Your search keyword '"Illing, Patricia T."' showing total 6 results

1. Conserved allomorphs of MR1 drive the specificity of MR1-restricted TCRs.

Author

Cornforth, Terri V., Moyo, Nathifa, Cole, Suzanne, Lam, Emily P. S., Lobry, Tatiana, Wolchinsky, Ron, Lloyd, Angharad, Ward, Katarzyna, Denham, Eleanor M., Masi, Giulia, Tea Qing Yun, Phyllis, Moore, Colin, Dhaouadi, Selsabil, Besra, Gurdyal S., Veerapen, Natacha, Illing, Patricia T., Vivian, Julian P., Raynes, Jeremy M., Nours, Jérôme Le, and Purcell, Anthony W.

Subjects

SINGLE nucleotide polymorphisms, HLA histocompatibility antigens, MAJOR histocompatibility complex, LIGANDS (Biochemistry), BIODIVERSITY

Abstract

Background: Major histocompatibility complex class-1-related protein (MR1), unlike human leukocyte antigen (HLA) class-1, was until recently considered to be monomorphic. MR1 presents metabolites in the context of host responses to bacterial infection. MR1-restricted TCRs specific to tumor cells have been described, raising interest in their potential therapeutic application for cancer treatment. The diversity of MR1-ligand biology has broadened with the observation that single nucleotide variants (SNVs) exist within MR1 and that allelic variants can impact host immunity. Methods: The TCR from a MR1-restricted T-cell clone, MC.7.G5, with reported cancer specificity and pan-cancer activity, was cloned and expressed in Jurkat E6.1 TCRab-b2M-CD8+ NF-kB:CFP NFAT:eGFP AP-1:mCherry cells or in human donor T cells. Functional activity of 7G5. TCR-T was demonstrated using cytotoxicity assays and by measuring cytokine release after co-culture with cancer cell lines with or without loading of previously described MR1 ligands. MR1 allele sequencing was undertaken after the amplification of the MR1 gene region by PCR. In vivo studies were undertaken at Labcorp Drug Development (Ann Arbor, MI, USA) or Epistem Ltd (Manchester, UK). Results: The TCR cloned from MC.7.G5 retained MR1-restricted functional cytotoxicity as 7G5. TCR-T. However, activity was not pan-cancer, as initially reported with the clone MC.7.G5. Recognition was restricted to cells expressing a SNV of MR1 (MR1*04) and was not cancer-specific. 7G5. TCR-T and 7G5-like TCR-T cells reacted to both cancer and healthy cells endogenously expressing MR1*04 SNVs, which encode R9H and H17R substitutions. This allelic specificity could be overcome by expressing supraphysiological levels of the wild-type MR1 (MR1*01) in cell lines. Conclusions: Healthy individuals harbor T cells reactive to MR1 variants displaying self-ligands expressed in cancer and benign tissues. Described "cancer-specific" MR1-restricted TCRs need further validation, covering conserved allomorphs of MR1. Ligands require identification to ensure targeting MR1 is restricted to those specific to cancer and not normal tissues. For the wider field of immunology and transplant biology, the observation that MR1*04 may behave as an alloantigen warrants further study. [ABSTRACT FROM AUTHOR]

Published

2024

2. T Cell Epitope Discovery in the Context of Distinct and Unique Indigenous HLA Profiles.

Author

Hensen, Luca, Illing, Patricia T., Rowntree, Louise C., Davies, Jane, Miller, Adrian, Tong, Steven Y. C., Habel, Jennifer R., van de Sandt, Carolien E., Flanagan, Katie L., Purcell, Anthony W., Kedzierska, Katherine, and Clemens, E. Bridie

Subjects

T cells, LIQUID chromatography-mass spectrometry, HLA histocompatibility antigens, ANTIGEN presenting cells

Abstract

CD8+ T cells are a pivotal part of the immune response to viruses, playing a key role in disease outcome and providing long-lasting immunity to conserved pathogen epitopes. Understanding CD8+ T cell immunity in humans is complex due to CD8+ T cell restriction by highly polymorphic Human Leukocyte Antigen (HLA) proteins, requiring T cell epitopes to be defined for different HLA allotypes across different ethnicities. Here we evaluate strategies that have been developed to facilitate epitope identification and study immunogenic T cell responses. We describe an immunopeptidomics approach to sequence HLA-bound peptides presented on virus-infected cells by liquid chromatography with tandem mass spectrometry (LC-MS/MS). Using antigen presenting cell lines that stably express the HLA alleles characteristic of Indigenous Australians, this approach has been successfully used to comprehensively identify influenza-specific CD8+ T cell epitopes restricted by HLA allotypes predominant in Indigenous Australians, including HLA-A*24:02 and HLA-A*11:01. This is an essential step in ensuring high vaccine coverage and efficacy in Indigenous populations globally, known to be at high risk from influenza disease and other respiratory infections. [ABSTRACT FROM AUTHOR]

Published

2022

3. Kinetics of Abacavir-Induced Remodelling of the Major Histocompatibility Complex Class I Peptide Repertoire.

Author

Illing, Patricia T., van Hateren, Andy, Darley, Rachel, Croft, Nathan P., Mifsud, Nicole A., King, Samuel, Kostenko, Lyudmila, Bharadwaj, Mandvi, McCluskey, James, Elliott, Tim, and Purcell, Anthony W.

Subjects

MAJOR histocompatibility complex, T cell receptors, ANTIGENS, ABACAVIR, T cells, DRUG allergy

Abstract

Abacavir hypersensitivity syndrome can occur in individuals expressing the HLA-B*57:01 major histocompatibility complex class I allotype when utilising the drug abacavir as a part of their anti-retroviral regimen. The drug is known to bind within the HLA-B*57:01 antigen binding cleft, leading to the selection of novel self-peptide ligands, thus provoking life-threatening immune responses. However, the sub-cellular location of abacavir binding and the mechanics of altered peptide selection are not well understood. Here, we probed the impact of abacavir on the assembly of HLA-B*57:01 peptide complexes. We show that whilst abacavir had minimal impact on the maturation or average stability of HLA-B*57:01 molecules, abacavir was able to differentially enhance the formation, selectively decrease the dissociation, and alter tapasin loading dependency of certain HLA-B*57:01-peptide complexes. Our data reveals a spectrum of abacavir mediated effects on the immunopeptidome which reconciles the heterogeneous functional T cell data reported in the literature. [ABSTRACT FROM AUTHOR]

Published

2021

4. Carbamazepine Induces Focused T Cell Responses in Resolved Stevens-Johnson Syndrome and Toxic Epidermal Necrolysis Cases But Does Not Perturb the Immunopeptidome for T Cell Recognition.

Author

Mifsud, Nicole A., Illing, Patricia T., Lai, Jeffrey W., Fettke, Heidi, Hensen, Luca, Huang, Ziyi, Rossjohn, Jamie, Vivian, Julian P., Kwan, Patrick, and Purcell, Anthony W.

Subjects

STEVENS-Johnson Syndrome, CELLULAR recognition, TOXIC epidermal necrolysis, T cells, T cell receptors, DRUG allergy

Abstract

Antiseizure medications (ASMs) are frequently implicated in T cell-mediated drug hypersensitivity reactions and cause skin tropic pathologies that range in severity from mild rashes to life-threatening systemic syndromes. During the acute stages of the more severe manifestations of these reactions, drug responsive proinflammatory CD8+ T cells display classical features of Th1 cytokine production (e.g. IFNγ) and cytolysis (e.g. granzyme B, perforin). These T cells may be found locally at the site of pathology (e.g. blister cells/fluid), as well as systemically (e.g. blood, organs). What is less understood are the long-lived immunological effects of the memory T cell pool following T cell-mediated drug hypersensitivity reactions. In this study, we examine the ASM carbamazepine (CBZ) and the CBZ-reactive memory T cell pool in patients who have a history of either Stevens-Johnson syndrome (SJS) or toxic epidermal necrolysis (TEN) from 3-to-20 years following their initial adverse reaction. We show that in vitro drug restimulation of CBZ-reactive CD8+ T cells results in a proinflammatory profile and produces a mainly focused, yet private, T cell receptor (TCR) usage amongst human leukocyte antigen (HLA)-B*15:02-positive SJS or TEN patients. Additionally, we show that expression of these CBZ-reactive TCRs in a reporter cell line, lacking endogenous αβTCR, recapitulates the features of TCR activation reported for ASM-treated T cell lines/clones, providing a useful tool for further functional validations. Finally, we conduct a comprehensive evaluation of the HLA-B*15:02 immunopeptidome following ASM (or a metabolite) treatment of a HLA-B*15:02-positive B-lymphoblastoid cell line (C1R.B*15:02) and minor perturbation of the peptide repertoire. Collectively, this study shows that the CBZ-reactive T cells characterized require both the drug and HLA-B*15:02 for activation and that reactivation of memory T cells from blood results in a focused private TCR profile in patients with resolved disease. [ABSTRACT FROM AUTHOR]

Published

2021

5. Editorial: The Immunology of Adverse Drug Reactions.

Author

Illing, Patricia T., Mifsud, Nicole A., Ardern-Jones, Michael R., and Trubiano, Jason

Subjects

DRUG side effects, HLA histocompatibility antigens, IMMUNOLOGY, DRUG allergy

Published

2022

6. Downregulation of MHC Class I Expression by Influenza A and B Viruses.

Author

Koutsakos, Marios, McWilliam, Hamish E. G., Aktepe, Turgut E., Fritzlar, Svenja, Illing, Patricia T., Mifsud, Nicole A., Purcell, Anthony W., Rockman, Steve, Reading, Patrick C., Vivian, Julian P., Rossjohn, Jamie, Brooks, Andrew G., Mackenzie, Jason M., Mintern, Justine D., Villadangos, Jose A., Nguyen, Thi H. O., and Kedzierska, Katherine

Subjects

MAJOR histocompatibility complex, INFLUENZA A virus, INFLUENZA B virus, T cells, CELLULAR immunity

Abstract

Manipulation of the MHC-I presentation pathway, and thus limiting MHC-I cell surface expression, is used by many viruses to evade immune recognition. In particular, downregulation of MHC-I molecules at the cell surface can reduce the ability of CD8+ T cells to recognize viral peptides presented by MHC-I molecules and thereby delay viral clearance by CD8+ T cells. To date, MHC-I downregulation by influenza viruses has not been reported. Given that influenza virus infections are a global health concern and that CD8+ T cells play an important role in promoting influenza virus clearance and recovery from influenza disease, we investigated whether influenza A and B viruses (IAV, IBV) downregulated MHC-I as a novel mechanism to evade cellular immunity. Here, we showed that infection of several cell types, including epithelial A549 cells, with a panel of IAV and IBV viruses downregulated the surface MHC-I expression on IAV/IBV-infected cells during the late stages of influenza virus infection in vitro. This observation was consistent across a panel of class I-reduced (C1R) cell lines expressing 14 different HLA-A or -B alleles and a panel of 721.221 cell lines expressing 11 HLA-C alleles. Interestingly, IBV infection caused more pronounced reduction in surface MHC-I expression compared to IAV. Importantly, the two viruses utilized two distinct mechanisms for MHC-I downregulation. Our data demonstrated that while IAV caused a global loss of MHC-I within influenza-infected cells, IBV infection resulted in the preferential loss of MHC-I molecules from the cell surface, consequent of delayed MHC-I trafficking to the cell surface, resulting from retaining MHC-I intracellularly during IBV infection. Overall, our study suggests that influenza viruses across both IAV and IBV subtypes have the potential to downregulate MHC-I surface expression levels. Our findings provide new insights into the host-pathogen interaction of influenza A and B viruses and inform the design of novel vaccine strategies against influenza viruses. [ABSTRACT FROM AUTHOR]

Published

2019