Your search keyword '"Miles, John"' showing total 31 results

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

Author

Smallwood TB, Navarro S, Cristofori-Armstrong B, Watkins TS, Tungatt K, Ryan RYM, Haigh OL, Lutzky VP, Mulvenna JP, Rosengren KJ, Loukas A, Miles JJ, and Clark RJ

Subjects

Amino Acid Sequence, Ancylostoma, Animals, Cell Proliferation drug effects, Cytokines metabolism, Disease Models, Animal, Gene Expression Regulation drug effects, Humans, Inflammation Mediators metabolism, Intestines pathology, Kv1.3 Potassium Channel antagonists & inhibitors, Kv1.3 Potassium Channel metabolism, Leukocytes drug effects, Magnetic Resonance Spectroscopy, Male, Mice, Inbred C57BL, Necator americanus, Peptides chemistry, Peptides metabolism, Peptides pharmacology, Principal Component Analysis, Protein Domains, Protein Folding, T-Lymphocytes cytology, Trinitrobenzenesulfonic Acid, Xenopus laevis, Mice, Ancylostomatoidea chemistry, Colitis drug therapy, Colitis prevention & control, Leukocytes immunology, Peptides therapeutic use

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., Competing Interests: Conflict of interest The authors declare that they have no conflicts of interest with the contents of this article., (Copyright © 2021 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2021

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

Author

Schmidt CA, Wilson DT, Cooke I, Potriquet J, Tungatt K, Muruganandah V, Boote C, Kuek F, Miles JJ, Kupz A, Ryan S, Loukas A, Bansal PS, Takjoo R, Miller DJ, Peigneur S, Tytgat J, and Daly NL

Subjects

Amino Acid Sequence, Animals, Anti-Bacterial Agents pharmacology, Chromatography, High Pressure Liquid methods, Gram-Negative Bacteria drug effects, Gram-Positive Bacteria drug effects, Magnetic Resonance Spectroscopy methods, Mass Spectrometry methods, Peptides pharmacology, Anthozoa chemistry, Anti-Bacterial Agents chemistry, Peptides chemistry

Abstract

Marine organisms produce a diverse range of toxins and bioactive peptides to support predation, competition, and defense. The peptide repertoires of stony corals (order Scleractinia) remain relatively understudied despite the presence of tentacles used for predation and defense that are likely to contain a range of bioactive compounds. Here, we show that a tentacle extract from the mushroom coral, Heliofungia actiniformis , contains numerous peptides with a range of molecular weights analogous to venom profiles from species such as cone snails. Using NMR spectroscopy and mass spectrometry we characterized a 12-residue peptide (Hact-1) with a new sequence (GCHYTPFGLICF) and well-defined β-hairpin structure stabilized by a single disulfide bond. The sequence is encoded within the genome of the coral and expressed in the polyp body tissue. The structure present is common among toxins and venom peptides, but Hact-1 does not show activity against select examples of Gram-positive and Gram-negative bacteria or a range of ion channels, common properties of such peptides. Instead, it appears to have a limited effect on human peripheral blood mononuclear cells, but the ecological function of the peptide remains unknown. The discovery of this peptide from H. actiniformis is likely to be the first of many from this and related species.

Published

2020

3. TCR-induced alteration of primary MHC peptide anchor residue.

Author

Madura F, Rizkallah PJ, Legut M, Holland CJ, Fuller A, Bulek A, Schauenburg AJ, Trimby A, Hopkins JR, Wells SA, Godkin A, Miles JJ, Sami M, Li Y, Liddy N, Jakobsen BK, Loveridge EJ, Cole DK, and Sewell AK

Subjects

Amino Acids, Antigen Presentation, Binding Sites, Cells, Cultured, Clone Cells, HLA-A2 Antigen chemistry, HLA-A2 Antigen metabolism, Humans, Lymphocyte Activation, MART-1 Antigen chemistry, Melanoma therapy, Peptides chemistry, Protein Binding, Protein Conformation, Receptors, Antigen, T-Cell genetics, T-Lymphocytes transplantation, Immunodominant Epitopes metabolism, Immunotherapy, Adoptive methods, MART-1 Antigen metabolism, Melanoma immunology, Peptides metabolism, Receptors, Antigen, T-Cell metabolism, T-Lymphocytes immunology

Abstract

The HLA-A*02:01-restricted decapeptide EAAGIGILTV, derived from melanoma antigen recognized by T-cells-1 (MART-1) protein, represents one of the best-studied tumor associated T-cell epitopes, but clinical results targeting this peptide have been disappointing. This limitation may reflect the dominance of the nonapeptide, AAGIGILTV, at the melanoma cell surface. The decapeptide and nonapeptide are presented in distinct conformations by HLA-A*02:01 and TCRs from clinically relevant T-cell clones recognize the nonapeptide poorly. Here, we studied the MEL5 TCR that potently recognizes the nonapeptide. The structure of the MEL5-HLA-A*02:01-AAGIGILTV complex revealed an induced fit mechanism of antigen recognition involving altered peptide-MHC anchoring. This "flexing" at the TCR-peptide-MHC interface to accommodate the peptide antigen explains previously observed incongruences in this well-studied system and has important implications for future therapeutic approaches. Finally, this study expands upon the mechanisms by which molecular plasticity can influence antigen recognition by T cells., (© 2019 The Authors. European Journal of Immunology published by WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2019

4. 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

5. T-cell libraries allow simple parallel generation of multiple peptide-specific human T-cell clones.

Author

Theaker SM, Rius C, Greenshields-Watson A, Lloyd A, Trimby A, Fuller A, Miles JJ, Cole DK, Peakman M, Sewell AK, and Dolton G

Subjects

Antigens, Viral immunology, Clone Cells immunology, Cytotoxicity, Immunologic, Ebolavirus immunology, Enzyme-Linked Immunospot Assay methods, Herpesvirus 4, Human, Humans, Receptors, Antigen, T-Cell, alpha-beta immunology, CD4-Positive T-Lymphocytes immunology, CD8-Positive T-Lymphocytes immunology, Peptides genetics, Peptides immunology

Abstract

Isolation of peptide-specific T-cell clones is highly desirable for determining the role of T-cells in human disease, as well as for the development of therapies and diagnostics. However, generation of monoclonal T-cells with the required specificity is challenging and time-consuming. Here we describe a library-based strategy for the simple parallel detection and isolation of multiple peptide-specific human T-cell clones from CD8(+) or CD4(+) polyclonal T-cell populations. T-cells were first amplified by CD3/CD28 microbeads in a 96U-well library format, prior to screening for desired peptide recognition. T-cells from peptide-reactive wells were then subjected to cytokine-mediated enrichment followed by single-cell cloning, with the entire process from sample to validated clone taking as little as 6 weeks. Overall, T-cell libraries represent an efficient and relatively rapid tool for the generation of peptide-specific T-cell clones, with applications shown here in infectious disease (Epstein-Barr virus, influenza A, and Ebola virus), autoimmunity (type 1 diabetes) and cancer., (Copyright © 2016 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2016

6. Direct effects of exendin-(9,39) and GLP-1-(9,36)amide on insulin action, β-cell function, and glucose metabolism in nondiabetic subjects.

Author

Sathananthan M, Farrugia LP, Miles JM, Piccinini F, Dalla Man C, Zinsmeister AR, Cobelli C, Rizza RA, and Vella A

Subjects

Adult, Body Mass Index, Female, Glucagon metabolism, Glucagon-Like Peptide 1 pharmacology, Humans, Insulin-Secreting Cells metabolism, Male, Blood Glucose metabolism, Glucagon-Like Peptide 1 analogs & derivatives, Insulin metabolism, Insulin-Secreting Cells drug effects, Peptide Fragments pharmacology, Peptides pharmacology

Abstract

Exendin-(9,39) is a competitive antagonist of glucagon-like peptide-1 (GLP-1) at its receptor. However, it is unclear if it has direct and unique effects of its own. We tested the hypothesis that exendin-(9,39) and GLP-1-(9,36)amide have direct effects on hormone secretion and β-cell function as well as glucose metabolism in healthy subjects. Glucose containing [3-(3)H]glucose was infused to mimic the systemic appearance of glucose after a meal. Saline, GLP-1-(9,36)amide, or exendin-(9,39) at 30 pmol/kg/min (Ex 30) or 300 pmol/kg/min (Ex 300) were infused in random order on separate days. Integrated glucose concentrations were slightly but significantly increased by exendin-(9,39) (365 ± 43 vs. 383 ± 35 vs. 492 ± 49 vs. 337 ± 50 mmol per 6 h, saline, Ex 30, Ex 300, and GLP-1-[9,36]amide, respectively; P = 0.05). Insulin secretion did not differ among groups. However, insulin action was lowered by exendin-(9,39) (25 ± 4 vs. 20 ± 4 vs. 18 ± 3 vs. 21 ± 4 10(-4) dL/kg[min per μU/mL]; P = 0.02), resulting in a lower disposition index (DI) during exendin-(9,39) infusion (1,118 ± 118 vs. 816 ± 83 vs. 725 ± 127 vs. 955 ± 166 10(-14) dL/kg/min(2) per pmol/L; P = 0.003). Endogenous glucose production and glucose disappearance did not differ significantly among groups. We conclude that exendin-(9,39), but not GLP-1-(9,36)amide, decreases insulin action and DI in healthy humans.

Published

2013

7. Highly divergent T-cell receptor binding modes underlie specific recognition of a bulged viral peptide bound to a human leukocyte antigen class I molecule.

Author

Liu YC, Miles JJ, Neller MA, Gostick E, Price DA, Purcell AW, McCluskey J, Burrows SR, Rossjohn J, and Gras S

Subjects

CD8-Positive T-Lymphocytes cytology, Complementarity Determining Regions genetics, Complementarity Determining Regions immunology, HLA-B35 Antigen genetics, Herpesvirus 4, Human genetics, Peptides genetics, Protein Structure, Secondary, Protein Structure, Tertiary, Receptors, Antigen, T-Cell genetics, Viral Proteins genetics, CD8-Positive T-Lymphocytes immunology, HLA-B35 Antigen immunology, Herpesvirus 4, Human immunology, Peptides immunology, Receptors, Antigen, T-Cell immunology, Viral Proteins immunology

Abstract

Human leukocyte antigen (HLA)-I molecules can present long peptides, yet the mechanisms by which T-cell receptors (TCRs) recognize featured pHLA-I landscapes are unclear. We compared the binding modes of three distinct human TCRs, CA5, SB27, and SB47, complexed with a "super-bulged" viral peptide (LPEPLPQGQLTAY) restricted by HLA-B*35:08. The CA5 and SB27 TCRs engaged HLA-B*35:08(LPEP) similarly, straddling the central region of the peptide but making limited contacts with HLA-B*35:08. Remarkably, the CA5 TCR did not contact the α1-helix of HLA-B*35:08. Differences in the CDR3β loop between the CA5 and SB27 TCRs caused altered fine specificities. Surprisingly, the SB47 TCR engaged HLA-B*35:08(LPEP) using a completely distinct binding mechanism, namely "bypassing" the bulged peptide and making extensive contacts with the extreme N-terminal end of HLA-B*35:08. This docking footprint included HLA-I residues not observed previously as TCR contact sites. The three TCRs exhibited differing patterns of alloreactivity toward closely related or distinct HLA-I allotypes. Thus, the human T-cell repertoire comprises a range of TCRs that can interact with "bulged" pHLA-I epitopes using unpredictable strategies, including the adoption of atypical footprints on the MHC-I.

Published

2013

8. A single autoimmune T cell receptor recognizes more than a million different peptides.

Author

Wooldridge L, Ekeruche-Makinde J, van den Berg HA, Skowera A, Miles JJ, Tan MP, Dolton G, Clement M, Llewellyn-Lacey S, Price DA, Peakman M, and Sewell AK

Subjects

Diabetes Mellitus, Type 1 immunology, Humans, Autoimmunity, CD8-Positive T-Lymphocytes immunology, HLA-A2 Antigen immunology, Insulin immunology, Models, Immunological, Peptides immunology, Protein Precursors immunology, Receptors, Antigen, T-Cell immunology

Abstract

The T cell receptor (TCR) orchestrates immune responses by binding to foreign peptides presented at the cell surface in the context of major histocompatibility complex (MHC) molecules. Effective immunity requires that all possible foreign peptide-MHC molecules are recognized or risks leaving holes in immune coverage that pathogens could quickly evolve to exploit. It is unclear how a limited pool of <10(8) human TCRs can successfully provide immunity to the vast array of possible different peptides that could be produced from 20 proteogenic amino acids and presented by self-MHC molecules (>10(15) distinct peptide-MHCs). One possibility is that T cell immunity incorporates an extremely high level of receptor degeneracy, enabling each TCR to recognize multiple peptides. However, the extent of such TCR degeneracy has never been fully quantified. Here, we perform a comprehensive experimental and mathematical analysis to reveal that a single patient-derived autoimmune CD8(+) T cell clone of pathogenic relevance in human type I diabetes recognizes >one million distinct decamer peptides in the context of a single MHC class I molecule. A large number of peptides that acted as substantially better agonists than the wild-type "index" preproinsulin-derived peptide (ALWGPDPAAA) were identified. The RQFGPDFPTI peptide (sampled from >10(8) peptides) was >100-fold more potent than the index peptide despite differing from this sequence at 7 of 10 positions. Quantification of this previously unappreciated high level of CD8(+) T cell cross-reactivity represents an important step toward understanding the system requirements for adaptive immunity and highlights the enormous potential of TCR degeneracy to be the causative factor in autoimmune disease.

Published

2012

9. Anti-CD8 antibodies can trigger CD8+ T cell effector function in the absence of TCR engagement and improve peptide-MHCI tetramer staining.

Author

Clement M, Ladell K, Ekeruche-Makinde J, Miles JJ, Edwards ES, Dolton G, Williams T, Schauenburg AJ, Cole DK, Lauder SN, Gallimore AM, Godkin AJ, Burrows SR, Price DA, Sewell AK, and Wooldridge L

Subjects

Antibodies metabolism, CD8-Positive T-Lymphocytes cytology, Clone Cells, HLA-A Antigens immunology, HLA-A2 Antigen, Humans, Immunophenotyping, Ligands, Peptides analysis, Peptides immunology, Receptors, Antigen, T-Cell immunology, Receptors, Antigen, T-Cell metabolism, Signal Transduction immunology, Staining and Labeling, Surface Plasmon Resonance, Antibodies physiology, CD8 Antigens immunology, CD8-Positive T-Lymphocytes immunology, CD8-Positive T-Lymphocytes metabolism, Cytotoxicity, Immunologic, HLA-A Antigens chemistry, Peptides chemistry, Receptors, Antigen, T-Cell deficiency

Abstract

CD8(+) T cells recognize immunogenic peptides presented at the cell surface bound to MHCI molecules. Ag recognition involves the binding of both TCR and CD8 coreceptor to the same peptide-MHCI (pMHCI) ligand. Specificity is determined by the TCR, whereas CD8 mediates effects on Ag sensitivity. Anti-CD8 Abs have been used extensively to examine the role of CD8 in CD8(+) T cell activation. However, as previous studies have yielded conflicting results, it is unclear from the literature whether anti-CD8 Abs per se are capable of inducing effector function. In this article, we report on the ability of seven monoclonal anti-human CD8 Abs to activate six human CD8(+) T cell clones with a total of five different specificities. Six of seven anti-human CD8 Abs tested did not activate CD8(+) T cells. In contrast, one anti-human CD8 Ab, OKT8, induced effector function in all CD8(+) T cells examined. Moreover, OKT8 was found to enhance TCR/pMHCI on-rates and, as a consequence, could be used to improve pMHCI tetramer staining and the visualization of Ag-specific CD8(+) T cells. The anti-mouse CD8 Abs, CT-CD8a and CT-CD8b, also activated CD8(+) T cells despite opposing effects on pMHCI tetramer staining. The observed heterogeneity in the ability of anti-CD8 Abs to trigger T cell effector function provides an explanation for the apparent incongruity observed in previous studies and should be taken into consideration when interpreting results generated with these reagents. Furthermore, the ability of Ab-mediated CD8 engagement to deliver an activation signal underscores the importance of CD8 in CD8(+) T cell signaling.

Published

2011

10. Real time detection of peptide-MHC dissociation reveals that improvement of primary MHC-binding residues can have a minimal, or no, effect on stability.

Author

Miles KM, Miles JJ, Madura F, Sewell AK, and Cole DK

Subjects

ATP-Binding Cassette Transporters, Algorithms, Amino Acid Sequence, Binding Sites, Biological Assay, Cell Line, Flow Cytometry, Humans, Molecular Sequence Data, Peptides chemistry, Protein Binding, Surface Plasmon Resonance, Time Factors, Amino Acids metabolism, Histocompatibility Antigens Class I immunology, Peptides immunology, Protein Stability

Abstract

The majority of known major histocompatibility complex class I (MHCI)-associated tumor-derived peptide antigens do not contain an optimal motif for MHCI binding. As a result, anchor residue-modified 'heteroclitic' peptides have been widely used in therapeutic cancer vaccination trials in order to enhance immune responsiveness. In general, the improved stability of these heteroclitic complexes has been inferred from their improved immunogenicity but has not been formally assessed. Here, we investigated the binding of 4 HLA A*0201-restricted tumor-derived peptides and their commonly used heteroclitic variants. We utilized a cell surface binding assay and a novel robust method for testing the durability of soluble recombinant pMHCI in real time by surface plasmon resonance. Surprisingly, we show that heteroclitic peptides designed with optimal MHC binding motifs do not always form pMHCs that are substantially more stable than their wildtype progenitors. These findings, combined with our recent discovery that TCRs can distinguish between wildtype peptides and those altered at a primary buried MHC anchor residue, suggest that altered TCR binding may account for a large part of the increased immune response that can be generated by anchor residue-modified ligands. Our results further highlight the fact that heteroclitic peptide-based immune interventions require careful evaluation to ensure that wildtype antigen specificity is maintained in vivo., (Copyright © 2010 Elsevier Ltd. All rights reserved.)

Published

2011

11. Design, synthesis and evaluation of β-lactam antigenic peptide hybrids; unusual opening of the β-lactam ring in acidic media.

Author

Tarbe M, Azcune I, Balentová E, Miles JJ, Edwards EE, Miles KM, Do P, Baker BM, Sewell AK, Aizpurua JM, Douat-Casassus C, and Quideau S

Subjects

Animals, Cells, Cultured, Crystallography, X-Ray, HLA-A2 Antigen immunology, Mice, Models, Molecular, Molecular Structure, Peptides immunology, T-Lymphocytes immunology, Acids chemistry, HLA-A2 Antigen chemistry, Peptides chemical synthesis, beta-Lactams chemistry

Abstract

β-Lactam peptides were envisioned as conformational constraints in antigenic peptides (APs). Three different β-lactam tripeptides of varying flexibility were prepared in solution and incorporated in place of the central part of the altered melanoma associated antigenic peptide Leu(27)-Melan-A(26-35) using solid phase synthesis techniques. Upon TFA cleavage from the solid support, an unexpected opening of the β-lactam ring occurred with conservation of the amide bond. After adaptation of the solid phase synthesis strategy, β-lactam peptides were successfully obtained and both opened and closed forms were evaluated for their capacity to bind to the antigen-presenting class-I MHC HLA-A2 protein system. None of the closed β-lactam peptides bound to HLA-A2, but their opened variants were shown to be moderate to good HLA-A2 ligands, one of them being even capable of stimulating a Melan-A-specific T cell line.

Published

2010

12. Impact of clonal competition for peptide-MHC complexes on the CD8+ T-cell repertoire selection in a persistent viral infection.

Author

Wynn KK, Fulton Z, Cooper L, Silins SL, Gras S, Archbold JK, Tynan FE, Miles JJ, McCluskey J, Burrows SR, Rossjohn J, and Khanna R

Subjects

Alleles, Amino Acid Sequence, Antibodies, Monoclonal immunology, Antigens, Viral immunology, Base Sequence, Cell Line, Clone Cells, Complementarity Determining Regions chemistry, Complementarity Determining Regions genetics, Crystallography, X-Ray, Epitopes immunology, HLA-B Antigens immunology, Humans, Molecular Sequence Data, Peptides chemistry, Phenotype, Receptors, Antigen, T-Cell immunology, CD8-Positive T-Lymphocytes immunology, CD8-Positive T-Lymphocytes virology, Cytomegalovirus immunology, Cytomegalovirus Infections immunology, Major Histocompatibility Complex immunology, Peptides immunology

Abstract

CD8(+) T-cell responses to persistent viral infections are characterized by the accumulation of an oligoclonal T-cell repertoire and a reduction in the naive T-cell pool. However, the precise mechanism for this phenomenon remains elusive. Here we show that human cytomegalovirus (HCMV)-specific CD8(+) T cells recognizing distinct epitopes from the pp65 protein and restricted through an identical HLA class I allele (HLA B*3508) exhibited either a highly conserved public T-cell repertoire or a private, diverse T-cell response, which was uniquely altered in each donor following in vitro antigen exposure. Selection of a public T-cell receptor (TCR) was coincident with an atypical major histocompatibility complex (MHC)-peptide structure, in that the epitope adopted a helical conformation that bulged from the peptide-binding groove, while a diverse TCR profile was observed in response to the epitope that formed a flatter, more "featureless" landscape. Clonotypes with biased TCR usage demonstrated more efficient recognition of virus-infected cells, a greater CD8 dependency, and were more terminally differentiated in their phenotype when compared with the T cells expressing diverse TCR. These findings provide new insights into our understanding on how the biology of antigen presentation in addition to the structural features of the pMHC-I might shape the T-cell repertoire and its phenotype.

Published

2008

13. Preferential binding of unusually long peptides to MHC class I and its influence on the selection of target peptides for T cell recognition.

Author

Burrows JM, Bell MJ, Brennan R, Miles JJ, Khanna R, and Burrows SR

Subjects

Antigen Presentation, Cell Line, HLA-B35 Antigen immunology, Histocompatibility Antigens Class I immunology, Humans, Protein Binding, T-Lymphocytes, Cytotoxic immunology, Histocompatibility Antigens Class I metabolism, Peptides immunology, T-Lymphocytes, Cytotoxic metabolism

Abstract

A classic feature of antigen presentation for CD8+ T cell recognition is that MHC class I molecules generally present peptides of 8-10 amino acids in length. However, recent studies have demonstrated that peptides of >10 residues play a significant role in immune surveillance by T cells restricted by some HLA class I alleles. In the present study, we describe several examples of unusually long viral peptides of 11 or 12 residues, recognized by CTLs in the context of HLA-B35. Interestingly, all these immunogenic peptides completely encompass shorter canonical length sequences that conform to the HLA-B35 binding motif, but which fail to stimulate detectable T cell responses. The mechanism for this phenomenon appears to involve the preferential binding to HLA-B35 of the atypically long CD8+ T cell target peptides over the overlapping canonical length sequences. These data suggest that the peptide length specificity of some HLA class I alleles is broad, allowing peptides of >10 residues to sometimes dominate over canonical length class I ligands as targets for T cell recognition.

Published

2008

14. The impact of HLA-B micropolymorphism outside primary peptide anchor pockets on the CTL response to CMV.

Author

Burrows JM, Wynn KK, Tynan FE, Archbold J, Miles JJ, Bell MJ, Brennan RM, Walker S, McCluskey J, Rossjohn J, Khanna R, and Burrows SR

Subjects

Amino Acid Sequence, Amino Acid Substitution genetics, Binding Sites, Epitopes, T-Lymphocyte genetics, Epitopes, T-Lymphocyte immunology, Humans, Molecular Sequence Data, Peptides chemistry, Peptides physiology, Cytomegalovirus immunology, Cytotoxicity, Immunologic genetics, HLA-B Antigens chemistry, HLA-B Antigens genetics, Peptides genetics, Polymorphism, Genetic, T-Lymphocytes, Cytotoxic immunology, T-Lymphocytes, Cytotoxic virology

Abstract

The factors controlling epitope selection in the T cell response to persistent viruses are not fully understood, and we have examined this issue in the context of four HLA-B*35-binding peptides from the pp65 antigen of human cytomegalovirus, two of which are previously undescribed. Striking differences in the hierarchy of immunodominance between these four epitopes were observed in healthy virus carriers expressing HLA-B*3501 versus B*3508, two HLA-B allotypes that differ by a single amino acid at position 156 (HLA-B*3501, (156)Leucine; HLA-B*3508, (156)Arginine) that projects from the alpha2 helix into the centre of the peptide-binding groove. While HLA-B*3501(+) individuals responded most strongly to the (123)IPSINVHHY(131) and (366)HPTFTSQY(373) epitopes, HLA-B*3508(+) individuals responded preferentially to (103)CPSQEPMSIYVY(114) and (188)FPTKDVAL(195). By comparing peptide-MHC association and disassociation rates with peptide immunogenicity, it was clear that dissociation rates correlate more closely with the hierarchy of immunodominance among the four pp65 peptides. These findings demonstrate that MHC micropolymorphism at positions outside the primary anchor residue binding pockets can have a major impact on determinant selection in antiviral T cell responses. Such influences may provide the evolutionary pressure that maintains closely related MHC molecules in diverse human populations.

Published

2007

15. T cell receptor recognition of a 'super-bulged' major histocompatibility complex class I-bound peptide.

Author

Tynan FE, Burrows SR, Buckle AM, Clements CS, Borg NA, Miles JJ, Beddoe T, Whisstock JC, Wilce MC, Silins SL, Burrows JM, Kjer-Nielsen L, Kostenko L, Purcell AW, McCluskey J, and Rossjohn J

Subjects

Amino Acid Sequence, Antigen Presentation, Cell Line, Crystallography, X-Ray, Epitopes, T-Lymphocyte immunology, HLA-B Antigens immunology, Humans, Molecular Sequence Data, Peptides immunology, Protein Conformation, Receptors, Antigen, T-Cell, alpha-beta genetics, Receptors, Antigen, T-Cell, alpha-beta immunology, T-Lymphocytes, Cytotoxic immunology, Epitopes, T-Lymphocyte chemistry, HLA-B Antigens chemistry, Peptides chemistry, Receptors, Antigen, T-Cell, alpha-beta chemistry

Abstract

Unusually long major histocompatibility complex (MHC) class I-restricted epitopes are important in immunity, but their 'bulged' conformation represents a potential obstacle to alphabeta T cell receptor (TCR)-MHC class I docking. To elucidate how such recognition is achieved while still preserving MHC restriction, we have determined here the structure of a TCR in complex with HLA-B(*)3508 presenting a peptide 13 amino acids in length. This complex was atypical of TCR-peptide-MHC class I interactions, being dominated at the interface by peptide-mediated interactions. The TCR assumed two distinct orientations, swiveling on top of the centrally bulged, rigid peptide such that only limited contacts were made with MHC class I. Although the TCR-peptide recognition resembled an antibody-antigen interaction, the TCR-MHC class I contacts defined a minimal 'generic footprint' of MHC-restriction. Thus our findings simultaneously demonstrate the considerable adaptability of the TCR and the 'shape' of MHC restriction.

Published

2005

16. The CDR3 regions of an immunodominant T cell receptor dictate the 'energetic landscape' of peptide-MHC recognition.

Author

Borg NA, Ely LK, Beddoe T, Macdonald WA, Reid HH, Clements CS, Purcell AW, Kjer-Nielsen L, Miles JJ, Burrows SR, McCluskey J, and Rossjohn J

Subjects

Base Sequence, Cells, Cultured, Complementarity Determining Regions chemistry, Complementarity Determining Regions genetics, Histocompatibility Antigens chemistry, Humans, Kinetics, Ligands, Models, Molecular, Molecular Sequence Data, Mutation genetics, Peptides chemistry, Protein Structure, Tertiary, Receptors, Antigen, T-Cell genetics, Receptors, Antigen, T-Cell metabolism, Surface Plasmon Resonance, Thermodynamics, Complementarity Determining Regions immunology, Complementarity Determining Regions metabolism, Histocompatibility Antigens immunology, Peptides immunology, Receptors, Antigen, T-Cell chemistry, Receptors, Antigen, T-Cell immunology

Abstract

The energetic bases of T cell recognition are unclear. Here, we studied the 'energetic landscape' of peptide-major histocompatibility complex (pMHC) recognition by an immunodominant alphabeta T cell receptor (TCR). We quantified and evaluated the effect of natural and systematic substitutions in the complementarity-determining region (CDR) loops on ligand binding in the context of the structural detail of each component of the immunodominant TCR-pMHC complex. The CDR1 and CDR2 loops contributed minimal energy through direct recognition of the antigen and instead had a chief function in stabilizing the ligated CDR3 loops. The underlying energetic basis for recognition lay in the CDR3 loops. Therefore the energetic burden of the CDR loops in the TCR-pMHC interaction is variable among TCRs, reflecting the inherent adaptability of the TCR in ligating different ligands.

Published

2005

17. 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

18. Peptide mimic for influenza vaccination using nonnatural combinatorial chemistry.

Author

Miles, John J., Mai Ping Tan, 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, Yide Wong, Han Siean Lee, Clark, Richard J., Pentier, Johanne M., Attaf, Meriem, Lissina, Anya, Ager, Ann, and Gallimore, Awen

Subjects

*INFLUENZA vaccines, *POLYPEPTIDES, *T cells, *INFLUENZA viruses, *GASTRIC acid

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+ 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+ 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. [ABSTRACT FROM AUTHOR]

Published

2018

19. Advances in T-cell epitope engineering.

Author

Pentier, Johanne M., Sewell, Andrew K., and Miles, John J.

Subjects

T cells, EPITOPES, ANTIGENS, T cell receptors, MAJOR histocompatibility complex, PEPTIDES

Abstract

In this article the authors discuss various developments in T-cell epitope engineering. According to the authors, T-cell epitopes can be optimized by improving antigen affinity for major histocompatibility complex (MHC); improving antigen affinity for T-cell receptor (TCR); and improving antigen pharmacology. The authors say that optimizing contact interface between the peptide and TCR can also improve T-cell epitopes.

Published

2013

20. Peptide length determines the outcome of TCR/peptide-MHCI engagement.

Author

Ekeruche-Makinde, Julia, Miles, John J., Miles, Kim M., Bulek, Anna M., Clement, Mathew, Williams, Tamsin, Trimby, Andrew, Bailey, Mick, Rizkallah, Pierre, Rossjohn, Jammie, Peakman, Mark, Price, David A., van den Berg, Hugo A., Burrows, Scott R., Sewell, Andrew K., Wooldridge, Linda, Skowera, Ania, Cole, David K., Dolton, Garry, and Schauenburg, Andrea J. A.

Subjects

*MHC antibodies, *PEPTIDES, *T cell receptors, *MOLECULAR immunology, *STRUCTURAL analysis (Science)

Abstract

αβ-TCRs expressed at the CD8+ T-cell surface interact with short peptide fragments (p) bound to MHC class I molecules (pMHCI). The TCR/pMHCI interaction is pivotal in all aspects of CD8+ T-cell immunity. However, the rules that govern the outcome of TCR/pMHCI engagement are not entirely understood, and this is a major barrier to understanding the requirements for both effective immunity and vaccination. In the present study, we discovered an unexpected feature of the TCR/pMHCI interaction by showing that any given TCR exhibits an explicit preference for a single MHCI-peptide length. Agonists of non preferred length were extremely rare, suboptimal, and often entirely distinct in sequence. Structural analysis indicated that alterations in peptide length have a major impact on antigenic complexity, to which individual TCRs are unable to adapt. This novel finding demonstrates that the outcome of TCR/pMHCI engagement is determined by peptide length in addition to the sequence identity of the MHCI-bound peptide. Accordingly, the effective recognition of pMHCI Ag, which is a prerequisite for successful CD8+ T-cell immunity and protective vaccination, can only be achieved by length-matched Ag-specific CD8+ T-cell clonotypes. (Blood. 2013;121 (7):1112-1123) [ABSTRACT FROM AUTHOR]

Published

2013

21. Immune self-reactivity triggered by drug-modified HLA-peptide repertoire.

Author

Illing, Patricia T., Vivian, Julian P., Dudek, Nadine L., Kostenko, Lyudmila, Chen, Zhenjun, Bharadwaj, Mandvi, Miles, John J., Kjer-Nielsen, Lars, Gras, Stephanie, Williamson, Nicholas A., Burrows, Scott R., Purcell, Anthony W., Rossjohn, Jamie, and McCluskey, James

Subjects

REACTIVITY (Chemistry), HLA histocompatibility antigens, PEPTIDES, T cells, ABACAVIR

Abstract

Human leukocyte antigens (HLAs) are highly polymorphic proteins that initiate immunity by presenting pathogen-derived peptides to T?cells. HLA polymorphisms mostly map to the antigen-binding cleft, thereby diversifying the repertoire of self-derived and pathogen-derived peptide antigens selected by different HLA allotypes. A growing number of immunologically based drug reactions, including abacavir hypersensitivity syndrome (AHS) and carbamazepine-induced Stevens-Johnson syndrome (SJS), are associated with specific HLA alleles. However, little is known about the underlying mechanisms of these associations, including AHS, a prototypical HLA-associated drug reaction occurring exclusively in individuals with the common histocompatibility allele HLA-B*57:01, and with a relative risk of more than 1,000 (refs?6, 7). We show that unmodified abacavir binds non-covalently to HLA-B*57:01, lying across the bottom of the antigen-binding cleft and reaching into the F-pocket, where a carboxy-terminal tryptophan typically anchors peptides bound to HLA-B*57:01. Abacavir binds with exquisite specificity to HLA-B*57:01, changing the shape and chemistry of the antigen-binding cleft, thereby altering the repertoire of endogenous peptides that can bind HLA-B*57:01. In this way, abacavir guides the selection of new endogenous peptides, inducing a marked alteration in 'immunological self'. The resultant peptide-centric 'altered self' activates abacavir-specific T-cells, thereby driving polyclonal CD8 T-cell activation and a systemic reaction manifesting as AHS. We also show that carbamazepine, a widely used anti-epileptic drug associated with hypersensitivity reactions in HLA-B*15:02 individuals, binds to this allotype, producing alterations in the repertoire of presented self peptides. Our findings simultaneously highlight the importance of HLA polymorphism in the evolution of pharmacogenomics and provide a general mechanism for some of the growing number of HLA-linked hypersensitivities that involve small-molecule drugs. [ABSTRACT FROM AUTHOR]

Published

2012

22. Structural basis for the killing of human beta cells by CD8+ T cells in type 1 diabetes.

Author

Bulek, Anna M, Cole, David K, Skowera, Ania, Dolton, Garry, Gras, Stephanie, Madura, Florian, Fuller, Anna, Miles, John J, Gostick, Emma, Price, David A, Drijfhout, Jan W, Knight, Robin R, Huang, Guo C, Lissin, Nikolai, Molloy, Peter E, Wooldridge, Linda, Jakobsen, Bent K, Rossjohn, Jamie, Peakman, Mark, and Rizkallah, Pierre J

Subjects

PANCREATIC beta cells, T cells, TYPE 1 diabetes, MAJOR histocompatibility complex, ANTIGEN receptors, LEUCOCYTES, PEPTIDES

Abstract

The structural characteristics of the engagement of major histocompatibility complex (MHC) class II-restricted self antigens by autoreactive T cell antigen receptors (TCRs) is established, but how autoimmune TCRs interact with complexes of self peptide and MHC class I has been unclear. Here we examined how CD8+ T cells kill human islet beta cells in type 1 diabetes via recognition of a human leukocyte antigen HLA-A*0201-restricted glucose-sensitive preproinsulin peptide by the autoreactive TCR 1E6. Rigid 'lock-and-key' binding underpinned the 1E6-HLA-A*0201-peptide interaction, whereby 1E6 docked similarly to most MHC class I-restricted TCRs. However, this interaction was extraordinarily weak because of limited contacts with MHC class I. TCR binding was highly peptide centric, dominated by two residues of the complementarity-determining region 3 (CDR3) loops that acted as an 'aromatic-cap' over the complex of peptide and MHC class I (pMHCI). Thus, highly focused peptide-centric interactions associated with suboptimal TCR-pMHCI binding affinities might lead to thymic escape and potential CD8+ T cell-mediated autoreactivity. [ABSTRACT FROM AUTHOR]

Published

2012

23. Structural and biophysical determinants of αβ T-cell antigen recognition.

Author

Bridgeman, John S., Sewell, Andrew K., Miles, John J., Price, David A., and Cole, David K.

Subjects

MOLECULAR structure, BIOPHYSICS, T cells, ANTIGENS, MOLECULAR recognition, PEPTIDES, HISTOCOMPATIBILITY

Abstract

Summary The molecular rules that govern MHC restriction, and allow T-cells to differentiate between peptides derived from healthy cells and those from diseased cells, remain poorly understood. Here we provide an overview of the structural constraints that enable the T-cell receptor (TCR) to discriminate between self and non-self peptides, and summarize studies that have attempted to correlate the biophysical parameters of TCR/peptide-major histocompatibility complex (pMHC) binding with T-cell activation. We further review how the antigenic origin of peptide epitopes affects TCR binding parameters and the 'quality' of a T-cell response. Understanding the principles that govern pMHC recognition by T-cells will unlock pathways to the rational development of immunotherapeutic approaches for the treatment of infectious disease, cancer and autoimmunity. [ABSTRACT FROM AUTHOR]

Published

2012

24. Complex regulation of GH autofeedback under dual-peptide drive: studies under a pharmacological GH and sex steroid clamp.

Author

Veldhuis, Johannes D., Erickson, Dana, Miles, John M., and Bowers, Cyril Y.

Subjects

SEX hormones, STEROID hormones, POSTMENOPAUSE, OLDER men, TESTOSTERONE, PEPTIDES, SEX differences (Biology)

Abstract

To test the postulate that sex difference, sex steroids, and peptidyl secretagogues control GH autofeedback, 11 healthy postmenopausal women and 14 older men were each given 1) a single iv pulse of GH to enforce negative feedback and 2) continuous iv infusion of saline vs. combined GHRH/GHRP-2 to drive feedback escape during pharmacological estradiol (E2; women) or testosterone (T; men) supplementation vs. placebo in a double-blind, prospectively randomized crossover design. By three-way ANCOVA, sex difference, sex hormone treatment, peptide stimulation, and placebo/saline responses (covariate) controlled total (integrated) GH recovery during feedback (each P < 0.001). Both sex steroid milieu (P = 0.019) and dual-peptide stimulation (P < 0.001) determined nadir (maximally feedback-suppressed) GH concentrations. E2/T exposure elevated nadir GH concentrations during saline infusion (P = 0.003), whereas dual-peptide infusion did so independently of T/E2 and sex difference (P = 0.001). All three of sex difference (P = 0.001), sex steroid treatment (P = 0.005), and double-peptide stimulation (P < 0.001) augmented recovery of peak (maximally feedback-escaped) GH concentrations. Peak GH responses to dual-peptidyl agonists were greater in women than in men (P = 0.016). E2/T augmented peak GH recovery during saline infusion (P < 0.001). Approximate entropy analysis corroborated independent effects of sex steroid treatment (P = 0.012) and peptide infusion (P < 0.001) on GH regularity. In summary, sex difference, sex steroid supplementation, and combined peptide drive influence nadir, peak, and entropic measurements of GH release under controlled negative feedback. To the degree that the pharmacological sex steroid, GH, and dual-peptide clamps provide prephysiological regulatory insights, these outcomes suggest major determinants of pulsatile GH secretion in the feedback domain. [ABSTRACT FROM AUTHOR]

Published

2011

25. Hotspot autoimmune T cell receptor binding underlies pathogen and insulin peptide cross-reactivity.

Author

Cole, David K., Bulek, Anna M., Dolton, Garry, Schauenberg, Andrea J., Szomolay, Barbara, Rittase, William, Trimby, Andrew, Jothikumar, Prithiviraj, Fuller, Anna, Skowera, Ania, Rossjohn, Jamie, Cheng Zhu, Miles, John J., Pealrman, Mark, Wooldridge, Linda, Rizkallah, Pierre J., Sewell, Andrew K., Zhu, Cheng, and Peakman, Mark

Subjects

*AUTOIMMUNITY, *T cell receptors, *PATHOGENIC microorganisms, *INSULIN, *PEPTIDES, *ANTIGEN receptors

Abstract

The cross-reactivity of T cells with pathogen- and self-derived peptides has been implicated as a pathway involved in the development of autoimmunity. However, the mechanisms that allow the clonal T cell antigen receptor (TCR) to functionally engage multiple peptide-major histocompatibility complexes (pMHC) are unclear. Here, we studied multiligand discrimination by a human, preproinsulin reactive, MHC class-I-restricted CD8+ T cell clone (1E6) that can recognize over 1 million different peptides. We generated high-resolution structures of the 1E6 TCR bound to 7 altered peptide ligands, including a pathogen-derived peptide that was an order of magnitude more potent than the natural self-peptide. Evaluation of these structures demonstrated that binding was stabilized through a conserved lock-and-key-like minimal binding footprint that enables 1E6 TCR to tolerate vast numbers of substitutions outside of this so-called hotspot. Highly potent antigens of the 1E6 TCR engaged with a strong antipathogen-like binding affinity; this engagement was governed though an energetic switch from an enthalpically to entropically driven interaction compared with the natural autoimmune ligand. Together, these data highlight how T cell cross-reactivity with pathogen-derived antigens might break self-tolerance to induce autoimmune disease. [ABSTRACT FROM AUTHOR]

Published

2016

26. T-cell Receptor Specificity Maintained by Altered Thermodynamics.

Author

Madura, Florian, Rizkallah, Pierre J., Miles, Kim M., Holland, Christopher J., Bulek, Anna M., Fuller, Anna, Schauenburg, Andrea J. A., Miles, John J., Liddy, Nathaniel, Sami, Malkit, Yi Li, Hossain, Moushumi, Baker, Brian M., Jakobsen, Bent K., Sewell, Andrew K., and Cole, David K.

Subjects

*T-cell receptor genes, *IMMUNOSPECIFICITY, *PEPTIDES, *CELL membranes, *BACTERIOPHAGES, *MELANOMA

Abstract

The T-cell receptor (TCR) recognizes peptides bound to major histocompatibility molecules (MHC) and allows T-cells to interrogate the cellular proteome for internal anomalies from the cell surface. The TCR contacts both MHC and peptide in an interaction characterized by weak affinity (KD = 100 μM to 270 μM). We used phage-display to produce a melanoma-specific TCR (α24β17) with a 30,000-fold enhanced binding affinity (KD = 0.6 nM) to aid our exploration of the molecular mechanisms utilized to maintain peptide specificity. Remarkably, although the enhanced affinity was mediated primarily through new TCR-MHC contacts,α24β17 remained acutely sensitive to modifications at every position along the peptide backbone, mimicking the specificity of the wild type TCR. Thermodynamic analyses revealed an important role for solvation in directing peptide specificity. These findings advance our understanding of the molecular mechanisms that can govern the exquisite peptide specificity characteristic of TCR recognition. [ABSTRACT FROM AUTHOR]

Published

2013

27. CD8+ TCR Repertoire Formation Is Guided Primarily by the Peptide Component of the Antigenic Complex.

Author

Dan Koning, Costa, Ana I., Hoof, Ilka, Miles, John J., Nanlohy, Nening M., Ladell, Kristin, Matthews, Katherine K., Venturi, Vanessa, Schellens, Ingrid M. M., Borghans, Jose A. M., Can Keşmir, Price, David A., and van Baarle, Debbie

Subjects

*T cell receptors, *PEPTIDES, *ANTIGENS, *MHC antibodies, *SILVER, *EPITOPES, *MOLECULAR biology

Abstract

CD8+ T cells recognize infected or dysregulated cells via the clonotypically expressed aB TCR, which engages Ag in the form of peptide bound to MHC class I (MHC I) on the target cell surface. Previous studies have indicated that a diverse Ag-specific TCR repertoire can be beneficial to the host, yet the determinants of clonotypic diversity are poorly defined. To better understand the factors that govern TCR repertoire formation, we conducted a comprehensive clonotypic analysis of CD8+ T cell populations directed against epitopes derived from EBV and CMV. Neither pathogen source nor the restricting MHC I molecule were linked with TCR diversity; indeed, both HLA-A and HLA-B molecules were observed to interact with an overlapping repertoire of expressed TRBV genes. Peptide specificity, however, markedly impacted TCR diversity. In addition, distinct peptides sharing HLA restriction and viral origin mobilized TCR repertoires with distinct patterns of TRBV gene usage. Notably, no relationship was observed between immunodominance and TCR diversity. These findings provide new insights into the forces that shape the Ag-specific TCR repertoire in vivo and highlight a determinative role for the peptide component of the peptide-MHC I complex on the molecular frontline of CD8+ T cell-mediated immune surveillance. [ABSTRACT FROM AUTHOR]

Published

2013

28. Phase I Trial of a CD8+ T-Cell Peptide Epitope-Based Vaccine for Infectious Mononucleosis.

Author

Elliott, Suzanne L., Suhrbier, Andreas, Miles, John J., Lawrence, Greg, Pye, Stephanie J., Le, Thuy T., Rosenstengel, Andrew, Tam Nguyen, Allworth, Anthony, Burrows, Scott R., Cox, John, Pye, David, Moss, Denis J., and Bharadwaj, Mandvi

Subjects

*VACCINES, *EPITOPES, *MONONUCLEOSIS, *EPSTEIN-Barr virus, *PEPTIDES, *PLACEBOS, *VACCINATION

Abstract

A single blind, randomized, placebo-controlled, single-center phase I clinical trial of a CD8+ T-cell peptide epitope vaccine against infectious mononucleosis was conducted with 14 HLA B*0801-positive, Epstein-Barr virus (EBV)-seronegative adults. The vaccine comprised the HLA B*0801-restricted peptide epitope FLRGRAYGL and tetanus toxoid formulated in a water-in-oil adjuvant, Montanide ISA 720. FLRGRAYGL-specific responses were detected in 8/9 peptide-vaccine recipients and 0/4 placebo vaccine recipients by gamma interferon enzyme-linked immunospot assay and/or limiting-dilution analysis. The same T-cell receptor Vβ CDR3 sequence that is found in FLRGRAYGL-specific T cells from most EBV-seropositive individuals could also be detected in the peripheral blood of vaccine recipients. The vaccine was well tolerated, with the main side effect being mild to moderate injection site reactions. After a 2- to 12-year follow-up, 1/2 placebo vaccinees who acquired EBV developed infectious mononucleosis, whereas 4/4 vaccinees who acquired EBV after completing peptide vaccination seroconverted asymptomatically. Single-epitope vaccination did not predispose individuals to disease, nor did it significantly influence development of a normal repertoire of EBV-specific CD8+ T-cell responses following seroconversion. [ABSTRACT FROM AUTHOR]

Published

2008

29. Anti-CD8 Antibodies Can Trigger CD8+ T Cell Effector Function in the Absence of TCR Engagement and Improve Peptide-MHCI Tetramer Staining.

Author

Clement, Mathew, Ladell, Kristin, Ekeruche-Makinde, Julia, Miles, John J., Edwards, Emily S. J., cDolton, Garry, Williams, Tamsin, Schauenburg, Andrea J. A., Cole, David K., Lauder, Sarah N., Gallimore, Awen M., Godkin, Andrew J., Burrows, Scott R., Price, David A., Sewell, Andrew K., and Wooldridge, Linda

Subjects

*IMMUNOGLOBULINS, *T cells, *PEPTIDES, *MONOCLONAL antibodies, *CELL membranes

Abstract

CD8+ T cells recognize immunogenic peptides presented at the cell surface bound to MHCI molecules. Ag recognition involves the binding of both TCR and CD8 coreceptor to the same peptide-MHCI (pMHCI) ligand. Specificity is determined by the TCR, whereas CD8 mediates effects on Ag sensitivity. Anti-CD8 Abs have been used extensively to examine the role of CD8 in CD8+ T cell activation. However, as previous studies have yielded conflicting results, it is unclear from the literature whether anti-CD8 Abs per se are capable of inducing effector function. In this article, we report on the ability of seven monoclonal anti-human CD8 Abs to activate six human CD8+ T cell clones with a total of five different specificities. Six of seven anti-human CD8 Abs tested did not activate CD8+ T cells. In contrast, one anti-human CD8 Ab, OKT8, induced effector function in all CD8+ T cells examined. Moreover, OKT8 was found to enhance TCR/pMHCI on-rates and, as a consequence, could be used to improve pMHCI tetramer staining and the visualization of Ag-specific CD8+ T cells. The anti-mouse CD8 Abs, CT-CD8a and CT-CD8b, also activated CD8+ T cells despite opposing effects on pMHCI tetramer staining. The observed heterogeneity in the ability of anti-CD8 Abs to trigger T cell effector function provides an explanation for the apparent incongruity observed in previous studies and should be taken into consideration when interpreting results generated with these reagents. Furthermore, the ability of Ab-mediated CD8 engagement to deliver an activation signal underscores the importance of CD8 in CD8+ T cell signaling. [ABSTRACT FROM AUTHOR]

Published

2011

30. Germ Line-governed Recognition of a Cancer Epitope by an Immunodominant Human T-cell Receptor.

Author

Cole, David K., Yuan, Fang, RizkaIIah, Pierre J., Miles, John J., Gostick, Emma, Price, David A., Gao, George F., Jakobsen, Bent K., and SewelI, Andrew K.

Subjects

*EPITOPES, *T-cell receptor genes, *MELANOMA, *HLA histocompatibility antigens, *PEPTIDES

Abstract

CD8+ 1-cells specific for MART-1.-(26 -35), a dominant melanoma epitope restricted by human leukocyte antigen (HLA)A*0201, are exceptionally common in the naive T-cell repertoire. Remarkably, the TRAV12-2 gene is used to encode the T-cell receptor α (TCRα) chain in >87% of these T-cells. Here, the molecular basis for this genetic bias is revealed from the structural and thermodynamic properties of an archetypal TRAV12-2-encoded TCR complexed to the clinically relevant heteroclitic peptide, ELAGIGILTV, bound to HLA-A*0201 (A2-ELA). Unusually, the TRAV12-2 germ line-encoded regions of the ICR dominate the major atomic contacts with the peptide at the TCR/A2-ELA interface. This "innate" pattern of antigen recognition probably explains the unique characteristics and extraordinary frequencies of CD8+ 1-cell responses to this epitope. [ABSTRACT FROM AUTHOR]

Published

2009

31. The peptide length specificity of some HLA class I alleles is very broad and includes peptides of up to 25 amino acids in length

Author

Bell, Melissa J., Burrows, Jacqueline M., Brennan, Rebekah, Miles, John J., Tellam, Judy, McCluskey, James, Rossjohn, Jamie, Khanna, Rajiv, and Burrows, Scott R.

Subjects

*PEPTIDES, *MAJOR histocompatibility complex, *LIGANDS (Biochemistry), *EPITOPES, *T cells, *AMINO acids, *LIGAND binding (Biochemistry)

Abstract

Abstract: The major ligands presented by MHC class I molecules after natural antigen processing are peptides of eight to ten residues in length, and it is widely accepted that the binding preferences of MHC class I molecules play a dominant role in dictating this classic feature of antigen presentation. In this report, we have reassessed the peptide size specificity of class I human leukocyte antigens (HLAs). By lengthening previously defined T cell epitopes by central amino acid insertion, we demonstrate that the peptide length specificity of some common HLA class I alleles (HLA-B*3501, B*0702 and A*2402) is very broad, and includes peptides of up to 25 residues. These data suggest that the length limitation of naturally processed MHC class I-associated peptides is primarily controlled by peptide availability after antigen processing rather than the binding specificity of MHC class I molecules. Furthermore, the findings provide an explanation for recent reports highlighting that epitopes of >10 amino acids play a minor but significant role in virus-specific immune surveillance by CD8+ T cells. [Copyright &y& Elsevier]

Published

2009