogenic and protective potential of different viral vector regimes, in the mouse model of tuberculosis infection

Author

Stylianou, E, Betts, G, Dicks, M, Griffiths, K, Poyntz, H, and Mcshane, H

Published

2016

4. CD4 T cell response to MVA85A vaccination against Mycobacterium tuberculosis in healthy HIV-infected adults

Author

Beveridge, N, Minassian, A, Rowland, R, Poulton, I, Satti, I, Harris, S, Poyntz, H, Hamill, M, Griffiths, K, Sander, C, Ambrozak, D, Price, D, Hill, B, Casazza, J, Douek, D, Koup, R, Roederer, M, Winston, A, Ross, J, Sherrad, J, Rooney, G, Williams, N, Lawrie, A, Fletcher, H, and Pathan, A

Published

2016

5. Non-tuberculous mycobacteria have diverse effects on BCG efficacy against Mycobacterium tuberculosis

Author

Poyntz, H, Stylianou, E, Griffiths, K, Marsay, L, Checkley, A, and McShane, H

Subjects

bacterial infections and mycoses, complex mixtures

Abstract

The efficacy of Bacillus Calmette-Guerin (BCG) vaccination in protection against pulmonary tuberculosis (TB) is highly variable between populations. One possible explanation for this variability is increased exposure of certain populations to non-tuberculous mycobacteria (NTM). This study used a murine model to determine the effect that exposure to NTM after BCG vaccination had on the efficacy of BCG against aerosol Mycobacterium tuberculosis challenge. The effects of administering live Mycobacterium avium (MA) by an oral route and killed MA by a systemic route on BCG-induced protection were evaluated. CD4+ and CD8+ T cell responses were profiled to define the immunological mechanisms underlying any effect on BCG efficacy. BCG efficacy was enhanced by exposure to killed MA administered by a systemic route; T helper 1 and T helper 17 responses were associated with increased protection. BCG efficacy was reduced by exposure to live MA administered by the oral route; T helper 2 cells were associated with reduced protection. These findings demonstrate that exposure to NTM can induce opposite effects on BCG efficacy depending on route of exposure and viability of NTM. A reproducible model of NTM exposure would be valuable in the evaluation of novel TB vaccine candidates. © 2014 Elsevier Ltd. All rights reserved.

Published

2014

6. Comparison of the safety and immunogenicity of a candidate TB vaccine, MVA85A, given by the intramuscular or intradermal route in BCG-vaccinated adults

Author

Harris, S, Meyer, J, Satti, I, Kostov, M, Rowland, R, Poulton, I, Poyntz, H, Tanner, R, Lillie, P, Lawrie, A, Hill, A, and Mcshane, H

Published

2011

7. Th1/Th17 cell induction following vaccination with the novel tuberculosis vaccine MVA85A and their role in Mycobacterium tuberculosis challenge

Author

Griffiths, K, Stylianou, E, Poyntz, H, Betts, G, Fletcher, H, and Mcshane, H

Published

2011

8. A Phase I study evaluating the safety and immunogenicity of MVA85A, a candidate TB vaccine, in HIV-infected adults

Author

Minassian, A. M., primary, Rowland, R., additional, Beveridge, N. E. R., additional, Poulton, I. D., additional, Satti, I., additional, Harris, S., additional, Poyntz, H., additional, Hamill, M., additional, Griffiths, K., additional, Sander, C. R., additional, Ambrozak, D. R., additional, Price, D. A., additional, Hill, B. J., additional, Casazza, J. P., additional, Douek, D. C., additional, Koup, R. A., additional, Roederer, M., additional, Winston, A., additional, Ross, J., additional, Sherrard, J., additional, Rooney, G., additional, Williams, N., additional, Lawrie, A. M., additional, Fletcher, H. A., additional, Pathan, A. A., additional, and McShane, H., additional

Published

2011

9. Potent CD8+ T-Cell Immunogenicity in Humans of a Novel Heterosubtypic Influenza A Vaccine, MVA-NP+M1

Author

Berthoud, T. K., primary, Hamill, M., additional, Lillie, P. J., additional, Hwenda, L., additional, Collins, K. A., additional, Ewer, K. J., additional, Milicic, A., additional, Poyntz, H. C., additional, Lambe, T., additional, Fletcher, H. A., additional, Hill, A. V. S., additional, and Gilbert, S. C., additional

Published

2011

10. Potential Association Between Dietary Fibre and Humoral Response to the Seasonal Influenza Vaccine.

Author

Cait A, Mooney A, Poyntz H, Shortt N, Jones A, Gestin A, Gell K, Grooby A, O'Sullivan D, Tang JS, Young W, Thayabaran D, Sparks J, Ostapowicz T, Tay A, Poppitt SD, Elliott S, Wakefield G, Parry-Strong A, Ralston J, Beasley R, Weatherall M, Braithwaite I, Forbes-Blom E, and Gasser O

Subjects

Adolescent, Adult, Animals, Dietary Fiber metabolism, Fatty Acids, Volatile metabolism, Fatty Acids, Volatile pharmacology, Female, Fermentation, Gastrointestinal Microbiome drug effects, Gastrointestinal Microbiome immunology, Humans, Immunogenicity, Vaccine, Influenza, Human microbiology, Influenza, Human prevention & control, Male, Mice, Middle Aged, Orthomyxoviridae immunology, Seasons, Vaccination, Young Adult, Dietary Fiber pharmacology, Immunity, Humoral drug effects, Influenza Vaccines immunology, Influenza, Human immunology

Abstract

Influenza vaccination is an effective public health measure to reduce the risk of influenza illness, particularly when the vaccine is well matched to circulating strains. Notwithstanding, the efficacy of influenza vaccination varies greatly among vaccinees due to largely unknown immunological determinants, thereby dampening population-wide protection. Here, we report that dietary fibre may play a significant role in humoral vaccine responses. We found dietary fibre intake and the abundance of fibre-fermenting intestinal bacteria to be positively correlated with humoral influenza vaccine-specific immune responses in human vaccinees, albeit without reaching statistical significance. Importantly, this correlation was largely driven by first-time vaccinees; prior influenza vaccination negatively correlated with vaccine immunogenicity. In support of these observations, dietary fibre consumption significantly enhanced humoral influenza vaccine responses in mice, where the effect was mechanistically linked to short-chain fatty acids, the bacterial fermentation product of dietary fibre. Overall, these findings may bear significant importance for emerging infectious agents, such as COVID-19, and associated de novo vaccinations., Competing Interests: SE and GW were employed by Food Savvy. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationship that could be construed as a potential conflict of interest., (Copyright © 2021 Cait, Mooney, Poyntz, Shortt, Jones, Gestin, Gell, Grooby, O’Sullivan, Tang, Young, Thayabaran, Sparks, Ostapowicz, Tay, Poppitt, Elliott, Wakefield, Parry-Strong, Ralston, Beasley, Weatherall, Braithwaite, Forbes-Blom and Gasser.)

Published

2021

11. A feasibility study: association between gut microbiota enterotype and antibody response to seasonal trivalent influenza vaccine in adults.

Author

Shortt N, Poyntz H, Young W, Jones A, Gestin A, Mooney A, Thayabaran D, Sparks J, Ostapowicz T, Tay A, Poppitt S, Elliott S, Wakefield G, Parry-Strong A, Ralston J, Gasser O, Beasley R, Weatherall M, Braithwaite I, and Forbes-Blom E

Abstract

Objective: We investigated the potential feasibility of a randomized controlled trial of a nutritional intervention that may alter human gut microbiota and support immune defence against respiratory tract infection in adults (Proposed Study)., Methods: In total, 125 healthy adults aged 18-64 participated in a 6-month study that measured antibody response to the seasonal trivalent influenza vaccine. We assessed completion rates, procedure adherence rates and the influence of possible exclusion criteria on potential recruitment into the Proposed Study. We examined whether the gut microbiota could be categorised into enterotypes, and whether there was an association between enterotypes and the antibody response to the influenza vaccine., Results: The participant completion rate was 97.6% (95% CI 93.1-99.5%). The proportions (95% CI) of participants who may be excluded for antibiotic or corticosteroid use in the 30 days prior to the study, or due to receiving the influenza vaccine in the previous two years were 9.6% (5.1-16.2), 8.0% (3.9-14.2) and 61.6% (52.5-70.2), respectively. All participants were stratified into four gut microbiota enterotypes. There was no association between these enterotypes and the antibody response to the influenza vaccine, although the study was not powered for this outcome., Conclusion: This study design is suitable for the Proposed Study. The completion rate is likely to be high, although exclusion criteria should be selected with care. Further analyses of gut microbiota composition or function in association with antibody and immune responses are warranted to explore the role of host-microbiota interactions on protective immunity.

Published

2018

12. Optimising immunogenicity with viral vectors: mixing MVA and HAdV-5 expressing the mycobacterial antigen Ag85A in a single injection.

Author

Betts G, Poyntz H, Stylianou E, Reyes-Sandoval A, Cottingham M, Hill A, and McShane H

Subjects

Amino Acid Sequence, Animals, Bacterial Vaccines genetics, Female, Gene Expression, Immunization, Secondary, Injections, Mice, Mice, Inbred BALB C, Molecular Sequence Data, Mycobacterium tuberculosis immunology, Acyltransferases genetics, Acyltransferases immunology, Adenoviridae genetics, Antigens, Bacterial genetics, Antigens, Bacterial immunology, Bacterial Vaccines immunology, Genetic Vectors genetics, Vaccination methods, Vaccinia virus genetics

Abstract

The Bacillus Calmette - Guerin (BCG) vaccine provides a critical but limited defense against Mycobacterium tuberculosis (M.tb). More than 60 years after the widespread introduction of BCG, there is an urgent need for a better vaccine. A large body of pre-clinical research continues to support ongoing clinical trials to assess whether viral vectors expressing M.tb antigens that are shared by BCG and M.tb, can be used alongside BCG to enhance protection. A major focus involves using multiple unique viral vectors to limit anti-vector immunity and thereby enhance responses to the insert antigen delivered. The successful introduction of viral vector vaccines to target M.tb and other pathogens will be reliant on reducing the costs when using multiple vectors and inhibiting the development of unwanted anti-vector responses that interfere with the response to insert antigen. This study examines methods to reduce the logistical costs of vaccination by mixing different viral vectors that share the same insert antigen in one vaccine; and whether combining different viral vectors reduces anti-vector immunity to improve immunogenicity to the insert antigen. Here we show that a homologous prime-boost regimen with a mixture of MVA (Modified Vaccinia virus Ankara) and Ad5 (human adenovirus type 5) vectors both expressing Ag85A in a single vaccine preparation is able to reduce anti-vector immunity, compared with a homologous prime-boost regimen with either vector alone. However, the level of immunogenicity induced by the homologous mixture remained comparable to that induced with single viral vectors and was less immunogenic than a heterologous Ad5 prime-MVA-boost regimen. These findings advance the understanding of how anti-vector immunity maybe reduced in viral vector vaccination regimens. Furthermore, an insight is provided to the impact on vaccine immunogenicity from altering vaccination methods to reduce the logistical demands of using separate vaccine preparations in the field.

Published

2012

13. Preclinical development of an in vivo BCG challenge model for testing candidate TB vaccine efficacy.

Author

Minassian AM, Ronan EO, Poyntz H, Hill AV, and McShane H

Subjects

Animals, Cells, Cultured, Enzyme-Linked Immunosorbent Assay, Female, Flow Cytometry, Humans, Mice, Mice, Inbred BALB C, Polymerase Chain Reaction, BCG Vaccine immunology, Mycobacterium tuberculosis immunology, Tuberculosis Vaccines immunology

Abstract

There is an urgent need for an immunological correlate of protection against tuberculosis (TB) with which to evaluate candidate TB vaccines in clinical trials. Development of a human challenge model of Mycobacterium tuberculosis (M.tb) could facilitate the detection of such correlate(s). Here we propose a novel in vivo Bacille Calmette-Guérin (BCG) challenge model using BCG immunization as a surrogate for M.tb infection. Culture and quantitative PCR methods have been developed to quantify BCG in the skin, using the mouse ear as a surrogate for human skin. Candidate TB vaccines have been evaluated for their ability to protect against a BCG skin challenge, using this model, and the results indicate that protection against a BCG skin challenge is predictive of BCG vaccine efficacy against aerosol M.tb challenge. Translation of these findings to a human BCG challenge model could enable more rapid assessment and down selection of candidate TB vaccines and ultimately the identification of an immune correlate of protection.

Published

2011