Endogenous Processing and Presentation of T-cell Epitopes from Chlamydia trachomatis with Relevance in HLA-B27-associated Reactive Arthritis |
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Authors: | Juan J. Cragnolini Noel Garc��a-Medel Jos�� A. L��pez de Castro |
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Affiliation: | From the Centro de Biología Molecular Severo Ochoa (Consejo Superior de Investigaciones Científicas and Universidad Autónoma de Madrid), Universidad Autónoma, 28049 Madrid, Spain |
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Abstract: | Chlamydia trachomatis triggers reactive arthritis, a spondyloarthropathy linked to the human major histocompatibility complex molecule HLA-B27, through an unknown mechanism that might involve molecular mimicry between chlamydial and self-derived HLA-B27 ligands. Chlamydia-specific CD8+ T-cells are found in reactive arthritis patients, but the immunogenic epitopes are unknown. A previous screening of the chlamydial genome for putative HLA-B27 ligands predicted multiple peptides that were recognized in vitro by CD8+ T-lymphocytes from patients. Here stable transfectants expressing bacterial fusion proteins in human cells were generated to investigate the endogenous processing and presentation by HLA-B27 of two such epitopes through comparative immunoproteomics of HLA-B27-bound peptide repertoires. A predicted T-cell epitope, from the CT610 gene product, was presented by HLA-B27. This is, to our knowledge, the first endogenously processed epitope involved in HLA-B27-restricted responses against C. trachomatis in reactive arthritis. A second predicted epitope, from the CT634 gene product, was not detected. Instead a non-predicted nonamer from the same protein was identified. Both bacterial peptides showed very high homology with human sequences containing the HLA-B27 binding motif. Thus, expression and intracellular processing of chlamydial proteins into human cells allowed us to identify two bacterial HLA-B27 ligands, including the first endogenous T-cell epitope from C. trachomatis involved in spondyloarthropathy. That human proteins contain sequences mimicking chlamydial T-cell epitopes suggests a basis for an autoimmune component of Chlamydia-induced HLA-B27-associated disease.Chlamydia trachomatis is an obligate intracellular parasite that infects the urogenital epithelium. It is a very common pathogen and one frequently inducing reactive arthritis (ReA)1 (1). Multiple strategies, including down-regulation of major histocompatibility complex (MHC) class I and class II expression (2–4) and persistence, have been developed by the bacteria to evade the immune system. Yet both CD4+ and CD8+ T-cell responses are activated upon infection (5). In particular, HLA-B27-restricted CD8+ T-lymphocytes are found in patients with Chlamydia-induced ReA (6, 7). The role of these cells in the pathogenesis and evolution of ReA to chronic disease is probably mediated by IFN-γ. Secretion of this cytokine is critical for the protective immunity against Chlamydia (8) because it inhibits the bacterial growth (9). However, this is often insufficient to promote complete clearance of C. trachomatis, and actually IFN-γ-induced depletion of the tryptophan pool induces the differentiation of the metabolically active reticular bodies to persistent forms (10), which sustain chronic infection and ReA. The high prevalence of HLA-B27 among patients with Chlamydia-induced ReA (11), especially in its chronic form, suggests a pathogenetic mechanism based on interactive effects of the bacteria and HLA-B27 that seems unrelated to the capacity of C. trachomatis to infect or replicate into HLA-B27-positive cells (12). One such mechanism could be T-cell-mediated autoimmunity elicited by molecular/antigenic mimicry between chlamydial and self-derived HLA-B27 ligands. Antigenic mimicry between chlamydial and homologous α-myosin-derived peptides is crucial to inducing autoimmune myocarditis in mice (13). Breakdown of cytotoxic T-lymphocyte (CTL) tolerance to HLA-B27 was observed in transgenic rats upon exposure to C. trachomatis (14). Cross-reactivity between HLA-B27-restricted Chlamydia-specific CTL with self-derived HLA-B27 epitopes has not been reported. However, a biochemical basis for it was provided by the finding of an endogenously processed and presented peptide from the DNA primase of C. trachomatis with high homology to a self-derived HLA-B27 ligand (15, 16).Because of the likely involvement of HLA-B27 in the pathogenesis of chronically evolving ReA, the role of CD8+ T-cell responses in the protective immunity against C. trachomatis and the presence of HLA-B27-restricted T-cells in patients with Chlamydia-induced ReA, the identification of relevant chlamydial epitopes becomes crucial to establish the pathogenetic mechanism of this disease. Unfortunately a direct analysis of chlamydial HLA-B27 ligands expressed on infected cells is exceedingly difficult because of their extremely low amounts, which challenge even the most sensitive techniques of MS. In the case of Chlamydia, the situation is further complicated by the down-regulation of MHC class I expression shortly after infection (3, 4). To our knowledge, only one MHC class I ligand was recently identified, in the mouse system, from Chlamydia muridarum-infected cells using state-of-the-art MS techniques (17). Due in part to this difficulty, alternative approaches, such as expression cloning and synthetic peptide epitope mapping (18, 19) or MHC class I tetramer arrays (20), have been used to identify MHC class I-restricted chlamydial T-cell epitopes in mice. In a previous study (6) predictive algorithms were used to screen the whole genome of C. trachomatis for nonamer peptide sequences containing the HLA-B*2705 binding motif and a high probability of being generated by proteasomal cleavage. This led to identifying multiple sequences that, when used as synthetic peptides in vitro, stimulated CD8+ T-cells from patients with Chlamydia-induced ReA. Such cells could also be detected in the synovial fluid of these patients using HLA-B27 tetramers complexed to some of these peptides (7).Although these strategies identify chlamydial sequences that are recognized by CD8+ T-cells they do not prove that these peptides are the endogenously processed epitopes that activated the natural T-cell responses to the bacteria in vivo. Because of the intrinsic cross-reactivity of T-cells (21, 22), it is conceivable that synthetic peptides recognized in vitro may be different from the natural epitopes generated by endogenous processing of the chlamydial proteins that elicit the HLA-B27-restricted T-cell responses in ReA patients. To investigate this issue we focused on two predicted epitopes (6). Stable transfectants expressing the corresponding chlamydial proteins fused to green fluorescent protein (GFP) were generated in a B*2705-positive cell line. The endogenous processing and presentation of the predicted epitopes or other peptides from the same bacterial protein were analyzed by comparative immunoproteomics analysis of the B*2705-bound peptide repertoires from transfected and untransfected cells and sequencing of peptides differentially presented on the bacterial protein transfectant. |
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