Preferential Use of Public TCR during Autoimmune Encephalomyelitis

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 TCRα 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. In this study, we assess public repertoire representation in mice with experimental autoimmune encephalomyelitis at high resolution. Saturation sequencing was used to identify >18 × 106 TCRβ sequences from the CNSs, 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 preselection 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 preimmune and diseased mice demonstrated that public TCR were preferentially deployed relative to nonshared, 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.

[1]  L. Hood,et al.  Characterization of the T cell receptor repertoire causing collagen arthritis in mice , 1993, The Journal of experimental medicine.

[2]  J. Cabaniols,et al.  Public and private V beta T cell receptor repertoires against hen egg white lysozyme (HEL) in nontransgenic versus HEL transgenic mice , 1994, The Journal of experimental medicine.

[3]  A. Ben-nun,et al.  A myelin oligodendrocyte glycoprotein peptide induces typical chronic experimental autoimmune encephalomyelitis in H‐2b mice: Fine specificity and T cell receptor Vβ expression of encephalitogenic T cells , 1995, European journal of immunology.

[4]  A. Ben-nun,et al.  Delineation of the minimal encephalitogenic epitope within the immunodominant region of myelin oligodendrocyte glycoprotein: diverse Vβ gene usage by T cells recognizing the core epitope encephalitogenic for T cell receptor Vβb and T cell receptor Vβa H‐2b mice , 1996 .

[5]  G. Eisenbarth,et al.  T cell receptor restriction of diabetogenic autoimmune NOD T cells. , 1997, Proceedings of the National Academy of Sciences of the United States of America.

[6]  A. Casrouge,et al.  A direct estimate of the human alphabeta T cell receptor diversity. , 1999, Science.

[7]  A. Casrouge,et al.  A Direct Estimate of the Human αβ T Cell Receptor Diversity , 1999 .

[8]  Stephen S. Wilson,et al.  Residual public repertoires to self , 2000, Journal of Neuroimmunology.

[9]  David M Kranz,et al.  Quantitative analysis of the contribution of TCR/pepMHC affinity and CD8 to T cell activation. , 2003, Immunity.

[10]  A. Rudensky,et al.  Regulatory T cell lineage specification by the forkhead transcription factor foxp3. , 2005, Immunity.

[11]  Clemencia Pinilla,et al.  How the T Cell Repertoire Becomes Peptide and MHC Specific , 2005, Cell.

[12]  D. Pham‐Dinh,et al.  Persistence of autoreactive myelin oligodendrocyte glycoprotein (MOG)‐specific T cell repertoires in MOG‐expressing mice , 2006, European journal of immunology.

[13]  Robyn L Stanfield,et al.  How TCRs bind MHCs, peptides, and coreceptors. , 2006, Annual review of immunology.

[14]  Daniel C. Douek,et al.  Sharing of T cell receptors in antigen-specific responses is driven by convergent recombination , 2006, Proceedings of the National Academy of Sciences.

[15]  E. Sercarz,et al.  A public T cell clonotype within a heterogeneous autoreactive repertoire is dominant in driving EAE. , 2007, The Journal of clinical investigation.

[16]  P. Nguyen,et al.  Retrogenic Modeling of Experimental Allergic Encephalomyelitis Associates T Cell Frequency but Not TCR Functional Affinity with Pathogenicity1 , 2008, The Journal of Immunology.

[17]  E. Simpson,et al.  Public T cell receptor beta-chains are not advantaged during positive selection. , 2008, Journal of immunology.

[18]  E. Sercarz,et al.  Immunodominance in the TCR Repertoire of αTCR Peptide-Specific CD4+ Treg Population That Controls Experimental Autoimmune Encephalomyelitis1 , 2008, The Journal of Immunology.

[19]  Elizabeth Simpson,et al.  Public T Cell Receptor β-Chains Are Not Advantaged during Positive Selection1 , 2008, The Journal of Immunology.

[20]  Philippa Marrack,et al.  Evolutionarily conserved amino acids that control TCR-MHC interaction. , 2008, Annual review of immunology.

[21]  E Yvonne Jones,et al.  The structural dynamics and energetics of an immunodominant T cell receptor are programmed by its Vbeta domain. , 2008, Immunity.

[22]  E. Sercarz,et al.  Immunodominance in the TCR repertoire of a [corrected] TCR peptide-specific CD4+ Treg population that controls experimental autoimmune encephalomyelitis. , 2008, Journal of immunology.

[23]  D. Price,et al.  The molecular basis for public T-cell responses? , 2008, Nature Reviews Immunology.

[24]  Pratip K. Chattopadhyay,et al.  Public clonotype usage identifies protective Gag-specific CD8+ T cell responses in SIV infection , 2009, The Journal of experimental medicine.

[25]  Phuong Nguyen,et al.  Subtle Affinity-Enhancing Mutations in a Myelin Oligodendrocyte Glycoprotein-Specific TCR Alter Specificity and Generate New Self-Reactivity1 , 2009, The Journal of Immunology.

[26]  R. Holt,et al.  Profiling the T-cell receptor beta-chain repertoire by massively parallel sequencing. , 2009, Genome research.

[27]  Jing Ma,et al.  Discrete TCR Repertoires and CDR3 Features Distinguish Effector and Foxp3+ Regulatory T Lymphocytes in Myelin Oligodendrocyte Glycoprotein-Induced Experimental Allergic Encephalomyelitis , 2010, The Journal of Immunology.

[28]  C. Carlson,et al.  Overlap and Effective Size of the Human CD8+ T Cell Receptor Repertoire , 2010, Science Translational Medicine.

[29]  Brigitte Autran,et al.  Escape from highly effective public CD8+ T-cell clonotypes by HIV. , 2011, Blood.

[30]  B. Evavold,et al.  High prevalence of low affinity peptide–MHC II tetramer–negative effectors during polyclonal CD4+ T cell responses , 2011, The Journal of experimental medicine.

[31]  D. Douek,et al.  Unbiased Molecular Analysis of T Cell Receptor Expression Using Template‐Switch Anchored RT‐PCR , 2011, Current protocols in immunology.

[32]  Simon C. Potter,et al.  Genetic risk and a primary role for cell-mediated immune mechanisms in multiple sclerosis , 2011, Nature.

[33]  R. Hintzen,et al.  Genetics of multiple sclerosis. , 2011, Biochimica et biophysica acta.

[34]  Cheng Cheng,et al.  Identification of errors introduced during high throughput sequencing of the T cell receptor repertoire , 2011, BMC Genomics.

[35]  Jiahuai Han,et al.  Determinants of public T cell responses , 2012, Cell Research.

[36]  M. Jenkins,et al.  The Role of Naive T Cell Precursor Frequency and Recruitment in Dictating Immune Response Magnitude , 2012, The Journal of Immunology.

[37]  Wilfred Ndifon,et al.  Chromatin conformation governs T-cell receptor Jβ gene segment usage , 2012, Proceedings of the National Academy of Sciences.

[38]  S. Jameson,et al.  Selection of self-reactive T cells in the thymus. , 2012, Annual review of immunology.

[39]  C. Hsieh,et al.  Selection of regulatory T cells in the thymus , 2012, Nature Reviews Immunology.

[40]  S. Raghavan,et al.  Role of recombination activating genes in the generation of antigen receptor diversity and beyond , 2012, Immunology.

[41]  H. Robins Immunosequencing: applications of immune repertoire deep sequencing. , 2013, Current opinion in immunology.

[42]  P. Santamaria,et al.  MHC Class II Polymorphisms, Autoreactive T-Cells, and Autoimmunity , 2013, Front. Immunol..

[43]  N. Friedman,et al.  T-cell receptor repertoires share a restricted set of public and abundant CDR3 sequences that are associated with self-related immunity , 2014, Genome research.