Your search keyword '"Tungatt, Katie"' showing total 23 results

1. T-cell responses to influenza virus in pigs

Author

Tungatt, Katie

Subjects

616.07

Abstract

The tools and techniques for the study of porcine T-cells lag behind what is currently attainable in human T-cells, so this thesis was initially focused on improvements in this field. This study established long-term culture of porcine T-cells, T-cell clone procurement and relevant T-cell assays. These techniques were then used to investigate cytotoxic T-cell responses to Influenza A virus (IAV) in pigs. IAV is highly mutative and novel strains can be generated following reassortment between different viral strains. IAV is endemic in the global pig population and in some circumstances the virus can pass between humans and pigs and other animals. Pigs can therefore, potentially be a source for the generation of new and possibly pandemic influenza strains. The risk this poses to global human health, together with the negative effects of IAV infection within pig herds, highlights the need to improve our knowledge of IAV in pigs. This study identified four new MHC class I restricted IAV epitopes, derived from the viral nucleoprotein. Cytotoxic T-cells recognising these IAV epitopes were detected at high numbers ex vivo in samples from vaccinated pigs. The structures of these IAV epitopes in complex with their respective MHC class I molecules were resolved and revealed the primary anchor positions within the peptides. This enabled peptide binding motifs to be defined for two porcine MHC-I alleles. These peptide binding motifs can be utilised for efficient epitope prediction. This study also identified super-agonist ligands for two of the MHC-I restricted IAV epitopes. Overall, this work has opened up the study of porcine T-cells to a level previously unattainable and has contributed to our knowledge of IAV in pigs. It has paved the way for further experiments investigating IAV in pigs, other porcine diseases and for using pigs as an animal model for human disease.

Published

2017

2. Autoreactive T effector memory differentiation mirrors [beta] cell function in type 1 diabetes

Author

Yeo, Lorraine, Woodwyk, Alyssa, Sood, Sanjana, Lorenc, Anna, Eichmann, Martin, Pujol-Autonell, Irma, Melchiotti, Rosella, Skowera, Ania, Fidanis, Efthymios, Dolton, Garry M., Tungatt, Katie, Sewell, Andrew K., Heck, Susanne, Saxena, Alka, Beam, Craig A., and Peakman, Mark

Subjects

Cell differentiation -- Analysis, Immunotherapy -- Usage, Type 1 diabetes -- Diagnosis -- Development and progression -- Research, Diabetics -- Health aspects, Health care industry

Abstract

In type 1 diabetes, cytotoxic [CD8.sup.+] T cells with specificity for [beta] cell autoantigens are found in the pancreatic islets, where they are implicated in the destruction of insulin-secreting [beta] cells. In contrast, the disease relevance of [beta] cell-reactive [CD8.sup.+] T cells that are detectable in the circulation, and their relationship to [beta] cell function, are not known. Here, we tracked multiple, circulating [beta] cell-reactive [CD8.sup.+] T cell subsets and measured [beta] cell function longitudinally for 2 years, starting immediately after diagnosis of type 1 diabetes. We found that change in [beta] cell-specific effector memory [CD8.sup.+] T cells expressing CD57 was positively correlated with C-peptide change in subjects below 12 years of age. Autoreactive [CD57.sup.+] effector memory [CD8.sup.+] T cells bore the signature of enhanced effector function (higher expression of granzyme B, killer-specific protein of 37 kDa, and CD16, and reduced expression of CD28) compared with their [CD57.sup.-] counterparts, and network association modeling indicated that the dynamics of [beta] cell-reactive [CD57.sup.+] effector memory [CD8.sup.+] T cell subsets were strongly linked. Thus, coordinated changes in circulating [beta] cell-specific [CD8.sup.+] T cells within the [CD57.sup.+] effector memory subset calibrate to functional insulin reserve in type 1 diabetes, providing a tool for immune monitoring and a mechanism-based target for immunotherapy., Introduction Type 1 diabetes is an autoimmune disease in which insulin-secreting [beta] cells of the pancreatic islets are selectively destroyed (1, 2). [CD8.sup.+] T cells are regarded as critical players [...]

Published

2018

3. Peptide mimic for influenza vaccination using nonnatural combinatorial chemistry

Author

Miles, John J., Tan, Mai Ping, Dolton, Garry, Edwards, Emily S.J., Galloway, Sarah A.E., Laugel, Bruno, Clement, Mathew, Makinde, Julia, Ladell, Kristin, Matthews, Katherine K., Watkins, Thomas S., Tungatt, Katie, Wong, Yide, Lee, Han Siean, Clark, Richard J., Pentier, Johanne M., Attaf, Meriem, Lissina, Anya, Ager, Ann, Gallimore, Awen, Rizkallah, Pierre J., Gras, Stephanie, Rossjohn, Jamie, Burrows, Scott R., Cole, David K., Price, David A., and Sewell, Andrew K.

Subjects

Combinatorial chemistry -- Health aspects -- Methods, Synthetic biology -- Research, Influenza vaccines -- Research, Biomimetics -- Health aspects -- Usage, Polypeptides -- Health aspects -- Chemical properties, Pharmacological research, Health care industry

Abstract

Polypeptide vaccines effectively activate human T cells but suffer from poor biological stability, which confines both transport logistics and in vivo therapeutic activity. Synthetic biology has the potential to address these limitations through the generation of highly stable antigenic 'mimics' using subunits that do not exist in the natural world. We developed a platform based on D-amino acid combinatorial chemistry and used this platform to reverse engineer a fully artificial [CD8.sup.+] T cell agonist that mirrored the immunogenicity profile of a native epitope blueprint from influenza virus. This nonnatural peptide was highly stable in human serum and gastric acid, reflecting an intrinsic resistance to physical and enzymatic degradation. In vitro, the synthetic agonist stimulated and expanded an archetypal repertoire of polyfunctional human influenza virus-specific [CD8.sup.+] T cells. In vivo, specific responses were elicited in naive humanized mice by subcutaneous vaccination, conferring protection from subsequent lethal influenza challenge. Moreover, the synthetic agonist was immunogenic after oral administration. This proof-of-concept study highlights the power of synthetic biology to expand the horizons of vaccine design and therapeutic delivery., Introduction [CD8.sup.+] T cells recognize short peptide fragments presented by MHC class I (MHC-I) molecules on the surface of nucleated cells (1-3). These peptide-MHC-I (pMHC-I) molecular arrays are scanned by [...]

Published

2018

4. Functional role of T-cell receptor nanoclusters in signal initiation and antigen discrimination

Author

Pageon, Sophie V., Tabarin, Thibault, Yamamoto, Yui, Ma, Yuanqing, Nicovich, Philip R., Bridgeman, John S., Cohnen, André, Benzing, Carola, Gao, Yijun, Crowther, Michael D., Tungatt, Katie, Dolton, Garry, Sewell, Andrew K., Price, David A., Acuto, Oreste, Parton, Robert G., Gooding, J. Justin, Rossy, Jérémie, Rossjohn, Jamie, and Gaus, Katharina

Published

2016

5. Characterizing and correcting immune dysfunction in non-tuberculous mycobacterial disease

Author

Ratnatunga, Champa N., primary, Tungatt, Katie, additional, Proietti, Carla, additional, Halstrom, Sam, additional, Holt, Michael R., additional, Lutzky, Viviana P., additional, Price, Patricia, additional, Doolan, Denise L., additional, Bell, Scott C., additional, Field, Matt A., additional, Kupz, Andreas, additional, Thomson, Rachel M., additional, and Miles, John J., additional

Published

2022

6. More tricks with tetramers: a practical guide to staining T cells with peptide–MHC multimers

Author

Dolton, Garry, Tungatt, Katie, Lloyd, Angharad, Bianchi, Valentina, Theaker, Sarah M., Trimby, Andrew, Holland, Christopher J., Donia, Marco, Godkin, Andrew J., Cole, David K., Thor Straten, Per, Peakman, Mark, Svane, Inge Marie, and Sewell, Andrew K.

Published

2015

7. Synthetic hookworm-derived peptides are potent modulators of primary human immune cell function that protect against experimental colitis in vivo

Author

Smallwood, Taylor B., primary, Navarro, Severine, additional, Cristofori-Armstrong, Ben, additional, Watkins, Thomas S., additional, Tungatt, Katie, additional, Ryan, Rachael Y.M., additional, Haigh, Oscar L., additional, Lutzky, Viviana P., additional, Mulvenna, Jason P., additional, Rosengren, K. Johan, additional, Loukas, Alex, additional, Miles, John J., additional, and Clark, Richard J., additional

Published

2021

8. Synthetic hookworm-derived peptides are potent modulators of primary human immune cell function that protect against experimental colitis in vivo

Author

Smallwood, Taylor B., Navarro, Severine, Cristofori-Armstrong, Ben, Watkins, Thomas S., Tungatt, Katie, Ryan, Rachael Y.M., Haigh, Oscar L., Lutzky, Viviana P., Mulvenna, Jason P., Rosengren, K. Johan, Loukas, Alex, Miles, John J., Clark, Richard J., Smallwood, Taylor B., Navarro, Severine, Cristofori-Armstrong, Ben, Watkins, Thomas S., Tungatt, Katie, Ryan, Rachael Y.M., Haigh, Oscar L., Lutzky, Viviana P., Mulvenna, Jason P., Rosengren, K. Johan, Loukas, Alex, Miles, John J., and Clark, Richard J.

Abstract

The prevalence of autoimmune diseases is on the rise globally. Currently, autoimmunity presents in over 100 different forms and affects around 9% of the world’s population. Current treatments available for autoimmune diseases are inadequate, expensive, and tend to focus on symptom management rather than cure. Clinical trials have shown that live helminthic therapy can decrease chronic inflammation associated with inflammatory bowel disease and other gastrointestinal autoimmune inflammatory conditions. As an alternative and better controlled approach to live infection, we have identified and characterized two peptides, Acan1 and Nak1, from the excretory/secretory component of parasitic hookworms for their therapeutic activity on experimental colitis. We synthesized Acan1 and Nak1 peptides from the Ancylostoma caninum and Necator americanus hookworms and assessed their structures and protective properties in human cell–based assays and in a mouse model of acute colitis. Acan1 and Nak1 displayed anticolitic properties via significantly reducing weight loss and colon atrophy, edema, ulceration, and necrosis in 2,4,6-trinitrobenzene sulfonic acid–exposed mice. These hookworm peptides prevented mucosal loss of goblet cells and preserved intestinal architecture. Acan1 upregulated genes responsible for the repair and restitution of ulcerated epithelium, whereas Nak1 downregulated genes responsible for epithelial cell migration and apoptotic cell signaling within the colon. These peptides were nontoxic and displayed key immunomodulatory functions in human peripheral blood mononuclear cells by suppressing CD4+ T cell proliferation and inhibiting IL-2 and TNF production. We conclude that Acan1 and Nak1 warrant further development as therapeutics for the treatment of autoimmunity, particularly gastrointestinal inflammatory conditions.

Published

2021

9. Identification and Characterization of a Peptide from the Stony Coral Heliofungia actiniformis

Author

Schmidt, Casey A., primary, Wilson, David T., additional, Cooke, Ira, additional, Potriquet, Jeremy, additional, Tungatt, Katie, additional, Muruganandah, Visai, additional, Boote, Chloë, additional, Kuek, Felicity, additional, Miles, John J., additional, Kupz, Andreas, additional, Ryan, Stephanie, additional, Loukas, Alex, additional, Bansal, Paramjit S., additional, Takjoo, Rozita, additional, Miller, David J., additional, Peigneur, Steve, additional, Tytgat, Jan, additional, and Daly, Norelle L., additional

Published

2020

10. Peptide-MHC class 1 tetramers can fail to detect relevant functional T cell clonotypes and underestimate antigen-reactive T cell populations

Author

Rius, Cristina, Attaf, Meriem, Tungatt, Katie, Bianchi, Valentina, Legut, Mateusz, Bovay, Amandine, Donia, Marco, Straten, Per thor, Peakman, Mark, Svane, Inge Marie, Ott, Sascha, Connor, Tom, Szomolay, Barbara, Dolton, Garry, and Sewell, Andrew K.

Subjects

chemical and pharmacologic phenomena

Abstract

Peptide-MHC (pMHC) multimers, usually used as streptavidin-based tetramers, have transformed the study of Ag-specific T cells by allowing direct detection, phenotyping, and enumeration within polyclonal T cell populations. These reagents are now a standard part of the immunology toolkit and have been used in many thousands of published studies. Unfortunately, the TCR-affinity threshold required for staining with standard pMHC multimer protocols is higher than that required for efficient T cell activation. This discrepancy makes it possible for pMHC multimer staining to miss fully functional T cells, especially where low-affinity TCRs predominate, such as in MHC class II-restricted responses or those directed against self-antigens. Several recent, somewhat alarming, reports indicate that pMHC staining might fail to detect the majority of functional T cells and have prompted suggestions that T cell immunology has become biased toward the type of cells amenable to detection with multimeric pMHC. We use several viral- and tumor-specific pMHC reagents to compare populations of human T cells stained by standard pMHC protocols and optimized protocols that we have developed. Our results confirm that optimized protocols recover greater populations of T cells that include fully functional T cell clonotypes that cannot be stained by regular pMHC-staining protocols. These results highlight the importance of using optimized procedures that include the use of protein kinase inhibitor and Ab cross-linking during staining to maximize the recovery of Ag-specific T cells and serve to further highlight that many previous quantifications of T cell responses with pMHC reagents are likely to have considerably underestimated the size of the relevant populations.

Published

2018

11. Peptide-MHC Class I Tetramers Can Fail To Detect Relevant Functional T Cell Clonotypes and Underestimate Antigen-Reactive T Cell Populations

Author

Rius, Cristina, Attaf, Meriem, Tungatt, Katie, Bianchi, Valentina, Legut, Mateusz, Bovay, Amandine, Donia, Marco, thor Straten, Per, Peakman, Mark, Svane, Inge Marie, Ott, Sascha, Connor, Tom, Szomolay, Barbara, Dolton, Garry, and Sewell, Andrew K.

Subjects

Herpesvirus 4, Human/immunology, Herpesvirus 4, Human, Cytomegalovirus/immunology, Melanoma/immunology, RNA-Binding Proteins/immunology, Receptors, Antigen, T-Cell, Cytomegalovirus, chemical and pharmacologic phenomena, CD8-Positive T-Lymphocytes, Lymphocyte Activation/immunology, Lymphocyte Activation, CD8-Positive T-Lymphocytes/immunology, Lymphocytes, Tumor-Infiltrating, Antigen Recognition and Responses, HLA-A2 Antigen, Tumor Cells, Cultured, Humans, Melanoma, Protein Kinase Inhibitors, Lymphocytes, Tumor-Infiltrating/immunology, HLA-A2 Antigen/immunology, Orthomyxoviridae/immunology, Protein Binding/immunology, Protein Kinase Inhibitors/metabolism, Receptors, Antigen, T-Cell/immunology, Staining and Labeling/methods, Staining and Labeling, RNA-Binding Proteins, Orthomyxoviridae, Protein Binding

Abstract

Peptide-MHC (pMHC) multimers, usually used as streptavidin-based tetramers, have transformed the study of Ag-specific T cells by allowing direct detection, phenotyping, and enumeration within polyclonal T cell populations. These reagents are now a standard part of the immunology toolkit and have been used in many thousands of published studies. Unfortunately, the TCR-affinity threshold required for staining with standard pMHC multimer protocols is higher than that required for efficient T cell activation. This discrepancy makes it possible for pMHC multimer staining to miss fully functional T cells, especially where low-affinity TCRs predominate, such as in MHC class II-restricted responses or those directed against self-antigens. Several recent, somewhat alarming, reports indicate that pMHC staining might fail to detect the majority of functional T cells and have prompted suggestions that T cell immunology has become biased toward the type of cells amenable to detection with multimeric pMHC. We use several viral- and tumor-specific pMHC reagents to compare populations of human T cells stained by standard pMHC protocols and optimized protocols that we have developed. Our results confirm that optimized protocols recover greater populations of T cells that include fully functional T cell clonotypes that cannot be stained by regular pMHC-staining protocols. These results highlight the importance of using optimized procedures that include the use of protein kinase inhibitor and Ab cross-linking during staining to maximize the recovery of Ag-specific T cells and serve to further highlight that many previous quantifications of T cell responses with pMHC reagents are likely to have considerably underestimated the size of the relevant populations.

Published

2018

12. Comparison of peptide–major histocompatibility complex tetramers and dextramers for the identification of antigen-specific T cells

Author

Dolton, Garry Michael, Lissina, A., Skowera, A., Ladell, Kristin Ingrid, Tungatt, Katie, Jones, Emma, Kronenberg-Versteeg, D., Akpovwa, Hephzibah, Pentier, Johanne, Holland, C. J., Godkin, Andrew James, Cole, David, Neller, M. A., Miles, John James, Price, David, Peakman, M., and Sewell, Andrew K.

Subjects

CD4-Positive T-Lymphocytes, Technology Advance, T cells, Biotin, Hemagglutinins, Viral, chemical and pharmacologic phenomena, T-Cell Antigen Receptor Specificity, Cell Separation, T cell receptors, CD8-Positive T-Lymphocytes, Cell Line, Major Histocompatibility Complex, HLA-A2 Antigen, Humans, Insulin, Protein Precursors, Telomerase, Fluorescent Dyes, diabetes, tumour immunology, autoimmunity, HLA-DR1 Antigen, Dextrans, Flow Cytometry, R1, Peptide Fragments, Clone Cells, Streptavidin, Protein Binding

Abstract

Fluorochrome-conjugated peptide–major histocompatibility complex (pMHC) multimers are widely used for flow cytometric visualization of antigen-specific T cells. The most common multimers, streptavidin–biotin-based ‘tetramers’, can be manufactured readily in the laboratory. Unfortunately, there are large differences between the threshold of T cell receptor (TCR) affinity required to capture pMHC tetramers from solution and that which is required for T cell activation. This disparity means that tetramers sometimes fail to stain antigen-specific T cells within a sample, an issue that is particularly problematic when staining tumour-specific, autoimmune or MHC class II-restricted T cells, which often display TCRs of low affinity for pMHC. Here, we compared optimized staining with tetramers and dextramers (dextran-based multimers), with the latter carrying greater numbers of both pMHC and fluorochrome per molecule. Most notably, we find that: (i) dextramers stain more brightly than tetramers; (ii) dextramers outperform tetramers when TCR–pMHC affinity is low; (iii) dextramers outperform tetramers with pMHC class II reagents where there is an absence of co-receptor stabilization; and (iv) dextramer sensitivity is enhanced further by specific protein kinase inhibition. Dextramers are compatible with current state-of-the-art flow cytometry platforms and will probably find particular utility in the fields of autoimmunity and cancer immunology.

Published

2014

13. Autoreactive T effector memory differentiation mirrors β cell function in type 1 diabetes

Author

Yeo, Lorraine, primary, Woodwyk, Alyssa, additional, Sood, Sanjana, additional, Lorenc, Anna, additional, Eichmann, Martin, additional, Pujol-Autonell, Irma, additional, Melchiotti, Rosella, additional, Skowera, Ania, additional, Fidanis, Efthymios, additional, Dolton, Garry M., additional, Tungatt, Katie, additional, Sewell, Andrew K., additional, Heck, Susanne, additional, Saxena, Alka, additional, Beam, Craig A., additional, and Peakman, Mark, additional

Published

2018

14. Induction of influenza-specific local CD8 T-cells in the respiratory tract after aerosol delivery of vaccine antigen or virus in the Babraham inbred pig

Author

Tungatt, Katie, primary, Dolton, Garry, additional, Morgan, Sophie B., additional, Attaf, Meriem, additional, Fuller, Anna, additional, Whalley, Thomas, additional, Hemmink, Johanneke D., additional, Porter, Emily, additional, Szomolay, Barbara, additional, Montoya, Maria, additional, Hammond, John A., additional, Miles, John J., additional, Cole, David K., additional, Townsend, Alain, additional, Bailey, Mick, additional, Rizkallah, Pierre J., additional, Charleston, Bryan, additional, Tchilian, Elma, additional, and Sewell, Andrew K., additional

Published

2018

15. Peptide–MHC Class I Tetramers Can Fail To Detect Relevant Functional T Cell Clonotypes and Underestimate Antigen-Reactive T Cell Populations

Author

Rius, Cristina, primary, Attaf, Meriem, additional, Tungatt, Katie, additional, Bianchi, Valentina, additional, Legut, Mateusz, additional, Bovay, Amandine, additional, Donia, Marco, additional, thor Straten, Per, additional, Peakman, Mark, additional, Svane, Inge Marie, additional, Ott, Sascha, additional, Connor, Tom, additional, Szomolay, Barbara, additional, Dolton, Garry, additional, and Sewell, Andrew K., additional

Published

2018

16. Antibody stabilization of peptide-MHC multimers reveals functional T cells bearing extremely low-affinity TCRs

Author

Tungatt, Katie, Bianchi, Valentina, Crowther, Michael D., Powell, Wendy, Schauenburg, Andrea J. A., Trimby, Andrew R., Donia, M., Miles, John James, Holland, Christopher J., Cole, David, Godkin, Andrew James, Peakman, M., Straten, P. T., Svane, I. M., Sewell, Andrew K., and Dolton, Garry Michael

Subjects

chemical and pharmacologic phenomena, R1

Abstract

Fluorochrome-conjugated peptide–MHC (pMHC) multimers are commonly used in combination with flow cytometry for direct ex vivo visualization and characterization of Ag-specific T cells, but these reagents can fail to stain cells when TCR affinity and/or TCR cell-surface density are low. pMHC multimer staining of tumor-specific, autoimmune, or MHC class II–restricted T cells can be particularly challenging, as these T cells tend to express relatively low-affinity TCRs. In this study, we attempted to improve staining using anti-fluorochrome unconjugated primary Abs followed by secondary staining with anti-Ab fluorochromeconjugated Abs to amplify fluorescence intensity. Unexpectedly, we found that the simple addition of an anti-fluorochrome unconjugated Ab during staining resulted in considerably improved fluorescence intensity with both pMHC tetramers and dextramers and with PE-, allophycocyanin-, or FITC-based reagents. Importantly, when combined with protein kinase inhibitor treatment, Ab stabilization allowed pMHC tetramer staining of T cells even when the cognate TCR–pMHC affinity was extremely low (KD >1 mM) and produced the best results that we have observed to date. We find that this inexpensive addition to pMHC multimer staining protocols also allows improved recovery of cells that have recently been exposed to Ag, improvements in the recovery of self-specific T cells from PBMCs or whole-blood samples, and the use of less reagent during staining. In summary, Ab stabilization of pMHC multimers during T cell staining extends the range of TCR affinities that can be detected, yields considerably enhanced staining intensities, and is compatible with using reduced amounts of these expensive reagents. The Journal of Immunology, 2015, 194: 000–000.

Published

2015

17. More tricks with tetramers:a practical guide to staining T cells with peptide-MHC multimers

Author

Dolton, Garry, Tungatt, Katie, Lloyd, Angharad, Bianchi, Valentina, Theaker, Sarah M, Trimby, Andrew, Holland, Christopher J, Donia, Marco, Godkin, Andrew J, Cole, David K, Straten, Per Thor, Peakman, Mark, Svane, Inge Marie, Sewell, Andrew K, Dolton, Garry, Tungatt, Katie, Lloyd, Angharad, Bianchi, Valentina, Theaker, Sarah M, Trimby, Andrew, Holland, Christopher J, Donia, Marco, Godkin, Andrew J, Cole, David K, Straten, Per Thor, Peakman, Mark, Svane, Inge Marie, and Sewell, Andrew K

Abstract

Analysis of antigen-specific T-cell populations by flow cytometry with peptide-MHC (pMHC) multimers is now commonplace. These reagents allow the tracking and phenotyping of T cells during infection, autoimmunity and cancer, and can be particularly revealing when used for monitoring therapeutic interventions. In 2009, we reviewed a number of 'tricks' that could be used to improve this powerful technology. More recent advances have demonstrated the potential benefits of using higher order multimers and of 'boosting' staining by inclusion of an antibody against the pMHC multimer. These developments now allow staining of T cells where the interaction between the pMHC and the T-cell receptor is over 20-fold weaker (K(D) > 1 mm) than could previously be achieved. Such improvements are particularly relevant when using pMHC multimers to stain anti-cancer or autoimmune T-cell populations, which tend to bear lower affinity T-cell receptors. Here, we update our previous work to include discussion of newer tricks that can produce substantially brighter staining even when using log-fold lower concentrations of pMHC multimer. We further provide a practical guide to using pMHC multimers that includes a description of several common pitfalls and how to circumvent them.

Published

2015

18. Reprogramming of Various Cell Types to a Beta-Like State by Pdx1, Ngn3 and MafA

Author

Akinci, Ersin, primary, Banga, Anannya, additional, Tungatt, Katie, additional, Segal, Joanna, additional, Eberhard, Daniel, additional, Dutton, James R., additional, and Slack, Jonathan M. W., additional

Published

2013

19. T-cell responses to influenza virus in pigs

Author

Tungatt, Katie

Abstract

The tools and techniques for the study of porcine T-cells lag behind what is currently attainable in human T-cells, so this thesis was initially focused on improvements in this field. This study established long-term culture of porcine T-cells, T-cell clone procurement and relevant T-cell assays. These techniques were then used to investigate cytotoxic T-cell responses to Influenza\ud A virus (IAV) in pigs. IAV is highly mutative and novel strains can be generated following reassortment between different viral strains. IAV is endemic in the global pig population and in some circumstances the virus can pass between humans and pigs and other animals. Pigs can therefore, potentially be a source for the generation of new and possibly pandemic influenza strains. The risk this poses to global human health, together with the negative effects of IAV infection within pig herds, highlights the need to improve our knowledge of IAV in pigs.\ud This study identified four new MHC class I restricted IAV epitopes, derived from the viral nucleoprotein. Cytotoxic T-cells recognising these IAV epitopes were detected at high numbers ex vivo in samples from vaccinated pigs. The structures of these IAV epitopes in complex with their respective MHC class I molecules were resolved and revealed the primary anchor positions within the peptides. This enabled peptide binding motifs to be defined for two porcine MHC-I alleles. These peptide binding motifs can be utilised for efficient epitope prediction. This study\ud also identified super-agonist ligands for two of the MHC-I restricted IAV epitopes.\ud Overall, this work has opened up the study of porcine T-cells to a level previously unattainable and has contributed to our knowledge of IAV in pigs. It has paved the way for further experiments investigating IAV in pigs, other porcine diseases and for using pigs as an animal\ud model for human disease.

20. T-cell responses to influenza virus in pigs

Author

Tungatt, Katie and Tungatt, Katie

Abstract

The tools and techniques for the study of porcine T-cells lag behind what is currently attainable in human T-cells, so this thesis was initially focused on improvements in this field. This study established long-term culture of porcine T-cells, T-cell clone procurement and relevant T-cell assays. These techniques were then used to investigate cytotoxic T-cell responses to Influenza A virus (IAV) in pigs. IAV is highly mutative and novel strains can be generated following reassortment between different viral strains. IAV is endemic in the global pig population and in some circumstances the virus can pass between humans and pigs and other animals. Pigs can therefore, potentially be a source for the generation of new and possibly pandemic influenza strains. The risk this poses to global human health, together with the negative effects of IAV infection within pig herds, highlights the need to improve our knowledge of IAV in pigs. This study identified four new MHC class I restricted IAV epitopes, derived from the viral nucleoprotein. Cytotoxic T-cells recognising these IAV epitopes were detected at high numbers ex vivo in samples from vaccinated pigs. The structures of these IAV epitopes in complex with their respective MHC class I molecules were resolved and revealed the primary anchor positions within the peptides. This enabled peptide binding motifs to be defined for two porcine MHC-I alleles. These peptide binding motifs can be utilised for efficient epitope prediction. This study also identified super-agonist ligands for two of the MHC-I restricted IAV epitopes. Overall, this work has opened up the study of porcine T-cells to a level previously unattainable and has contributed to our knowledge of IAV in pigs. It has paved the way for further experiments investigating IAV in pigs, other porcine diseases and for using pigs as an animal model for human disease.

21. T-cell responses to influenza virus in pigs

Author

Tungatt, Katie and Tungatt, Katie

Abstract

The tools and techniques for the study of porcine T-cells lag behind what is currently attainable in human T-cells, so this thesis was initially focused on improvements in this field. This study established long-term culture of porcine T-cells, T-cell clone procurement and relevant T-cell assays. These techniques were then used to investigate cytotoxic T-cell responses to Influenza A virus (IAV) in pigs. IAV is highly mutative and novel strains can be generated following reassortment between different viral strains. IAV is endemic in the global pig population and in some circumstances the virus can pass between humans and pigs and other animals. Pigs can therefore, potentially be a source for the generation of new and possibly pandemic influenza strains. The risk this poses to global human health, together with the negative effects of IAV infection within pig herds, highlights the need to improve our knowledge of IAV in pigs. This study identified four new MHC class I restricted IAV epitopes, derived from the viral nucleoprotein. Cytotoxic T-cells recognising these IAV epitopes were detected at high numbers ex vivo in samples from vaccinated pigs. The structures of these IAV epitopes in complex with their respective MHC class I molecules were resolved and revealed the primary anchor positions within the peptides. This enabled peptide binding motifs to be defined for two porcine MHC-I alleles. These peptide binding motifs can be utilised for efficient epitope prediction. This study also identified super-agonist ligands for two of the MHC-I restricted IAV epitopes. Overall, this work has opened up the study of porcine T-cells to a level previously unattainable and has contributed to our knowledge of IAV in pigs. It has paved the way for further experiments investigating IAV in pigs, other porcine diseases and for using pigs as an animal model for human disease.

22. Highly Networked SARS-CoV-2 Peptides Elicit T Cell Responses with Enhanced Specificity.

Author

Duette G, Lee E, Martins Costa Gomes G, Tungatt K, Doyle C, Stylianou VV, Lee A, Maddocks S, Taylor J, Khanna R, Bull RA, Martinello M, Sandgren KJ, Cunningham AL, and Palmer S

Subjects

Humans, Epitopes, T-Lymphocyte, Peptides, SARS-CoV-2, COVID-19

Abstract

Identifying SARS-CoV-2-specific T cell epitope-derived peptides is critical for the development of effective vaccines and measuring the duration of specific SARS-CoV-2 cellular immunity. In this regard, we previously identified T cell epitope-derived peptides within topologically and structurally essential regions of SARS-CoV-2 spike and nucleocapsid proteins by applying an immunoinformatics pipeline. In this study, we selected 30 spike- and nucleocapsid-derived peptides and assessed whether these peptides induce T cell responses and avoid major mutations found in SARS-CoV-2 variants of concern. Our peptide pool was highly specific, with only a single peptide driving cross-reactivity in people unexposed to SARS-COV-2, and immunogenic, inducing a polyfunctional response in CD4+ and CD8+ T cells from COVID-19 recovered individuals. All peptides were immunogenic and individuals recognized broad and diverse peptide repertoires. Moreover, our peptides avoided most mutations/deletions associated with all four SARS-CoV-2 variants of concern while retaining their physicochemical properties even when genetic changes are introduced. This study contributes to an evolving definition of individual CD4+ and CD8+ T cell epitopes that can be used for specific diagnostic tools for SARS-CoV-2 T cell responses and is relevant to the development of variant-resistant and durable T cell-stimulating vaccines., (Copyright © 2023 The Authors.)

Published

2023

23. Antibody stabilization of peptide-MHC multimers reveals functional T cells bearing extremely low-affinity TCRs.

Author

Tungatt K, Bianchi V, Crowther MD, Powell WE, Schauenburg AJ, Trimby A, Donia M, Miles JJ, Holland CJ, Cole DK, Godkin AJ, Peakman M, Straten PT, Svane IM, Sewell AK, and Dolton G

Subjects

Antibodies chemistry, Antibodies immunology, Cells, Cultured, Fluorescent Dyes chemistry, Humans, Phycocyanin chemistry, Protein Binding immunology, Protein Kinase Inhibitors pharmacology, T-Lymphocytes cytology, Flow Cytometry methods, Fluorescent Antibody Technique methods, Receptors, Antigen, T-Cell immunology, Staining and Labeling methods, T-Lymphocytes immunology

Abstract

Fluorochrome-conjugated peptide-MHC (pMHC) multimers are commonly used in combination with flow cytometry for direct ex vivo visualization and characterization of Ag-specific T cells, but these reagents can fail to stain cells when TCR affinity and/or TCR cell-surface density are low. pMHC multimer staining of tumor-specific, autoimmune, or MHC class II-restricted T cells can be particularly challenging, as these T cells tend to express relatively low-affinity TCRs. In this study, we attempted to improve staining using anti-fluorochrome unconjugated primary Abs followed by secondary staining with anti-Ab fluorochrome-conjugated Abs to amplify fluorescence intensity. Unexpectedly, we found that the simple addition of an anti-fluorochrome unconjugated Ab during staining resulted in considerably improved fluorescence intensity with both pMHC tetramers and dextramers and with PE-, allophycocyanin-, or FITC-based reagents. Importantly, when combined with protein kinase inhibitor treatment, Ab stabilization allowed pMHC tetramer staining of T cells even when the cognate TCR-pMHC affinity was extremely low (KD >1 mM) and produced the best results that we have observed to date. We find that this inexpensive addition to pMHC multimer staining protocols also allows improved recovery of cells that have recently been exposed to Ag, improvements in the recovery of self-specific T cells from PBMCs or whole-blood samples, and the use of less reagent during staining. In summary, Ab stabilization of pMHC multimers during T cell staining extends the range of TCR affinities that can be detected, yields considerably enhanced staining intensities, and is compatible with using reduced amounts of these expensive reagents., (Copyright © 2014 The Authors.)

Published

2015