Subtle Affinity-Enhancing Mutations in a Myelin Oligodendrocyte Glycoprotein-Specific TCR Alter Specificity and Generate New Self-Reactivity

Udyavar, Akshata R.; Alli, Rajshekhar; Nguyen, Phuong; Baker, Lesley; Geiger, Terrence L.

doi:10.4049/jimmunol.0804377

Cited by 24 publications

(23 citation statements)

References 40 publications

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“…We comprehensively investigated the autoreactive strength of this unprecedentedly large set of human iNKT TCRs and identified three CDR3β amino acid sequence motifs that were associated with strong autoreactivity: a VD region with 2 or more acidic amino acids, usage of the Jβ2-5 allele, and a CDR3β region of 13 amino acids in length. Our findings are underpinned by the previous reports that an acidic amino acid composition, J usage, and the CDR3β region amino acid length individually affected the affinities of conventional TCRs [35-37]. Importantly, human iNKT TCRs highly reactive for self-ligands reported to date indeed harbor 2 out of the 3 sequence motifs (Supplementary Table 1) [2, 10, 34, 38].…”

Section: Discussionsupporting

confidence: 64%

CDR3β sequence motifs regulate autoreactivity of human invariant NKT cell receptors

Chamoto

Guo

Imataki

et al. 2016

Journal of Autoimmunity

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Invariant natural killer T (iNKT) cells are a subset of T lymphocytes that recognize lipid ligands presented by monomorphic CD1d. Human iNKT T cell receptor (TCR) is largely composed of invariant Vα24 (Vα24i) TCRα chain and semi-variant Vβ11 TCRβ chain, where complementarity-determining region (CDR)3β is the sole variable region. One of the characteristic features of iNKT cells is that they retain autoreactivity even after the thymic selection. However, the molecular features of human iNKT TCR CDR3β sequences that regulate autoreactivity remain unknown. Since the numbers of iNKT cells with detectable autoreactivity in peripheral blood is limited, we introduced the Vα24i gene into peripheral T cells and generated a de novo human iNKT TCR repertoire. By stimulating the transfected T cells with artificial antigen presenting cells (aAPCs) presenting self-ligands, we enriched strongly autoreactive iNKT TCRs and isolated a large panel of human iNKT TCRs with a broad range autoreactivity. From this panel of unique iNKT TCRs, we deciphered three CDR3β sequence motifs frequently encoded by strongly-autoreactive iNKT TCRs: a VD region with 2 or more acidic amino acids, usage of the Jβ2-5 allele, and a CDR3β region of 13 amino acids in length. iNKT TCRs encoding 2 or 3 sequence motifs also exhibit higher autoreactivity than those encoding 0 or 1 motifs. These data facilitate our understanding of the molecular basis for human iNKT cell autoreactivity involved in immune responses associated with human disease.

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Section: Discussionsupporting

confidence: 64%

CDR3β sequence motifs regulate autoreactivity of human invariant NKT cell receptors

Chamoto

Guo

Imataki

et al. 2016

Journal of Autoimmunity

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“…An overall enhanced compatibility with MHC may thereby lead to the increased utilization of public TCR in diverse responses. An element of enhanced self-reactivity would be expected to accompany any generically increased binding fitness of TCR for MHC, and indeed this has been observed in mutational analyses increasing TCR affinity (39, 40). …”

Section: Discussionmentioning

confidence: 91%

Preferential Use of Public TCR during Autoimmune Encephalomyelitis

Zhao

Nguyen

et al. 2016

The Journal of Immunology

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Summary How the TCR repertoire, in concert with risk-associated MHC, imposes susceptibility for autoimmune diseases is incompletely resolved. Due largely to recombinatorial biases, a small fraction of TCR α or β chains are shared by most individuals, or public. If public TCR chains modulate a TCRαβ heterodimer’s likelihood of productively engaging autoantigen, because they are pervasive and often high frequency, they could also broadly influence disease risk and progression. Prior data, using low resolution techniques, have identified the heavy use of select public TCR in some autoimmune models. Here we assess public repertoire representation in mice with experimental autoimmune encephalomyelitis (EAE) at high resolution. Saturation sequencing was used to identify >18×106 TCRβ sequences from the central nervous systems, periphery, and thymi of mice at different stages of autoimmune encephalomyelitis and healthy controls. Analyses indicated the prominent representation of a highly diverse public TCRβ repertoire in the disease response. Preferential formation of public TCR implicated in autoimmunity was identified in pre-selection thymocytes and, consistently, public, disease-associated TCRβ were observed to be commonly oligoclonal. Increased TCR sharing and a focusing of the public TCR response was seen with disease progression. Critically, comparisons of peripheral and CNS repertoires and repertoires from pre-immune and diseased mice demonstrated that public TCR were preferentially deployed relative to non-shared, or private, sequences. Our findings implicate public TCR in skewing repertoire response during autoimmunity, and suggest that subsets of public TCR sequences may serve as disease-specific biomarkers or influence disease susceptibility or progression.

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“…4). For MOG 35-55 , evidence suggested that amino acid residues P-1 and P-2 outside of the core nonamer contribute to MHC anchoring and to TCR binding in individual clones (44, 45, 54, 55) with implications for T cell recognition of NFM 15-35 (28). We focused on modulating NFM at P1 (T20Y) to mirror MOG at that position because Petersen et al .…”

Section: Discussionmentioning

confidence: 99%

NFM Cross-Reactivity to MOG Does Not Expand a Critical Threshold Level of High-Affinity T Cells Necessary for Onset of Demyelinating Disease

Blanchfield

Sabatino

Lawrence

et al. 2017

The Journal of Immunology

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Of interest to the etiology of demyelinating autoimmune disease is the potential to aberrantly activate CD4+ T cells due to cross-recognition of multiple self-epitopes such as has been suggested for MOG35-55 and NFM15-35. NFM15-35 is immunogenic in C57BL/6 mice but fails to induce demyelinating disease by polyclonal T cells despite having the same TCR contact residues as MOG35-55, a known encephalitogenic antigen. Despite reported cross-reactivity with MOG specific T cells, the polyclonal response to NFM15-35 did not expand threshold numbers of MOG38-49 tetramer positive T cells. Furthermore, NFM lacked functional synergy with MOG to promote EAE because NFM-/- mice developed an identical disease course to wild type mice after challenge with MOG35-55. Single cells analysis of encephalitogenic T cells using the pMHC monomer based 2D micropipette adhesion frequency assay confirmed that NFM was not a critical antigen driving demyelinating disease because NFM18-30 specific T cells in the CNS were predominantly reactive to MOG38-49. The absence of NFM contribution to disease allowed mapping of the amino acids required for encephalitogenicity and expansion of high affinity, MOG specific T cells that defined the polyclonal response. Alterations of N-terminal residues outside of the NFM15-35 core nonamer promoted expansion of high affinity, MOG38-49 tetramer positive T cells and promoted consistent EAE induction, unlike mice challenged with NFM15-35. While NFM15-35 is immunogenic and cross-reactive with MOG at the polyclonal level, it fails to expand a threshold level of encephalitogenic, high affinity MOG specific T cells.

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Subtle Affinity-Enhancing Mutations in a Myelin Oligodendrocyte Glycoprotein-Specific TCR Alter Specificity and Generate New Self-Reactivity

Cited by 24 publications

References 40 publications

CDR3β sequence motifs regulate autoreactivity of human invariant NKT cell receptors

CDR3β sequence motifs regulate autoreactivity of human invariant NKT cell receptors

Preferential Use of Public TCR during Autoimmune Encephalomyelitis

NFM Cross-Reactivity to MOG Does Not Expand a Critical Threshold Level of High-Affinity T Cells Necessary for Onset of Demyelinating Disease

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