Your search keyword '"Crowther, Michael D"' showing total 18 results

1. Targeting of multiple tumor-associated antigens by individual T cell receptors during successful cancer immunotherapy

Author

Dolton, Garry, Rius, Cristina, Wall, Aaron, Szomolay, Barbara, Bianchi, Valentina, Galloway, Sarah A.E., Hasan, Md Samiul, Morin, Théo, Caillaud, Marine E., Thomas, Hannah L., Theaker, Sarah, Tan, Li Rong, Fuller, Anna, Topley, Katie, Legut, Mateusz, Attaf, Meriem, Hopkins, Jade R., Behiry, Enas, Zabkiewicz, Joanna, Alvares, Caroline, Lloyd, Angharad, Rogers, Amber, Henley, Peter, Fegan, Christopher, Ottmann, Oliver, Man, Stephen, Crowther, Michael D., Donia, Marco, Svane, Inge Marie, Cole, David K., Brown, Paul E., Rizkallah, Pierre, and Sewell, Andrew K.

Published

2023

2. Genome-wide CRISPR–Cas9 screening reveals ubiquitous T cell cancer targeting via the monomorphic MHC class I-related protein MR1

Author

Crowther, Michael D., Dolton, Garry, Legut, Mateusz, Caillaud, Marine E., Lloyd, Angharad, Attaf, Meriem, Galloway, Sarah A. E., Rius, Cristina, Farrell, Colin P., Szomolay, Barbara, Ager, Ann, Parker, Alan L., Fuller, Anna, Donia, Marco, McCluskey, James, Rossjohn, Jamie, Svane, Inge Marie, Phillips, John D., and Sewell, Andrew K.

Published

2020

3. Neoantigen-reactive [CD8.sup.+] T cells affect clinical outcome of adoptive cell therapy with tumor-infiltrating lymphocytes in melanoma

Author

Kristensen, Nikolaj Pagh, Heeke, Christina, Tvingsholm, Siri A., Borch, Annie, Draghi, Arianna, Crowther, Michael D., Carri, Ibel, Munk, Kamilla K., Holm, Jeppe Sejero, Bjerregaard, Anne-Mette, Bentzen, Amalie Kai, Marquard, Andrea M., Szallasi, Zoltan, McGranahan, Nicholas, Andersen, Rikke, Nielsen, Morten, Jonsson, Goran B., Donia, Marco, Svane, Inge Marie, and Hadrup, Sine Reker

Subjects

CD8 lymphocytes -- Health aspects, Cellular therapy -- Patient outcomes, Tumor antigens -- Health aspects, Melanoma -- Care and treatment -- Patient outcomes, Health care industry

Abstract

BACKGROUND. Neoantigen-driven recognition and T cell-mediated killing contribute to tumor clearance following adoptive cell therapy (ACT) with tumor-infiltrating lymphocytes (TILs). Yet how diversity, frequency, and persistence of expanded neoepitope-specific [CD8.sup.+] T cells derived from TIL infusion products affect patient outcome is not fully determined. METHODS. Using barcoded pMHC multimers, we provide a comprehensive mapping of [CD8.sup.+] T cells recognizing neoepitopes in TIL infusion products and blood samples from 26 metastatic melanoma patients who received ACT. RESULTS. We identified 106 neoepitopes within TIL infusion products corresponding to 1.8% of all predicted neoepitopes. We observed neoepitope-specific recognition to be virtually devoid in TIL infusion products given to patients with progressive disease outcome. Moreover, we found that the frequency of neoepitope-specific [CD8.sup.+] T cells in TIL infusion products correlated with increased survival and that neoepitope-specific [CD8.sup.+] T cells shared with the infusion product in posttreatment blood samples were unique to responders of TIL-ACT. Finally, we found that a transcriptional signature for lymphocyte activity within the tumor microenvironment was associated with a higher frequency of neoepitope-specific [CD8.sup.+] T cells in the infusion product. CONCLUSIONS. These data support previous case studies of neoepitope-specific [CD8.sup.+] T cells in melanoma and indicate that successful TIL-ACT is associated with an expansion of neoepitope-specific [CD8.sup.+] T cells. FUNDING. NEYE Foundation; European Research Council; Lundbeck Foundation Fellowship; Carlsberg Foundation., Introduction Adoptive cell therapy with expanded tumor-infiltrating lymphocytes (TIL-ACT) can mediate durable tumor regression in patients with metastatic melanoma (1, 2). Furthermore, TIL-ACT has a high objective response rate even [...]

Published

2022

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. Author Correction: Genome-wide CRISPR–Cas9 screening reveals ubiquitous T cell cancer targeting via the monomorphic MHC class I-related protein MR1

Author

Crowther, Michael D., Dolton, Garry, Legut, Mateusz, Caillaud, Marine E., Lloyd, Angharad, Attaf, Meriem, Galloway, Sarah A. E., Rius, Cristina, Farrell, Colin P., Szomolay, Barbara, Ager, Ann, Parker, Alan L., Fuller, Anna, Donia, Marco, McCluskey, James, Rossjohn, Jamie, Svane, Inge Marie, Phillips, John D., and Sewell, Andrew K.

Published

2020

6. Engineering of Isogenic Cells Deficient for MR1 with a CRISPR/Cas9 Lentiviral System: Tools To Study Microbial Antigen Processing and Presentation to Human MR1-Restricted T Cells

Author

Laugel, Bruno, Lloyd, Angharad, Meermeier, Erin W., Crowther, Michael D., Connor, Thomas R., Dolton, Garry, Miles, John J., Burrows, Scott R., Gold, Marielle C., Lewinsohn, David M., and Sewell, Andrew K.

Subjects

Gene Editing, Antigen Presentation, T-Lymphocytes, Genetic Vectors, Histocompatibility Antigens Class I, Lentivirus, Flow Cytometry, Lymphocyte Activation, Polymerase Chain Reaction, Cell Line, Minor Histocompatibility Antigens, T-Lymphocyte Subsets, Novel Immunological Methods, QR180, Mutagenesis, Site-Directed, Humans, Clustered Regularly Interspaced Short Palindromic Repeats

Abstract

The nonclassical HLA molecule MHC-related protein 1 (MR1) presents metabolites of the vitamin B synthesis pathways to mucosal-associated invariant T (MAIT) cells and other MR1-restricted T cells. This new class of Ags represents a variation on the classical paradigm of self/non-self discrimination because these T cells are activated through their TCR by small organic compounds generated during microbial vitamin B2 synthesis. Beyond the fundamental significance, the invariant nature of MR1 across the human population is a tantalizing feature for the potential development of universal immune therapeutic and diagnostic tools. However, many aspects of MR1 Ag presentation and MR1-restricted T cell biology remain unknown, and the ubiquitous expression of MR1 across tissues and cell lines can be a confounding factor for experimental purposes. In this study, we report the development of a novel CRISPR/Cas9 genome editing lentiviral system and its use to efficiently disrupt MR1 expression in A459, THP-1, and K562 cell lines. We generated isogenic MR1(-/-) clonal derivatives of the A549 lung carcinoma and THP-1 monocytic cell lines and used these to study T cell responses to intracellular pathogens. We confirmed that MAIT cell clones were unable to respond to MR1(-/-) clones infected with bacteria whereas Ag presentation by classical and other nonclassical HLAs was unaffected. This system represents a robust and efficient method to disrupt the expression of MR1 and should facilitate investigations into the processing and presentation of MR1 Ags as well as into the biology of MAIT cells.

Published

2016

7. The burgeoning role of MR1-restricted T-cells in infection, cancer and autoimmune disease.

Author

Crowther, Michael D and Sewell, Andrew K

Subjects

*T cells, *MICROBIAL metabolites, *ANTIGEN presentation, *AUTOANTIGENS, *AUTOIMMUNE diseases, *VITAMIN B2

Abstract

MR1-restricted T-cells (MR1Ts) encompass an ever increasing range of T-cells. MR1T can represent ∼10% of total T-cells with the vast majority of these being mucosal-associated invariant T (MAIT) cells which recognise microbial metabolites, canonically intermediates in riboflavin biosynthesis via a TRAV1.2 semi-invariant T-cell receptor, although noncanonical MAITs have been described. Furthermore, MR1T cells have been identified that recognise self-antigens presented by monocyte-derived DCs, and MC-7.G5-like cells that recognise cancer. [Display omitted] • MR1 is an evolutionarily conserved antigen presentation platform. • MR1 presents endogenous and bacterial metabolite ligands to T-cells. • Recent data shows MR1-restricted T-cells may play important roles in cancer. • The conserved nature of MR1 may allow pan-population therapies for many diseases. MR1 is a ubiquitously expressed, monomorphic antigen presenting molecule that has been largely preserved throughout mammalian evolution. The primary role of MR1 is to present conserved microbial metabolites to highly abundant mucosal-associated invariant T (MAIT) cells. The role of MAIT cells and other MR1-restricted T cells (MR1T) has been recently extended to immunomodulation during cancer. MR1Ts have also been implicated in autoimmune disease. The highly conserved nature of MR1 across the human population is in stark contrast to the MHC molecules recognised by conventional αβ T-cells, therefore MR1Ts may form fertile ground for the development of pan-population T-cell immunotherapeutics for a wide range of important morbidities. [ABSTRACT FROM AUTHOR]

Published

2021

8. Structural mechanism underpinning cross-reactivity of a CD8+ T-cell clone that recognises a peptide derived from human telomerase reverse transcriptase

Author

Cole, David K., Berg, Hugo van den, Lloyd, Angharad, Crowther, Michael D., Beck, Konrad, Ekeruche-Makinde, Julia, Miles, John J., Bulek, Anna M., Dolton, Garry, Schauenburg, Andrea J., Wall, Aaron, Fuller, Anna, Clement, Mathew, Laugel, Bruno, Rizkallah, Pierre J., Wooldridge, Linda, and Sewell, Andrew K.

Subjects

Biochemistry & Molecular Biology, Immunology, T cells, Receptors, Antigen, T-Cell, chemical and pharmacologic phenomena, CD8-Positive T-Lymphocytes, Cross Reactions, telomerase, BETA-CELLS, CLASS-I, BINDING, Humans, QD, tumor immunology, ANTIGEN RECOGNITION, SPECIFICITY, Cells, Cultured, AFFINITY, X-ray crystallography, CARDIOVASCULAR TOXICITY, Science & Technology, RECEPTOR RECOGNITION, 11 Medical And Health Sciences, 06 Biological Sciences, T cell degeneracy, R1, MAJOR HISTOCOMPATIBILITY COMPLEX, peptides, T cell receptor, 03 Chemical Sciences, Life Sciences & Biomedicine, surface plasmon resonance (SPR), TCR

Abstract

T-cell cross-reactivity is essential for effective immune surveillance, but has also been implicated as a pathway to autoimmunity. Previous studies have demonstrated that T-cell receptors (TCRs) that focus on a minimal motif within the peptide are able to facilitate a high level of T-cell cross-reactivity. However, the structural database shows that most TCRs exhibit less focussed antigen binding involving contact with more peptide residues. To further explore the structural features that allow the clonally expressed TCR to functionally engage with multiple peptide-major histocompatibility complexes (pMHCs), we examined the ILA1 CD8+ T-cell clone that responds to a peptide sequence derived from human telomerase reverse transcriptase (hTERT). The ILA1 TCR contacted its pMHC with a broad peptide-binding footprint encompassing spatially distant peptide residues. Despite the lack of focused TCR-peptide binding , the ILA1 T-cell clone was still cross-reactive. Overall, the TCR-peptide contacts apparent in the structure correlated well with the level of degeneracy at different peptide positions. Thus, the ILA1 TCR was less tolerant of changes at peptide residues that were at, or adjacent to, key contact sites. This study provides new insights into the molecular mechanisms that control T-cell cross-reactivity, with important implications for pathogen surveillance, autoimmunity and transplant rejection.

Published

2017

9. GPU-Accelerated Discovery of Pathogen-Derived Molecular Mimics of a T-Cell Insulin Epitope.

Author

Whalley, Thomas, Dolton, Garry, Brown, Paul E., Wall, Aaron, Wooldridge, Linda, van den Berg, Hugo, Fuller, Anna, Hopkins, Jade R., Crowther, Michael D., Attaf, Meriem, Knight, Robin R., Cole, David K., Peakman, Mark, Sewell, Andrew K., and Szomolay, Barbara

Subjects

TYPE 1 diabetes, INSULIN, GRAPHICS processing units, HLA histocompatibility antigens, SURFACE plasmon resonance, PEPTIDE antibiotics, T cell receptors

Abstract

The strong links between (Human Leukocyte Antigen) HLA, infection and autoimmunity combine to implicate T-cells as primary triggers of autoimmune disease (AD). T-cell crossreactivity between microbially-derived peptides and self-peptides has been shown to break tolerance and trigger AD in experimental animal models. Detailed examination of the potential for T-cell crossreactivity to trigger human AD will require means of predicting which peptides might be recognised by autoimmune T-cell receptors (TCRs). Recent developments in high throughput sequencing and bioinformatics mean that it is now possible to link individual TCRs to specific pathologies for the first time. Deconvolution of TCR function requires knowledge of TCR specificity. Positional Scanning Combinatorial Peptide Libraries (PS-CPLs) can be used to predict HLA-restriction and define antigenic peptides derived from self and pathogen proteins. In silico search of the known terrestrial proteome with a prediction algorithm that ranks potential antigens in order of recognition likelihood requires complex, large-scale computations over several days that are infeasible on a personal computer. We decreased the time required for peptide searching to under 30 min using multiple blocks on graphics processing units (GPUs). This time-efficient, cost-effective hardware accelerator was used to screen bacterial and fungal human pathogens for peptide sequences predicted to activate a T-cell clone, InsB4, that was isolated from a patient with type 1 diabetes and recognised the insulin B-derived epitope HLVEALYLV in the context of disease-risk allele HLA A*0201. InsB4 was shown to kill HLA A*0201+ human insulin producing β-cells demonstrating that T-cells with this specificity might contribute to disease. The GPU-accelerated algorithm and multispecies pathogen proteomic databases were validated to discover pathogen-derived peptide sequences that acted as super-agonists for the InsB4 T-cell clone. Peptide-MHC tetramer binding and surface plasmon resonance were used to confirm that the InsB4 TCR bound to the highest-ranked peptide agonists derived from infectious bacteria and fungi. Adoption of GPU-accelerated prediction of T-cell agonists has the capacity to revolutionise our understanding of AD by identifying potential targets for autoimmune T-cells. This approach has further potential for dissecting T-cell responses to infectious disease and cancer. [ABSTRACT FROM AUTHOR]

Published

2020

10. 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

11. T-Cell Gene Therapy in Cancer Immunotherapy: Why It Is No Longer Just CARs on The Road.

Author

Crowther, Michael D., Svane, Inge Marie, and Met, Özcan

Subjects

*GENE therapy, *CANCER treatment, *CANCER genes, *MAJOR histocompatibility complex, *CANCER cells, *GENETIC engineering

Abstract

T-cells have a natural ability to fight cancer cells in the tumour microenvironment. Due to thymic selection and tissue-driven immunomodulation, these cancer-fighting T-cells are generally low in number and exhausted. One way to overcome these issues is to genetically alter T-cells to improve their effectiveness. This process can involve introducing a receptor that has high affinity for a tumour antigen, with two promising candidates known as chimeric-antigen receptors (CARs), or T-cell receptors (TCRs) with high tumour specificity. This review focuses on the editing of immune cells to introduce such novel receptors to improve immune responses to cancer. These new receptors redirect T-cells innate killing abilities to the appropriate target on cancer cells. CARs are modified receptors that recognise whole proteins on the surface of cancer cells. They have been shown to be very effective in haematological malignancies but have limited documented efficacy in solid cancers. TCRs recognise internal antigens and therefore enable targeting of a much wider range of antigens. TCRs require major histocompatibility complex (MHC) restriction but novel TCRs may have broader antigen recognition. Moreover, there are multiple cell types which can be used as targets to improve the "off-the-shelf" capabilities of these genetic engineering methods. [ABSTRACT FROM AUTHOR]

Published

2020

12. Structural Mechanism Underpinning Cross-reactivity of a CD8+ T-cell Clone That Recognizes a Peptide Derived from Human Telomerase Reverse Transcriptase.

Author

Cole, David K., van den Berg, Hugo A., Lloyd, Angharad, Crowther, Michael D., Beck, Konrad, Ekeruche-Makinde, Julia, Miles, John J., Bulek, Anna M., Dolton, Garry, Schauenburg, Andrea J., Wall, Aaron, Fuller, Anna, Clement, Mathew, Laugel, Bruno, Rizkallah, Pierre J., Wooldridge, Linda, and Sewell, Andrew K.

Subjects

*T cells, *TELOMERASE reverse transcriptase, *AUTOIMMUNITY, *PROTEIN expression, *MAJOR histocompatibility complex

Abstract

T-cell cross-reactivity is essential for effective immune surveillance but has also been implicated as a pathway to autoimmunity. Previous studies have demonstrated that T-cell receptors (TCRs) that focus on a minimal motif within the peptide are able to facilitate a high level of T-cell cross-reactivity. However, the structural database shows that most TCRs exhibit less focused antigen binding involving contact with more peptide residues. To further explore the structural features that allow the clonally expressed TCR to functionally engage with multiple peptide-major histocompatibility complexes (pMHCs), we examined the ILA1 CD8+ T-cell clone that responds to a peptide sequence derived from human telomerase reverse transcriptase. The ILA1 TCR contacted its pMHC with a broad peptide binding footprint encompassing spatially distant peptide residues. Despite the lack of focused TCR-peptide binding, the ILA1 T-cell clone was still cross-reactive. Overall, the TCR-peptide contacts apparent in the structure correlated well with the level of degeneracy at different peptide positions. Thus, the ILA1 TCR was less tolerant of changes at peptide residues that were at, or adjacent to, key contact sites. This study provides new insights into the molecular mechanisms that control T-cell cross-reactivity with important implications for pathogen surveillance, autoimmunity, and transplant rejection. [ABSTRACT FROM AUTHOR]

Published

2017

13. Uncoupling CD4+ TIL-Mediated Tumor Killing from JAK-Signaling in Melanoma.

Author

Draghi A, Presti M, Jensen AWP, Chamberlain CA, Albieri B, Rasmussen AK, Andersen MH, Crowther MD, Svane IM, and Donia M

Subjects

Humans, CD4-Positive T-Lymphocytes immunology, Lymphocyte Activation, Lymphocytes, Tumor-Infiltrating immunology, Melanoma genetics, Melanoma therapy, Melanoma immunology

Abstract

Purpose: Impaired MHCI-presentation and insensitivity to immune effector molecules are common features of immune checkpoint blockade (ICB)-resistant tumors and can be, respectively, associated with loss of β2 microglobulin (B2M) or impaired IFNγ signaling. Patients with ICB-resistant tumors can respond to alternative immunotherapies, such as infusion of autologous tumor-infiltrating lymphocytes (TIL). CD4+ T cells can exert cytotoxic functions against tumor cells; however, it is unclear whether CD4+ T-cell responses can be exploited to improve the clinical outcomes of patients affected by ICB-resistant tumors., Experimental Design: Here, we exploited CRISPR (clustered regularly interspaced short palindromic repeats)/Cas9 gene editing to reproduce immune-resistant tumor phenotypes via gene knockout (KO). To determine the role of cytotoxic CD4+ TILs in ICB-resistant tumors, we investigated CD4+ TIL-mediated cytotoxicity in matched pairs of TILs and autologous melanoma cell lines, used as a model of patient-specific immune-tumor interaction. Around 40% of melanomas constitutively express MHC Class II molecules; hence, melanomas with or without natural constitutive MHC Class II expression (MHCIIconst+ or MHCIIconst-) were used., Results: CD4+ TIL-mediated cytotoxicity was not affected by B2M loss but was dependent on the expression of CIITA. MHCIIconst+ melanomas were killed by tumor-specific CD4+ TILs even in the absence of IFNγ-mediated MHCII upregulation, whereas IFNγ was necessary for CD4+ TIL-mediated cytotoxicity against MHCIIconst- melanomas. Notably, although tumor-specific CD4+ TILs did not kill JAK1KO MHCIIconst- melanomas even after IFNγ stimulation, sensitivity to CD4+ TIL-mediated cytotoxicity was maintained by JAK1KO MHCIIconst+ melanomas., Conclusions: In conclusion, our data indicate that exploiting tumor-specific cytotoxic CD4+ TILs could help overcome resistance to ICB mediated by IFNγ-signaling loss in MHCIIconst+ melanomas. See related commentary by Betof Warner and Luke, p. 3829., (©2023 American Association for Cancer Research.)

Published

2023

14. Ligand Identification for Orphan MHC-Agnostic T-Cell Receptors by Whole Genome CRISPR-Cas9 Screening.

Author

Crowther MD, Legut M, and Sewell AK

Subjects

Histocompatibility Antigens, Ligands, Major Histocompatibility Complex, CRISPR-Cas Systems, Receptors, Antigen, T-Cell genetics

Abstract

Killer T-cells play important roles in immunity to infection and cancer by detecting intracellular anomalies at the cell surface and destroying the cells that bear them. Conventional killer T-cells scan the intracellular proteome by sampling peptides presented at the cell surface by major histocompatibility complex (MHC) molecules. It is becoming apparent that some T-cells can also respond to pathogens and neoplasms by sensing intracellular changes through molecules other than MHC. We describe an unbiased methodology for T-cell receptor ligand discovery that requires no a priori knowledge regarding the nature of the antigen., (© 2022. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2022

15. Thermal Stability of Heterotrimeric pMHC Proteins as Determined by Circular Dichroism Spectroscopy.

Author

Fuller A, Wall A, Crowther MD, Lloyd A, Zhurov A, Sewell AK, Cole DK, and Beck K

Abstract

T cell receptor (TCR) recognition of foreign peptide fragments, presented by peptide major histocompatibility complex (pMHC), governs T-cell mediated protection against pathogens and cancer. Many factors govern T-cell sensitivity, including the affinity of the TCR-pMHC interaction and the stability of pMHC on the surface of antigen presenting cells. These factors are particularly relevant for the peptide vaccination field, in which more stable pMHC interactions could enable more effective protection against disease. Here, we discuss a method for the determination of pMHC stability that we have used to investigate HIV immune escape, T-cell sensitivity to cancer antigens and mechanisms leading to autoimmunity.

Published

2017

16. Structural Mechanism Underpinning Cross-reactivity of a CD8+ T-cell Clone That Recognizes a Peptide Derived from Human Telomerase Reverse Transcriptase.

Author

Cole DK, van den Berg HA, Lloyd A, Crowther MD, Beck K, Ekeruche-Makinde J, Miles JJ, Bulek AM, Dolton G, Schauenburg AJ, Wall A, Fuller A, Clement M, Laugel B, Rizkallah PJ, Wooldridge L, and Sewell AK

Subjects

Cells, Cultured, Cross Reactions, Humans, CD8-Positive T-Lymphocytes chemistry, CD8-Positive T-Lymphocytes immunology, Peptides chemistry, Peptides immunology, Receptors, Antigen, T-Cell chemistry, Receptors, Antigen, T-Cell immunology, Telomerase chemistry, Telomerase immunology

Abstract

T-cell cross-reactivity is essential for effective immune surveillance but has also been implicated as a pathway to autoimmunity. Previous studies have demonstrated that T-cell receptors (TCRs) that focus on a minimal motif within the peptide are able to facilitate a high level of T-cell cross-reactivity. However, the structural database shows that most TCRs exhibit less focused antigen binding involving contact with more peptide residues. To further explore the structural features that allow the clonally expressed TCR to functionally engage with multiple peptide-major histocompatibility complexes (pMHCs), we examined the ILA1 CD8 + T-cell clone that responds to a peptide sequence derived from human telomerase reverse transcriptase. The ILA1 TCR contacted its pMHC with a broad peptide binding footprint encompassing spatially distant peptide residues. Despite the lack of focused TCR-peptide binding, the ILA1 T-cell clone was still cross-reactive. Overall, the TCR-peptide contacts apparent in the structure correlated well with the level of degeneracy at different peptide positions. Thus, the ILA1 TCR was less tolerant of changes at peptide residues that were at, or adjacent to, key contact sites. This study provides new insights into the molecular mechanisms that control T-cell cross-reactivity with important implications for pathogen surveillance, autoimmunity, and transplant rejection., (© 2017 by The American Society for Biochemistry and Molecular Biology, Inc.)

Published

2017

17. Engineering of Isogenic Cells Deficient for MR1 with a CRISPR/Cas9 Lentiviral System: Tools To Study Microbial Antigen Processing and Presentation to Human MR1-Restricted T Cells.

Author

Laugel B, Lloyd A, Meermeier EW, Crowther MD, Connor TR, Dolton G, Miles JJ, Burrows SR, Gold MC, Lewinsohn DM, and Sewell AK

Subjects

Cell Line, Clustered Regularly Interspaced Short Palindromic Repeats genetics, Flow Cytometry, Genetic Vectors, Humans, Lentivirus, Mutagenesis, Site-Directed, Polymerase Chain Reaction, T-Lymphocyte Subsets immunology, Antigen Presentation immunology, Gene Editing methods, Histocompatibility Antigens Class I immunology, Lymphocyte Activation immunology, Minor Histocompatibility Antigens immunology, T-Lymphocytes immunology

Abstract

The nonclassical HLA molecule MHC-related protein 1 (MR1) presents metabolites of the vitamin B synthesis pathways to mucosal-associated invariant T (MAIT) cells and other MR1-restricted T cells. This new class of Ags represents a variation on the classical paradigm of self/non-self discrimination because these T cells are activated through their TCR by small organic compounds generated during microbial vitamin B2 synthesis. Beyond the fundamental significance, the invariant nature of MR1 across the human population is a tantalizing feature for the potential development of universal immune therapeutic and diagnostic tools. However, many aspects of MR1 Ag presentation and MR1-restricted T cell biology remain unknown, and the ubiquitous expression of MR1 across tissues and cell lines can be a confounding factor for experimental purposes. In this study, we report the development of a novel CRISPR/Cas9 genome editing lentiviral system and its use to efficiently disrupt MR1 expression in A459, THP-1, and K562 cell lines. We generated isogenic MR1(-/-) clonal derivatives of the A549 lung carcinoma and THP-1 monocytic cell lines and used these to study T cell responses to intracellular pathogens. We confirmed that MAIT cell clones were unable to respond to MR1(-/-) clones infected with bacteria whereas Ag presentation by classical and other nonclassical HLAs was unaffected. This system represents a robust and efficient method to disrupt the expression of MR1 and should facilitate investigations into the processing and presentation of MR1 Ags as well as into the biology of MAIT cells., (Copyright © 2016 The Authors.)

Published

2016

18. 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