Your search keyword '"Hill, Adrian V. S."' showing total 30 results

1. Clinical Assessment of a Recombinant Simian Adenovirus ChAd63: A Potent New Vaccine Vector

Author

O'Hara, Geraldine A., Duncan, Christopher J. A., Ewer, Katie J., Collins, Katharine A., Elias, Sean C., Halstead, Fenella D., Goodman, Anna L., Edwards, Nick J., Reyes-Sandoval, Arturo, Bird, Prudence, Rowland, Rosalind, Sheehy, Susanne H., Poulton, Ian D., Hutchings, Claire, Todryk, Stephen, Andrews, Laura, Folgori, Antonella, Berrie, Eleanor, Moyle, Sarah, Nicosia, Alfredo, Colloca, Stefano, Cortese, Riccardo, Siani, Loredana, Lawrie, Alison M., Gilbert, Sarah C., and Hill, Adrian V. S.

Published

2012

2. Introduction: Vaccines and global health

Author

Greenwood, Brian, Salisbury, David, and Hill, Adrian V. S.

Published

2011

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

Author

Berthoud, Tamara K., Hamill, Matthew, Lillie, Patrick J., Hwenda, Lenias, Collins, Katharine A., Ewer, Katie J., Milicic, Anita, Poyntz, Hazel C., Lambe, Teresa, Fletcher, Helen A., Hill, Adrian V. S., and Gilbert, Sarah C.

Published

2011

4. Safety and Immunogenicity of a New Tuberculosis Vaccine, MVA85A, in Healthy Adults in South Africa

Author

Hawkridge, Tony, Scriba, Thomas J., Gelderbloem, Sebastian, Smit, Erica, Tameris, Michele, Moyo, Sizulu, Lang, Trudie, Veldsman, Ashley, Hatherill, Mark, van der Merwe, Linda, Fletcher, Helen A., Mahomed, Hassan, Hill, Adrian V. S., Hanekom, Willem A., Hussey, Gregory D., and McShane, Helen

Published

2008

5. In Silico Identified CCR4 Antagonists Target Regulatory T Cells and Exert Adjuvant Activity in Vaccination

Author

Bayry, Jagadeesh, Tchilian, Elma Z., Davies, Matthew N., Forbes, Emily K., Draper, Simon J., Kaveri, Srini V., Hill, Adrian V. S., Kazatchkine, Michel D., Beverley, Peter C. L., Flower, Darren R., and Tough, David F.

Published

2008

6. Phase 1 Evaluation of 3 Highly Immunogenic Prime-Boost Regimens, including a 12-Month Reboosting Vaccination, for Malaria Vaccination in Gambian Men

Author

Moorthy, Vasee S., Imoukhuede, Egeruan B., Keating, Sheila, Pinder, Margaret, Webster, Daniel, Skinner, Michael A., Gilbert, Sarah C., Walraven, Gijs, and Hill, Adrian V. S.

Published

2004

7. Safety and Immunogenicity of DNA/Modified Vaccinia Virus Ankara Malaria Vaccination in African Adults

Author

Moorthy, Vasee S., Pinder, Margaret, Reece, William H. H., Watkins, Kate, Atabani, Sowsan, Hannan, Carolyn, Bojang, Kalifa, McAdam, Keith P. W. J., Schneider, Joerg, Gilbert, Sarah, and Hill, Adrian V. S.

Published

2003

8. STING-pathway modulation to enhance the immunogenicity of adenoviral-vectored vaccines.

Author

Padron-Regalado, Eriko, Ulaszewska, Marta, Douglas, Alexander D., Hill, Adrian V. S., and Spencer, Alexandra J.

Subjects

VACCINE immunogenicity, VACCINE effectiveness, IMMUNE response, TRANSGENE expression, T cells, GENETIC vectors, DISEASE progression

Abstract

Traditional chemical adjuvants remain a practical means of enhancing the immunogenicity of vaccines. Nevertheless, it is recognized that increasing the immunogenicity of viral vectors is challenging. Recently, STING ligands have been shown to enhance the efficacy of different vaccine platforms, but their affectivity on viral-vectored vaccination has not been fully assessed. In this study we used a multi-pronged approach to shed light on the immunological properties and potential mechanisms of action of this type of adjuvant and focused our study on replication-deficient human adenovirus serotype 5 (AdHu5). When the STING ligand 2′3′-cGAMP was mixed with AdHu5, the adjuvant enhanced anti-vector immune responses while decreasing the transgene-specific CD8+ T cell response. Studies employing STING-knockout mice and a 2′3′-cGAMP inactive analogue confirmed the aforementioned effects were STING dependent. In vitro assays demonstrated 2′3′-cGAMP induced the production of IFN-β which in turn negatively affected AdHu5 transgene expression and CD8+ T cell immunogenicity. In an effort to overcome the negative impact of early 2′3′-cGAMP signaling on AdHu5 transgene immunogenicity, we generated a bicistronic vector encoding the 2′3′-cGAMP together with a model antigen. Intracellular production of 2′3′-cGAMP after AdHu5 infection was able to enhance transgene-specific CD8+ T cell immunogenicity, although not to a level that would warrant progression of this adjuvant to clinical assessment. This work highlights the importance of timing of 2′3′-cGAMP administration when assessing its adjuvant capacity with different vaccine modalities. [ABSTRACT FROM AUTHOR]

Published

2022

9. Modification of Adenovirus vaccine vector-induced immune responses by expression of a signalling molecule.

Author

Rollier, Christine S., Spencer, Alexandra J., Sogaard, Karen Colbjorn, Honeycutt, Jared, Furze, Julie, Bregu, Migena, Gilbert, Sarah C., Wyllie, David, and Hill, Adrian V. S.

Subjects

ADENOVIRUS diseases, VIRAL vaccines, IMMUNE response, GENE expression, CELLULAR signal transduction

Abstract

Adenoviral vectors are being developed as vaccines against infectious agents and tumour-associated antigens, because of their ability to induce cellular immunity. However, the protection afforded in animal models has not easily translated into primates and clinical trials, underlying the need for improving adenoviral vaccines-induced immunogenicity. A Toll-like receptor signalling molecule, TRAM, was assessed for its ability to modify the immune responses induced by an adenovirus-based vaccine. Different adenovirus vectors either expressing TRAM alone or co-expressing TRAM along with a model antigen were constructed. The modification of T-cell and antibody responses induced by TRAM was assessed in vivo in mice and in primates. Co-expression of TRAM and an antigen from adenoviruses increased the transgene-specific CD8+ T cell responses in mice. Similar effects were seen when a TRAM expressing virus was co-administered with the antigen-expressing adenovirus. However, in primate studies, co-administration of a TRAM expressing adenovirus with a vaccine expressing the ME-TRAP malaria antigen had no significant effect on the immune responses. While these results support the idea that modification of innate immune signalling by genetic vectors modifies immunogenicity, they also emphasise the difficulty in generalising results from rodents into primates, where the regulatory pathway may be different to that in mice. [ABSTRACT FROM AUTHOR]

Published

2020

10. A T cell-inducing influenza vaccine for the elderly: safety and immunogenicity of MVA-NP+M1 in adults aged over 50 years

Author

Doherty, T. Mark, Antrobus, Richard D., Lillie, Patrick J., Berthoud, Tamara K., Spencer, Alexandra J., McLaren, James E., Ladell, Kristin Ingrid, Lambe, Teresa, Milicic, Anita, Price, David, Hill, Adrian V. S., and Gilbert, Sarah C.

Subjects

Male, Viral Diseases, T-Lymphocytes, lcsh:Medicine, medicine.disease_cause, Influenza A virus, Cytotoxic T cell, lcsh:Science, Immune Response, Aged, 80 and over, Multidisciplinary, T Cells, Genetically Modified Organisms, Immunogenicity, Vaccination, hemic and immune systems, Middle Aged, Orthomyxoviridae, Infectious Diseases, medicine.anatomical_structure, Medicine, Female, Safety, Genetic Engineering, Research Article, Biotechnology, Influenza vaccine, Immune Cells, T cell, Molecular Sequence Data, Vaccinia virus, Biology, complex mixtures, Interferon-gamma, Viral Proteins, Vaccine Development, medicine, Humans, Amino Acid Sequence, Aged, Influenza A Virus, H3N2 Subtype, lcsh:R, Immunity, Viral Vaccines, Virology, Influenza, Nucleoproteins, Geriatrics, Immunology, Clinical Immunology, lcsh:Q, Memory T cell, CD8

Abstract

BACKGROUND: Current influenza vaccines have reduced immunogenicity and are of uncertain efficacy in older adults. We assessed the safety and immunogenicity of MVA-NP+M1, a viral-vectored influenza vaccine designed to boost memory T cell responses, in a group of older adults. METHODS: Thirty volunteers (aged 50-85) received a single intramuscular injection of MVA-NP+M1 at a dose of 1·5×10(8) plaque forming units (pfu). Safety and immunogenicity were assessed over a period of one year. The frequency of T cells specific for nucleoprotein (NP) and matrix protein 1 (M1) was determined by interferon-gamma (IFN-γ) ELISpot, and their phenotypic and functional properties were characterized by polychromatic flow cytometry. In a subset of M1-specific CD8(+) T cells, T cell receptor (TCR) gene expression was evaluated using an unbiased molecular approach. RESULTS: Vaccination with MVA-NP+M1 was well tolerated. ELISpot responses were boosted significantly above baseline following vaccination. Increases were detected in both CD4(+) and CD8(+) T cell subsets. Clonality studies indicated that MVA-NP+M1 expanded pre-existing memory CD8(+) T cells, which displayed a predominant CD27(+)CD45RO(+)CD57(-)CCR7(-) phenotype both before and after vaccination. CONCLUSIONS: MVA-NP+M1 is safe and immunogenic in older adults. Unlike seasonal influenza vaccination, the immune responses generated by MVA-NP+M1 are similar between younger and older individuals. A T cell-inducing vaccine such as MVA-NP+M1 may therefore provide a way to circumvent the immunosenescence that impairs routine influenza vaccination. TRIAL REGISTRATION: ClinicalTrials.gov NCT00942071.

Published

2012

11. Identification of Immunodominant Responses to the Plasmodium falciparum Antigens PfUIS3, PfLSA1 and PfLSAP2 in Multiple Strains of Mice.

Author

Longley, Rhea J., Halbroth, Benedict R., Ewer, Katie J., Hill, Adrian V. S., and Spencer, Alexandra J.

Subjects

MALARIA, IMMUNE response, PROTOZOAN vaccines, PLASMODIUM falciparum, LABORATORY mice, ETIOLOGY of diseases

Abstract

Malaria, caused by the Plasmodium parasite, remains a serious global public health concern. A vaccine could have a substantial impact on eliminating this disease, alongside other preventative measures. We recently described the development of three novel, viral vectored vaccines expressing either of the antigens PfUIS3, PfLSA1 and PfLSAP2. Each vaccination regimen provided high levels of protection against chimeric parasite challenge in a mouse model, largely dependent on CD8+ T cells. In this study we aimed to further characterize the induced cellular immune response to these vaccines. We utilized both the IFNγ enzyme-linked immunosorbent spot assay and intracellular cytokine staining to achieve this aim. We identified immunodominant peptide responses for CD4+ and CD8+ T cells for each of the antigens in BALB/c, C57BL/6 and HLA-A2 transgenic mice, creating a useful tool for researchers for subsequent study of these antigens. We also compared these immunodominant peptides with those generated from epitope prediction software, and found that only a small proportion of the large number of epitopes predicted by the software were identifiable experimentally. Furthermore, we characterized the polyfunctionality of the induced CD8+ T cell responses. These findings contribute to our understanding of the immunological mechanisms underlying these protective vaccines, and provide a useful basis for the assessment of these and related vaccines as clinical constructs. [ABSTRACT FROM AUTHOR]

Published

2015

12. Dry-Coated Live Viral Vector Vaccines Delivered by Nanopatch Microprojections Retain Long-Term Thermostability and Induce Transgene-Specific T Cell Responses in Mice.

Author

Pearson, Frances E., McNeilly, Celia L., Crichton, Michael L., Primiero, Clare A., Yukiko, Sally R., Fernando, Germain J. P., Chen, Xianfeng, Gilbert, Sarah C., Hill, Adrian V. S., and Kendall, Mark A. F.

Subjects

MICROPROJECTION, T cells, LABORATORY mice, TRANSGENES, VIRAL vaccines, PUBLIC health, IMMUNE response

Abstract

The disadvantages of needle-based immunisation motivate the development of simple, low cost, needle-free alternatives. Vaccine delivery to cutaneous environments rich in specialised antigen-presenting cells using microprojection patches has practical and immunological advantages over conventional needle delivery. Additionally, stable coating of vaccine onto microprojections removes logistical obstacles presented by the strict requirement for cold-chain storage and distribution of liquid vaccine, or lyophilised vaccine plus diluent. These attributes make these technologies particularly suitable for delivery of vaccines against diseases such as malaria, which exerts its worst effects in countries with poorly-resourced healthcare systems. Live viral vectors including adenoviruses and poxviruses encoding exogenous antigens have shown significant clinical promise as vaccines, due to their ability to generate high numbers of antigen-specific T cells. Here, the simian adenovirus serotype 63 and the poxvirus modified vaccinia Ankara – two vectors under evaluation for the delivery of malaria antigens to humans – were formulated for coating onto Nanopatch microprojections and applied to murine skin. Co-formulation with the stabilising disaccharides trehalose and sucrose protected virions during the dry-coating process. Transgene-specific CD8+ T cell responses following Nanopatch delivery of both vectors were similar to intradermal injection controls after a single immunisation (despite a much lower delivered dose), though MVA boosting of pre-primed responses with Nanopatch was found to be less effective than the ID route. Importantly, disaccharide-stabilised ChAd63 could be stored for 10 weeks at 37°C with less than 1 log10 loss of viability, and retained single-dose immunogenicity after storage. These data support the further development of microprojection patches for the deployment of live vaccines in hot climates. [ABSTRACT FROM AUTHOR]

Published

2013

13. Examination of Influenza Specific T Cell Responses after Influenza Virus Challenge in Individuals Vaccinated with MVA-NP+M1 Vaccine

Author

Powell, Timothy J., Peng, Yanchun, Berthoud, Tamara K., Blais, Marie-Eve, Lillie, Patrick J., Hill, Adrian V. S., Rowland-Jones, Sarah L., McMichael, Andrew J., Gilbert, Sarah C., and Dong, Tao

Subjects

T cells, INFLUENZA vaccines, IMMUNOGLOBULINS, HEMAGGLUTININ, COMMUNICABLE diseases, IMMUNE response

Abstract

Current influenza vaccines stimulate neutralising antibody to the haemagglutinin antigen but as there is antigenic drift in HA it is difficult to prepare a vaccine in advance against an emergent strain. A potential strategy is to induce CD8+ and CD4+ T cells that recognize epitopes within internal proteins that are less subject to antigenic drift. Augmenting humoral responses to HA with T cell responses to more conserved antigens may result in a more broadly protective vaccine. In this study, we evaluate the quality of influenza specific T cell responses in a clinical trial using MVA-NP+M1 vaccination followed by influenza virus challenge. In vaccinated volunteers, the expression of Granzyme A, Perforin and CD57 on influenza HLA A*02 M158–66 antigen specific cells was higher than non-vaccinated volunteers before and after challenge despite a similar frequency of antigen specific cells. BCL2 expression was lower in vaccinated volunteers. These data indicate that antigen specific T cells are a useful additional measure for use in human vaccination or immunization studies. [ABSTRACT FROM AUTHOR]

Published

2013

14. A T Cell-Inducing Influenza Vaccine for the Elderly: Safety and Immunogenicity of MVA-NP+M1 in Adults Aged over 50 Years.

Author

Antrobus, Richard D., Lillie, Patrick J., Berthoud, Tamara K., Spencer, Alexandra J., McLaren, James E., Ladell, Kristin, Lambe, Teresa, Anita Milicic, Price, David A., Hill, Adrian V. S., and Gilbert, Sarah C.

Subjects

INFLUENZA vaccination research, T cells, RESEARCH methodology, NUCLEOPROTEINS, IMMUNE response, IMMUNOSENESCENCE

Abstract

Background: Current influenza vaccines have reduced immunogenicity and are of uncertain efficacy in older adults. We assessed the safety and immunogenicity of MVA-NP+M1, a viral-vectored influenza vaccine designed to boost memory T cell responses, in a group of older adults. Methods: Thirty volunteers (aged 50-85) received a single intramuscular injection of MVA-NP+M1 at a dose of 1⋅5x108 plaque forming units (pfu). Safety and immunogenicity were assessed over a period of one year. The frequency of T cells specific for nucleoprotein (NP) and matrix protein 1 (M1) was determined by interferon-gamma (IFN-γ) ELISpot, and their phenotypic and functional properties were characterized by polychromatic flow cytometry. In a subset of M1-specific CD8+ T cells, T cell receptor (TCR) gene expression was evaluated using an unbiased molecular approach. Results: Vaccination with MVA-NP+M1 was well tolerated. ELISpot responses were boosted significantly above baseline following vaccination. Increases were detected in both CD4+ and CD8+ T cell subsets. Clonality studies indicated that MVA- NP+M1 expanded pre-existing memory CD8+ T cells, which displayed a predominant CD27+ CD45RO+ CD57- CCR7- phenotype both before and after vaccination. Conclusions: MVA-NP+M1 is safe and immunogenic in older adults. Unlike seasonal influenza vaccination, the immune responses generated by MVA-NP+M1 are similar between younger and older individuals. A T cell-inducing vaccine such as MVA-NP+M1 may therefore provide a way to circumvent the immunosenescence that impairs routine influenza vaccination. [ABSTRACT FROM AUTHOR]

Published

2012

15. Identification of 34 Novel Proinflammatory Proteins in a Genome-Wide Macrophage Functional Screen.

Author

Wyllie, David H., Søgaard, Karen C., Holland, Karen, Xu Yaobo, Bregu, Migena, Hill, Adrian V. S., and Kiss-Toth, Endre

Subjects

GENOMES, TOLL-like receptors, CYTOKINES, IMMUNE response, MACROPHAGES, IMMUNITY

Abstract

Signal transduction pathways activated by Toll-like Receptors and the IL-1 family of cytokines are fundamental to mounting an innate immune response and thus to clearing pathogens and promoting wound healing. Whilst mechanistic understanding of the regulation of innate signalling pathways has advanced considerably in recent years, there are still a number of critical controllers to be discovered. In order to characterise novel regulators of macrophage inflammation, we have carried out an extensive, cDNA-based forward genetic screen and identified 34 novel activators, based on their ability to induce the expression of cxcl2. Many are physiologically expressed in macrophages, although the majority of genes uncovered in our screen have not previously been linked to innate immunity. We show that expression of particular activators has profound but distinct impacts on LPS-induced inflammatory gene expression, including switch-type, amplifier and sensitiser behaviours. Furthermore, the novel genes identified here interact with the canonical inflammatory signalling network via specific mechanisms, as demonstrated by the use of dominant negative forms of IL1/TLR signalling mediators. [ABSTRACT FROM AUTHOR]

Published

2012

16. Small Cationic DDA:TDB Liposomes as Protein Vaccine Adjuvants Obviate the Need for TLR Agonists in Inducing Cellular and Humoral Responses.

Author

Milicic, Anita, Kaur, Randip, Reyes-Sandoval, Arturo, Tang, Choon-Kit, Honeycutt, Jared, Perrie, Yvonne, and Hill, Adrian V. S.

Subjects

VACCINATION, BILAYER lipid membranes, PHOSPHOLIPIDS, GERM cells, IMMUNE response, LIPOSOMES, OVALBUMINS, PROTEINS

Abstract

Most subunit vaccines require adjuvants in order to induce protective immune responses to the targeted pathogen. However, many of the potent immunogenic adjuvants display unacceptable local or systemic reactogenicity. Liposomes are spherical vesicles consisting of single (unilamellar) or multiple (multilamellar) phospholipid bi-layers. The lipid membranes are interleaved with an aqueous buffer, which can be utilised to deliver hydrophilic vaccine components, such as protein antigens or ligands for immune receptors. Liposomes, in particular cationic DDA:TDB vesicles, have been shown in animal models to induce strong humoral responses to the associated antigen without increased reactogenicity, and are currently being tested in Phase I human clinical trials. We explored several modifications of DDA:TDB liposomes - including size, antigen association and addition of TLR agonists - to assess their immunogenic capacity as vaccine adjuvants, using Ovalbumin (OVA) protein as a model protein vaccine. Following triple homologous immunisation, small unilamellar vesicles (SUVs) with no TLR agonists showed a significantly higher capacity for inducing spleen CD8 IFNc responses against OVA in comparison with the larger multilamellar vesicles (MLVs). Antigen-specific antibody reponses were also higher with SUVs. Addition of the TLR3 and TLR9 agonists significantly increased the adjuvanting capacity of MLVs and OVA-encapsulating dehydration-rehydration vesicles (DRVs), but not of SUVs. Our findings lend further support to the use of liposomes as protein vaccine adjuvants. Importantly, the ability of DDA:TDB SUVs to induce potent CD8 T cell responses without the need for adding immunostimulators would avoid the potential safety risks associated with the clinical use of TLR agonists in vaccines adjuvanted with liposomes. [ABSTRACT FROM AUTHOR]

Published

2012

17. Identification of Antigens Specific to Non-Tuberculous Mycobacteria: The Mce Family of Proteins as a Target of T Cell Immune Responses.

Author

Checkley, Anna M., Wyllie, David H., Scriba, Thomas J., Golubchik, Tanya, Hill, Adrian V. S., Hanekom, Willem A., and McShane, Helen

Subjects

ANTIGENS, MYCOBACTERIA, T cells, IMMUNE response, TUBERCULOSIS, PANDEMICS

Abstract

The lack of an effective TB vaccine hinders current efforts in combating the TB pandemic. One theory as to why BCG is less protective in tropical countries is that exposure to non-tuberculous mycobacteria (NTM) reduces BCG efficacy. There are currently several new TB vaccines in clinical trials, and NTM exposure may also be relevant in this context. NTM exposure cannot be accurately evaluated in the absence of specific antigens; those which are known to be present in NTM and absent from M. tuberculosis and BCG. We therefore used a bioinformatic pipeline to define proteins which are present in common NTM and absent from the M. tuberculosis complex, using protein BLAST, TBLASTN and a short sequence protein BLAST to ensure the specificity of this process. We then assessed immune responses to these proteins, in healthy South Africans and in patients from the United Kingdom and United States with documented exposure to NTM. Low level responses were detected to a cluster of proteins from the mammalian cell entry family, and to a cluster of hypothetical proteins, using ex vivo ELISpot and a 6 day proliferation assay. These early findings may provide a basis for characterising exposure to NTM at a population level, which has applications in the field of TB vaccine design as well as in the development of diagnostic tests. [ABSTRACT FROM AUTHOR]

Published

2011

18. Quantitative PCR Evaluation of Cellular Immune Responses in Kenyan Children Vaccinated with a Candidate Malaria Vaccine.

Author

Mwacharo, Jedidah, Dunachie, Susanna J., Kai, Oscar, Hill, Adrian V. S., Bejon, Philip, and Fletcher, Helen A.

Subjects

POLYMERASE chain reaction, POLYMERIZATION, GENE amplification, CELLULAR immunity, IMMUNE response, MALARIA vaccines, PROTOZOAN vaccines, PEDIATRIC therapy

Abstract

Background: The T-cell mediated immune response plays a central role in the control of malaria after natural infection or vaccination. There is increasing evidence that T-cell responses are heterogeneous and that both the quality of the immune response and the balance between pro-inflammatory and regulatory T-cells determines the outcome of an infection. As Malaria parasites have been shown to induce immunosuppressive responses to the parasite and non-related antigens this study examined T-cell mediated pro-inflammatory and regulatory immune responses induced by malaria vaccination in children in an endemic area to determine if these responses were associated with vaccine immunogenicity. Methods: Using real-time RT- PCR we profiled the expression of a panel of key markers of immunogenecity at different time points after vaccination with two viral vector vaccines expressing the malaria TRAP antigen (FP9-TRAP and MVA-TRAP) or following rabies vaccination as a control. Principal Findings: The vaccine induced modest levels of IFN-γ mRNA one week after vaccination. There was also an increase in FoxP3 mRNA expression in both TRAP stimulated and media stimulated cells in the FFM ME-TRAP vaccine group; however, this may have been driven by natural exposure to parasite rather than by vaccination. Conclusion: Quantitative PCR is a useful method for evaluating vaccine induced cell mediated immune responses in frozen PBMC from children in a malaria endemic country. Future studies should seek to use vaccine vectors that increase the magnitude and quality of the IFN-γ immune response in naturally exposed populations and should monitor the induction of a regulatory T cell response. [ABSTRACT FROM AUTHOR]

Published

2009

19. Safety and Immunogenicity of the Candidate Tuberculosis Vaccine MVA85A in West Africa.

Author

Brookes, Roger H., Hill, Philip C., Owiafe, Patrick K., Ibanga, Hannah B., Jeffries, David J., Donkor, Simon A., Fletcher, Helen A., Hammond, Abdulrahman S., Lienhardt, Christian, Adegbola, Richard A., McShane, Helen, and Hill, Adrian V. S.

Subjects

TUBERCULOSIS vaccines, RECOMBINANT antibodies, MYCOBACTERIUM tuberculosis, VACCINIA, IMMUNE response, VACCINATION complications, T cell receptors, ANTIGENS, VACCINATION

Abstract

Background: Vaccination with a recombinant modified vaccinia Ankara expressing antigen 85A from Mycobacterium tuberculosis, MVA85A, induces high levels of cellular immune responses in UK volunteers. We assessed the safety and immunogenicity of this new vaccine in West African volunteers. Methods and Findings: We vaccinated 21 healthy adult male subjects (11 BCG scar negative and 10 BCG scar positive) with MVA85A after screening for evidence of prior exposure to mycobacteria. We monitored them over six months, observing for clinical, haematological and biochemical adverse events, together with assessment of the vaccine induced cellular immune response using ELISPOT and flow cytometry. MVA85A was well tolerated with no significant adverse events. Mild local and systemic adverse events were consistent with previous UK trials. Marked immunogenicity was found whether individuals had a previous BCG scar or not. There was not enhanced immunogenicity in those with a BCG scar, and induced T cell responses were better maintained in apparently BCG-naïve Gambians than previously studied BCG-naïve UK vaccinees. Although responses were predominantly attributable to CD4+ T cells, we also identified antigen specific CD8+ T cell responses, in subjects who were HLA B-35 and in whom enough blood was available for more detailed immunological analysis. Conclusions: These data on the safety and immunogenicity of MVA85A in West Africa support its accelerated development as a promising booster vaccine for tuberculosis. [ABSTRACT FROM AUTHOR]

Published

2008

20. In silico identified CCR4 antagonists target regulatory I cells and exert adjuvant activity in vaccination.

Author

Bayry, Jagadeesh, Tchilian, Elma Z., Davies, Matthew N., Forbes, Emily K., Draper, Simon J., Kaveri, Srini V., Hill, Adrian V. S., Kazatchkine, Michel D., Beverley, Peter C. L., Flower, Darren R., and Tough, David F.

Subjects

VACCINATION, IMMUNE response, IMMUNOLOGICAL adjuvants, T cells, CELL proliferation, MYCOBACTERIUM tuberculosis, MYCOBACTERIAL diseases

Abstract

Adjuvants are substances that enhance immune responses and thus improve the efficacy of vaccination. Few adjuvants are avail- able for use in humans, and the one that is most commonly used (alum) often induces suboptimal immunity for protection against many pathogens. There is thus an obvious need to develop new and improved adjuvants. We have therefore taken an approach to adjuvant discovery that uses in silico modeling and structure-based drug-design. As proof-of-principle we chose to target the interaction of the chemokines CCL22 and CCL17 with their receptor CCR4. CCR4 was posited as an adjuvant target based on its expression on CD4+CD25+ regulatory T cells (Tregs), which negatively regulate immune responses induced by dendritic cells (DC), whereas CCL17 and CCL22 are chemotactic agents produced by DC, which are crucial in promoting contact between DC and CCR4~ T cells. Molecules identified by virtual screening and molecular docking as CCR4 antagonists were able to block CCL22- and CCL17-mediated recruitment of human Tregs and Th2 cells. Furthermore, CCR4 antagonists enhanced DC-mediated human CD4+ T cell proliferation in an in vitro immune response model and amplified cellular and humoral immune responses in vivo in experimental models when injected in combination with either Modified Vaccinia Ankara expressing A985A from Mycobacterium tuberculosis (MVA85A) or recombinant hepatitis B virus surface antigen (rHB-sAg) vaccines. The significant adjuvant activity observed provides good evidence supporting our hypothesis that CCR4 is a viable target for rational adjuvant design. [ABSTRACT FROM AUTHOR]

Published

2008

21. Evidence of Blood Stage Efficacy with a Virosomal Malaria Vaccine in a Phase IIa Clinical Trial.

Author

Thompson, Fiona M., Porter, David W., Okitsu, Shinji L., Westerfeld, Nicole, Vogel, Denise, Todryk, Stephen, Poulton, Ian, Correa, Simon, Hutchings, Claire, Berthoud, Tamara, Dunachie, Susanna, Andrews, Laura, Williams, Jack L., Sinden, Robert, Gilbert, Sarah C., Pluschke, Gerd, Zurbriggen, Rinaldo, and Hill, Adrian V. S.

Subjects

SEROTHERAPY, MALARIA vaccines, PROTOZOAN vaccines, MALARIA, IMMUNE response, PREVENTIVE medicine, CLINICAL trials, MEDICAL experimentation on humans, CLINICAL medicine, VACCINATION

Abstract

Background. Previous research indicates that a combination vaccine targeting different stages of the malaria life cycle is likely to provide the most effective malaria vaccine. This trial was the first to combine two existing vaccination strategies to produce a vaccine that induces immune responses to both the pre-erythrocytic and blood stages of the P. falciparum life cycle. Methods. This was a Phase I/IIa study of a new combination malaria vaccine FFM ME-TRAP+PEV3A. PEV3A includes peptides from both the pre-erythrocytic circumsporozoite protein and the blood-stage antigen AMA-1. This study was conducted at the Centre for Clinical Vaccinology and Tropical Medicine, University of Oxford, Oxford, UK. The participants were healthy, malaria naïve volunteers, from Oxford. The interventions were vaccination with PEV3A alone, or PEV3A+FFM ME-TRAP. The main outcome measure was protection from malaria in a sporozoite challenge model. Other outcomes included measures of parasite specific immune responses induced by either vaccine; and safety, assessed by collection of adverse event data. Results. We observed evidence of blood stage immunity in PEV3A vaccinated volunteers, but no volunteers were completely protected from malaria. PEV3A induced high antibody titres, and antibodies bound parasites in immunofluorescence assays. Moreover, we observed boosting of the vaccine-induced immune response by sporozoite challenge. Immune responses induced by FFM ME-TRAP were unexpectedly low. The vaccines were safe, with comparable side effect profiles to previous trials. Although there was no sterile protection two major observations support an effect of the vaccine-induced response on blood stage parasites: (i) Lower rates of parasite growth were observed in volunteers vaccinated with PEV3A compared to unvaccinated controls (p = 0.012), and this was reflected in the PCR results from PEV3A vaccinated volunteers. These showed early control of parasitaemia by some volunteers in this group. One volunteer, who received PEV3A alone, was diagnosed very late, on day 20 compared to an average of 11.8 days in unvaccinated controls. (ii). Morphologically abnormal parasites were present in the blood of all (n = 24) PEV3A vaccinated volunteers, and in only 2/6 controls (p = 0.001). We describe evidence of vaccine-induced blood stage efficacy for the first time in a sporozoite challenge study. [ABSTRACT FROM AUTHOR]

Published

2008

22. A Polymorphism That Reduces RANTES Expression Is Associated with Protection from Death in HIV-Seropositive Ugandans with Advanced Disease.

Author

Cooke, Graham S., Tosh, Kerrie, Ramaley, Patricia A., Kaleebu, Pontiano, Zhuang, Joanna, Nakiyingi, Jessica S., Watera, Christine, Gilks, Charles F., French, Neil, Whitworth, James A. G., and Hill, Adrian V. S.

Subjects

T cells, CELL-mediated lympholysis, HIV, HIV-positive persons, IMMUNE response, ANTIVIRAL agents, GENETIC polymorphisms, IMMUNODEFICIENCY

Abstract

We investigated the effect of RANTES polymorphisms on human immunodeficiency virus type 1 (HIV-1) disease progression in an urban population of Uganda. HIV-positive individuals homozygous for the INT1.1C polymorphism, which had been associated previously with low RANTES expression, were less likely to die than were those with other genotypes (hazard ratio, 0.53 [95% confidence interval, 0.33– 0.83]; P = .007). This report of a non-human leukocyte antigen genetic association with HIV-1 and/or acquired immunodeficiency syndrome disease progression in an African population reveals a genetic effect different from that reported elsewhere for African Americans and may impact therapeutic strategies targeting the RANTES pathway in HIV infection. [ABSTRACT FROM AUTHOR]

Published

2006

23. Recombinant modified vaccinia virus Ankara expressing antigen 85A boosts BCG-primed and naturally acquired antimycobacterial immunity in humans.

Author

McShane, Helen, Pathan, Ansar A, Sander, Clare R, Keating, Sheila M, Gilbert, Sarah C, Huygen, Kris, Fletcher, Helen A, and Hill, Adrian V S

Subjects

MYCOBACTERIUM tuberculosis, IMMUNE response, INTERFERONS, T cells, VACCINATION, POXVIRUSES

Abstract

Protective immunity against Mycobacterium tuberculosis depends on the generation of a TH1-type cellular immune response, characterized by the secretion of interferon-?(IFN-?) from antigen-specific T cells. The induction of potent cellular immune responses by vaccination in humans has proven difficult. Recombinant viral vectors, especially poxviruses and adenoviruses, are particularly effective at boosting previously primed CD4+ and CD8+ T-cell responses against a number of intracellular pathogens in animal studies. In the first phase 1 study of any candidate subunit vaccine against tuberculosis, recombinant modified vaccinia virus Ankara (MVA) expressing antigen 85A (MVA85A) was found to induce high levels of antigen-specific IFN-?-secreting T cells when used alone in bacille Calmette-Guérin (BCG)-naive healthy volunteers. In volunteers who had been vaccinated 0.5-38 years previously with BCG, substantially higher levels of antigen-specific IFN-?-secreting T cells were induced, and at 24 weeks after vaccination these levels were 5-30 times greater than in vaccinees administered a single BCG vaccination. Boosting vaccinations with MVA85A could offer a practical and efficient strategy for enhancing and prolonging antimycobacterial immunity in tuberculosis-endemic areas. [ABSTRACT FROM AUTHOR]

Published

2004

24. Cellular immune responses induced in cattle by heterologous prime–boost vaccination using recombinant viruses and bacille Calmette–Guérin.

Author

Vordermeier, H. Martin, Rhodes, Shelley G., Dean, Gillian, Goonetilleke, Nilu, Huygen, Kris, Hill, Adrian V. S., Hewinson, R. Glyn, and Gilbert, Sarah C.

Subjects

IMMUNE response, MYCOBACTERIUM bovis, BACTERIA, RECOMBINANT viruses, BCG vaccines, VACCINATION

Abstract

The development of novel vaccine strategies to replace or supplement bacille Calmette-Guérin (BCG) is urgently required. Here we study, in cattle, the use of heterologous prime-boost strategies based on vaccination with BCG and the mycobacterial mycolyl transferase Ag85A (Rv3804c) expressed either in recombinant modified vaccinia virus Ankara (MVA85A) or attenuated fowlpox strain FP9 (FP85A). Five different vaccination schedules were tested in the first experiment: MVA85A followed by BCG (group 1); BCG followed by MVA85A (group 2); BCG followed by FP85A and then MVA85A (group 3); MVA85A followed by MVA85A and then FP85A (group 4); and FP85A followed by FP85A and then MVA85A (group 5). Vaccine-induced levels of cellular immunity were assessed by determining interferon-γ (IFN-γ) responses in vitro. Prime-boost protocols, using recombinant MVA and BCG hi combination (groups 1–3), resulted in significantly higher frequencies of Ag85-specific IFN-γ-secreting cells than the two viral vectors used in combination (P = 0·0055), or BCG used alone (groups 2 and 3, P = 0·04). The T-cell repertoires of file calves in all five groups were significantly broader following heterologous booster immunizations than after the primary immunization. In a second experiment, the effects of BCG/MVA85A heterologous prime-boost vaccination were compared with BCG/BCG homologous revaccination. The results suggested a higher Ag85A-specific response with a wider T-cell repertoire in the MVA85A-boosted calves than in the BCG/BCG-vaccinated calves. In conclusion therefore, the present report demonstrates the effectiveness of heterologous prime-boost strategies based on recombinant MVA and BCG to induce strong cellular immune responses in cattle and prioritise such vaccination strategies for rapid assessment of protective efficacy in this natural target species of tuberculosis. [ABSTRACT FROM AUTHOR]

Published

2004

25. A CD4+ T-cell immune response to a conserved epitope in the circumsporozoite protein correlates with protection from natural Plasmodium falciparum infection and disease.

Author

Reece, William H. H., Pinder, Margaret, Gothard, Philip K., Milligan, Paul, Bojang, Kalifa, Doherty, Tom, Plebanski, Magdalena, Akinwunmi, Peter, Everaere, Simone, Watkins, Katherine R., Voss, Gerald, Tornieporth, Nadia, Alloueche, Ali, Greenwood, Brian M., Kester, Kent E., McAdam, Keith P. W. J., Cohen, Joe, and Hill, Adrian V. S.

Subjects

IMMUNE response, EPITOPES, PROTEINS, PLASMODIUM falciparum, T cells, MALARIA

Abstract

Many human T-cell responses specific for epitopes in Plasmodium falciparum have been described, but none has yet been shown to be predictive of protection against natural malaria infection. Here we report a peptide-specific T-cell assay that is strongly associated with protection of humans in The Gambia, West Africa, from both malaria infection and disease. The assay detects interferon-?-secreting CD4+ T cells specific for a conserved sequence from the circumsporozoite protein, which binds to many human leukocyte antigen (HLA)-DR types. The correlation was observed using a cultured, rather than an ex vivo, ELISPOT assay that measures central memory-'type T cells rather than activated effector T cells. These findings provide direct evidence for a protective role for CD4+ T cells in humans, and a precise target for the design of improved vaccines against P. falciparum. [ABSTRACT FROM AUTHOR]

Published

2004

26. Interleukin-10 promoter polymorphisms and the outcome of hepatitis C virus infection.

Author

Knapp, Susanne, Hennig, Branwen J. W., Frodsham, Angela J., Zhang, Lyna, Hellier, Simon, Wright, Mark, Goldin, Rob, Hill, Adrian V. S., Thomas, Howard C., and Thursz, Mark R.

Subjects

HEPATITIS C virus, IMMUNE response, INTERLEUKIN-10, ANTIVIRAL agents, LIVER diseases

Abstract

The natural outcome and response to treatment in hepatitis C virus (HCV) infection varies between individuals. Whereas some variation may be attributable to viral and environmental variables, it is probable that host genetic background also plays a significant role. Interleukin (IL)-10 has a key function in the regulation of cellular immune responses and in the suppression of pro-inflammatory cytokine secretion. Functional polymorphisms in the IL-10 gene have been described. We investigated the role of these polymorphisms in the outcome of HCV infection, treatment response and development of fibrosis in a case-control association study. Self-limiting infection was associated with the IL-10 (-592) AA genotype (OR=2.05; P=0.028). Persistent infection was associated with the IL-10 (-1082) GG genotype (OR=0.48; P=0.018). Sustained response to interferon therapy was associated with the IL-10 (-1082) GG genotype (OR=2.28; P=0.005) and the haplotype GCC (OR=2.27; P=0.020). The IL-10 (-1082) AA genotype and the ATA/ATA and ACC/ACC homozygous haplotypes were more frequent among patients with rapid fibrosis. Furthermore, the microsatellites IL-10.R and IL-10.G were associated with interferon response with IL-10R.2 conveying susceptibility (OR=1.80; P=0.034), and IL-10R.3 and IL-10.G13 being protective (OR=0.47; P=0.003 and OR=0.59; P=0.042, respectively). We conclude that polymorphisms in the IL-10 promoter appear to have some influence on the outcome of HCV infection, treatment and development of fibrosis. [ABSTRACT FROM AUTHOR]

Published

2003

27. Vaccines against intracellular infections requiring cellular immunity.

Author

Seder, Robert A. and Hill, Adrian V. S.

Subjects

*CELLULAR immunity, *IMMUNE response, *IMMUNOLOGIC memory, *VACCINATION

Abstract

Examines the mechanisms by which long-lived cellular immune responses are generated and maintained in vivo. Discussion about acquired cellular immunity and cellular memory; Thresholds, time and place of immune protection; Approaches for vaccination, which induce cellular immunity to intracellular pathogens.

Published

2000

28. Differential immunogenicity between HAdV-5 and chimpanzee adenovirus vector ChAdOx1 is independent of fiber and penton RGD loop sequences in mice.

Author

Dicks, Matthew D. J., Spencer, Alexandra J., Coughlan, Lynda, Bauza, Karolis, Gilbert, Sarah C., Hill, Adrian V. S., and Cottingham, Matthew G.

Subjects

ADENOVIRUSES, CHIMPANZEES, ANTIGENS, TRANSGENE expression, IMMUNE response, DISEASES, THERAPEUTICS

Abstract

Replication defective adenoviruses are promising vectors for the delivery of vaccine antigens. However, the potential of a vector to elicit transgene-specific adaptive immune responses is largely dependent on the viral serotype used. HAdV-5 (Human adenovirus C) vectors are more immunogenic than chimpanzee adenovirus vectors from species Human adenovirus E (ChAdOx1 and AdC68) in mice, though the mechanisms responsible for these differences in immunogenicity remain poorly understood. In this study, superior immunogenicity was associated with markedly higher levels of transgene expression in vivo, particularly within draining lymph nodes. To investigate the viral factors contributing to these phenotypes, we generated recombinant ChAdOx1 vectors by exchanging components of the viral capsid reported to be principally involved in cell entry with the corresponding sequences from HAdV-5. Remarkably, pseudotyping with the HAdV-5 fiber and/or penton RGD loop had little to no effect on in vivo transgene expression or transgene-specific adaptive immune responses despite considerable species-specific sequence heterogeneity in these components. Our results suggest that mechanisms governing vector transduction after intramuscular administration in mice may be different from those described in vitro. [ABSTRACT FROM AUTHOR]

Published

2015

29. Two Human MYD88 Variants, S34Y and R98C, Interfere with MyD88-IRAK4-Myddosome Assembly.

Author

George, Julie, Motshwene, Precious G., Hui Wang, Kubarenko, Andriy V., Rautanen, Anna, Mills, Tara C., Hill, Adrian V. S., Gay, Nicholas J., and Weber, Alexander N. R.

Subjects

*IMMUNE response, *STRUCTURAL equation modeling, *NUCLEOTIDES, *PATHOGENIC microorganisms, *INFECTION

Abstract

Innate immune receptors detect microbial pathogens and subsequently activate adaptive immune responses to combat pathogen invasion. MyD88 is a key adaptor molecule in both Toll-like receptor (TLR) and IL-1 receptor superfamily signaling pathways. This is illustrated by the fact that human individuals carrying rare, naturally occurring MYD88 point mutations suffer from reoccurring life-threatening infections. Here we analyzed the functional properties of six reported non-synonymous single nucleotide polymorphisms of MYD88 in an in vitro cellular system. Two variants found in the MyD88 death domain, S34Y and R98C, showed severely reduced NF-κB activation due to reduced homo-oligomerization and IRAK4 interaction. Structural modeling highlights Ser-34 and Arg-98 as residues important for the assembly of the Myddosome, a death domain (DD) post-receptor complex involving the DD of MyD88, IRAK4, and IRAK2 or IRAK1. Using S34Y and R98C as functional probes, our data show that MyD88 homo-oligomerization and IRAK4 interaction is modulated by the MyD88 TIR and IRAK4 kinase domain, demonstrating the functional importance of non-DD regions not observed in a recent Myddosome crystal structure. The differential interference of S34Y and R98C with some (IL-1 receptor, TLR2, TLR4, TLR5, and TLR7) but not all (TLR9) MyD88-dependent signaling pathways also suggests that receptor specificities exist at the level of the Myddosome. Given their detrimental effect on signaling, it is not surprising that our epidemiological analysis in several case-control studies confirms that S34Y and R98C are rare variants that may drastically contribute to susceptibility to infection in only few individuals. [ABSTRACT FROM AUTHOR]

Published

2011

30. A Naturally Occurring Variant in Human TLR9, P99L, Is Associated with Loss of CpG Oligonucleotide Responsiveness.

Author

Kubarenko, Andriy V., Ranjan, Satish, Rautanen, Anna, Mills, Tara C., Wong, Sunny, Vannberg, Fredrik, Neumaier, Michael, Bekeredjian-Ding, Isabelle, Hill, Adrian V. S., Ahmad-Nejad, Parviz, and Weber, Alexander N. R.

Subjects

*NATURAL immunity, *OLIGONUCLEOTIDES, *DETECTION of microorganisms, *INTERFERONS, *LIGANDS (Biochemistry), *IMMUNE response

Abstract

The innate immune system employs Toll-like receptors (TLRs) for the detection of invading microorganisms based on distinct molecular patterns. For example, TLR9 is activated by microbial DNA and also by short therapeutic CpG-containing oligonucleotides (CpG-ODN). TLR9 activation leads to the production of interferons and the priming of humoral adaptive immune responses. Unfortunately, the principles of ligand recognition by TLR9 are poorly understood, and genetic variants of TLR9, which may affect its function, have not been characterized systematically on the molecular level. We therefore sought to functionally characterize reported single nucleotide polymorphisms of TLR9 in the HEK293 model system. We discovered that two variants, P99L and M400I, are associated with altered receptor function regarding NF-κB activation and cytokine induction. Our investigations show that for the most functionally impaired variant, P99L, the ability to respond to physiological and therapeutic TLR9 ligands is severely compromised. However, CpG-ODN binding is normal. CpG-ODN recognition by TLR9 thus appears to involve two separate events, CpG-ODN binding and sensing. Our studies highlight Pro-99 as a residue important for the latter process. In genotyping studies, we confirmed that both M400I (rs41308230) and P99L (rs5743844) are relatively rare variants of TLR9. Our data add rs41308230 and rs5743844 to the list of functionally important TLR variants and warrant further research into their relevance for infectious disease susceptibility or responsiveness to CpG-ODN-based therapies. [ABSTRACT FROM AUTHOR]

Published

2010