Peripheral blood T lymphocytes in systemic vasculitis: increased T cell receptor Vβ2 gene usage in microscopic polyarteritis

Antigen recognition by T lymphocytes is mediated by cell surface receptors. T cell specificity depends on the variable, diversity and junctional (VDJ) regions of the α and β polypeptide chains of the T cell receptor (TCR). The expression of the variable region genes of the β chain (Vβ) has been analysed to study the involvement of peripheral blood T cells in systemic vasculitis. RNA was extracted from peripheral blood lymphocytes of 12 patients with microscopic polyarteritis, 10 with Wegener's granulomatosis, six with unclassified vasculitis, and 28 healthy age- and sex-matched individuals. Complementary DNA was made from RNA and amplified by the anchored polymerase chain reaction (PCR) using redundant oligonucleotide primers for the TCR Vβ genes. To determine if the dominant usage of a Vβ gene family reflected the presence of particular T cell clones, cDNA was amplified with primers for the specific Vβ gene family. The product was screened for sequence homogeneity by single-stranded conformational polymorphism (SSCP) and cloned to sequence the adjoining TCR (Dβ)Jβ region. A significant increase in the mean percentage expression of the Vβ 2.1 gene was seen in vasculitis patients (11·4+1·0% (mean + s.e.m.)) compared with controls (6·6 + 0·6%; P < 0·003). The most marked increase was seen in microscopic polyarteritis (13·9 + 1·7%; P < 0·0001). There were also increases in the expression of Vβ3, 13 and 14 in peripheral blood of vasculitis patients compared with controls. SSCP analysis of Vβ 2.1 amplified products indicated the presence of oligoclonal bands in a smaller proportion of patients (8/27) than controls (12/28). There was no strong evidence for the conservation of the TCR Vβ 2.1 junctional region sequence data from a sample group of three patients with oligoclonal bands. Thus, a subset of patients with systemic vasculitis, particularly those with microscopic polyarteritis, have increased TCR Vβ 2.1 gene expression in their peripheral blood T cell repertoire. As superantigens binding Vβ 2.1 are postulated to activate T cells with diverse CDR3 sequences, it is proposed that a superantigen is involved in the immunopathogenesis of vasculitis.     

Restricted TCR Valpha gene rearrangements in T cells recognizing an immunodominant peptide of myelin basic protein in DR2 patients with multiple sclerosis

T cell responses to myelin basic protein (MBP) are thought to play an important role in the pathogenesis of multiple sclerosis (MS). The response to the 83-99 region of MBP represents a dominant response to MBP in patients with MS and is associated with HLA-DR2 that is linked with susceptibility to MS. Although T cell clones reactive to various regions of MBP have been found to exhibit heterogeneous TCR Vbeta gene usage in patients with MS, it is unclear whether T cell clones uniformly recognizing the 83-99 peptide of MBP in the context of the same DR molecule would have restricted TCR V gene rearrangements and recognition motifs. In this study, a panel of DR2- or DR4-restricted T cell clones specific for the MBP83-99 peptide were derived from 11 patients with MS and examined for TCR V gene usage by PCR and the recognition motifs using analog peptides. Our study revealed that despite a few T cell clone pairs having similar recognition motifs and shared sequence homology in the CDR3, the overall recognition motifs of MBP83-99-specific T cells were considerably diverse. Interestingly, the DR2-restricted T cell clones displayed a biased V gene usage for Valpha3 and Valpha8, while Vbeta gene rearrangements were highly heterogeneous. This study provided experimental evidence suggesting a limited heterogeneity in TCR Valpha gene rearrangements of MBP-reactive T cells in DR2 patients with MS.      

Shared amino acid sequences in the NDβN and Nα regions of the T cell receptors of tumor-infiltrating lymphocytes within malignant glioma

The purpose of this study was to assess the V-(D)-J junctional region of the T cell receptor (TCR), the CDR3 region, which is responsible for glioma-specific antigen contact in αβ TCR-mediated recognition. We sequenced the TCR α and β chians of Vα7, and Vβ13.1 cDNA derived from tumor-infiltrating lymphocytes (TIL) of 12 glioma patients and also the corresponding clones from the patients' peripheral blood lymphocytes (PBL). A shared Vβ13.1 DJ sequence of the CDR3 region, NDβN, was demonstrated in 49 of 66 Vβ13.1⁺ clones (74.2 %) from the glioma TIL, whereas only 4 of 33 clones (12.1 %) were observed in the Vβ13.1⁺ clones from the PBL (p < 0.001). A common VDJ sequence, FCASS (Vβ13.1)-YRLPWGTSDS (NDβN)-GELFF(Jβ2.2), was observed not only in the gliomas from each patient, but also among all the patients with a preference for Vβ13.1. In contrast, the amino acid sequences of the Vβ13.1⁺ PBL clones were diverse and random. Next, we sequenced subclones from other Vβ subfamilies randomly selected to compare their VDJ region rearrangements (Vβ3 and Vβ5.1). In contrast to Vβ13.1, the amino acid sequences of these junctional regions were completely different in these subclones. The V-J junctional region of the α chain is dominated by a few clones in some patients, and no shared amino acid sequences were detected in the TCR Vα junctional region. However, in the Nα region of the Vα7-bearing TIL clones, arginine was used in 27 of 44 clones (61.4%) compared to only 3 of 12 clones from the PBL (p < 0.05). These results are consistent with the hypothesis that a clonal expansion/accumulation of glioma lineage-specific T cells occurred in vivo at the tumor site and that these T cells may be recognizing glioma-specific antigens.     

Restricted T cell receptor expression by human T cell clones specific for mycobacterial 65-kDa heat-shock protein: Selective in vivo expansion of T cells bearing defined receptors

We have examined the T cell receptor (TcR) expression of clones specific for epitopes of mycobacterial 65-kDa heat-shock protein (hsp65) in the context of two different HLA molecules, and used this system as a model to assess the selection of T cells responsive to this antigen in vivo. DR3-restricted clones were raised from both the synovial fluid (SF) and peripheral blood (PB) of a patient with reactive arthritis in three separate cloning events. Five of five SF-derived clones tested expressed either Vβ5.2 or a closely related β chain, Vβ5.6.The α chains expressed by Vβ5.2⁺ and Vβ5.6⁺ clones were from different families, Vα2.4 and Vα23.2, respectively. Nine of ten clones derived from two cloning procedures on PB taken 3 years later also expressed either Vβ5.2 or Vβ5.6. This suggests that the TcR repertoire for recognizing this major histocompatibility complex/peptide complex is relatively restricted and favors the use of Vβ5. Conservation of the β chain third complementarity-determining region (CDR3) sequence was not evident, however. Sequencing α and β chains of representative Vβ5.2⁺ and Vβ5.6⁺ PB-derived clones revealed TcR which were identical to those utilized by the SF-derived clones, showing that the repertoire for recognition of this antigen is stable over time. Similar studies of TcR expression were carried out on hsp65-specific, DP4-restricted clones derived from the SF of a patient with rheumatoid arthritis by two independent cloning procedures. There was conservation of a chain usage, since all clones expressed a member of the Vαl family, but again CDR3 sequence conservation was not apparent, β chain usage was not restricted since different clones expressed Vβ6.7, Vβ22.3 and Vβ12. Subtle differences in epitope specificity were detected for two clones with differing TcR. Once more, T cell clones with identical α and β TcR chains were obtained from the separate cloning procedures, suggesting oligoclonalty of T cells with this defined specificity in the patient's SF.     

Human anti-idiotypic T cells induced by TCR peptides corresponding to a common CDR3 sequence motif in myelin basic protein-reactive T cells

T cells recognizing myelin basic protein (MBP) are potentially involved in the pathogenesis of multiple sclerosis (MS). In vivo clonal expansion of MBP-reactive T cells in MS may relate in part to dysfunction of peripheral regulatory mechanisms, including the anti-idiotypic immune network. In this study, we examined anti-idiotypic immune responses and the functional properties of anti-idiotypic T cells in patients with MS and healthy controls using TCR peptides corresponding to a CDR3 sequence motif preferentially expressed among T cells recognizing the 83-99 immunodominant peptide of MBP in some patients with MS. The study demonstrated that anti-idiotypic T cells could be induced in vitro by 8mer and 15mer peptides containing the CDR3 motif in MS patients and healthy controls respectively. The estimated precursor frequency of the anti-idiotypic T cells was slightly reduced in MS patients compared to control subjects. The obtained anti-idiotypic T cells recognizing the 15mer TCR peptide were found to express the CD4 phenotype, produce predominantly IL-10 and inhibit the proliferation of autologous T cells recognizing the immunodominant peptide of MBP. Anti-idiotypic T cells induced by the 8mer TCR peptide were predominantly CD8+ cytotoxic T cells and exhibited cytotoxic activity against autologous MBP-specific T cells expressing the CDR3 sequence. When added in primary culture, both TCR peptides had a significant inhibitory effect on the T cell responses to the immunodominant peptide of MBP. The findings suggest that anti-idiotypic immune responses can be activated by selected TCR peptides and may play an important role in the in vivo regulation of MBP-reactive T cells.     

Lack of directed Vα14-Jα281 rearrangements in NK1+ T cells

NK1.1⁺ T cells are an unusual subset of TCRαβ cells distinguished by their highly restricted Vβ repertoire and predominant usage of an invariant Vα14-Jα281 chain. To assess whether a directed rearrangement mechanism could be responsible for this invariant α chain, we have analyzed Vα14 rearrangements by polymerase chain reaction and Southern blot in a panel of cloned T-T hybrids derived from thymic NK1.1⁺ T cells. As expected a high proportion (17/20) of the hybrids had rearranged Vα14 to Jα281. However, Vα14-Jα281 rearrangements always occurred on only one chromosome and were accompanied by other Vα-Ja rearrangements (not involving Vα14) on the homologous chromosome. These data argue that rigorous ligand selection rather than directed rearrangement is responsible for the high frequency of Vα14-Jα281 rearrangements in NK1.1⁺ T cells.     

The Jβ segment of the T cell receptor contributes to the Vβ-specific T cell expansion caused by staphylococcal enterotoxin B and Urtica dioica superantigens

We have used a new polymerase chain reaction-based technique to analyze at the clonal level the CDR3 diversity and the Jβ usage associated with the Vβ-dependent T cell receptor (TCR) recognition of two superantigens: the staphylococcal enterotoxin B and the Urtica dioica agglutinin. Our results show that a subset of Jβ elements is preferentially expanded in a given Vβ family, independently of the nature of the superantigen. By contrast, the CDR3 loop does not contribute significantly to the T cell expansion induced by the superantigens. We conclude that the Jβ segment of the TCR β chain, but not the CDR3 region, participates in superantigen binding, presumably by influencing the quaternary structure of the TCR β chain.     

A restricted T cell response to myelin basic protein (MBP) is stable in multiple sclerosis (MS) patients

The close resemblance of MS to the animal model experimental autoimmune encephalomyelitis (EAE) has provided compelling data sustaining a pathogenic role of circulating T cells reactive against MBP. T cell antigen receptor (TCR) usage in EAE is commonly considered restricted; nevertheless, dynamic changes of TCR usage correlate with the course of EAE, resulting in a limited repertoire during early stages of disease activity followed by the recruitment of other T cells reactive against new determinants. Although a broader TCR repertoire mediates the response to MBP in humans, a restricted intra-individual heterogeneity may occur in some MS patients. In the present study we characterize the response to MBP in MS subjects with relapsing remitting disease from two sampling time points 12 months apart. MBP-specific T cell lines (TCL) were first generated from eight MS individuals and two healthy subjects. New TCL were obtained after 12 months from one control and three MS patients whose response, at the first time point, was directed against a single epitope. Interestingly, these three subjects had a stable and mild disease. Few TCL obtained at two time points from the MS individuals recognized the same immunodominant epitope and shared identical TCR Vβ sequences. In the control we could not detect a restriction of the repertoire. These findings suggest that in some MS patients with benign disease a predominant T cell response to a single determinant may be detectable at different moments and is mediated by clonally expanded populations.     

The myelin basic protein-specific T cell repertoire in (transgenic) Lewis rat/SCID mouse chimeras: preferential Vβ8.2 T cell receptor usage depends on an intact Lewis thymic microenvironment

In the Lewis rat, myelin basic protein (MBP)-specific, encephalitogenic T cells preferentially recognize sequence 68–88, and use the Vβ8.2 gene to encode their T cell receptors. To analyze the structural prerequisites for the development of the MBP-specific T cell repertoire, we reconstituted severe-combined immunodeficient (SCID) mice with fetal (embryonic day 15–16) Lewis rat lymphoid tissue, and then isolated MBP-specific T cell lines from the adult chimeras after immunization. Two types of chimera were constructed: SCID mice reconstituted with rat fetal liver cells only, allowing T cell maturation within a chimeric SCID thymus consisting of mouse thymic epithelium and rat interdigitating dendritic cells, and SCID mice reconstituted with rat fetal liver cells and rat fetal thymus grafts, allowing T cell maturation within the chimeric SCID and the intact Lewis rat thymic microenvironment. Without exception, the T cell lines isolated from MBP-immunized SCID chimeras were restricted by MHC class II of the Lewis rat (RT1.B¹), and none by I-A^d of the SCID mouse. Most of the T cell lines recognized the immunodominant MBP epitope 68–88. In striking contrast to intact Lewis rats, in SCID mice reconstituted by rat fetal liver only, MBP-specific T cell clones used a seemingly random repertoire of Vβ genes without a bias for Vβ8.2. In chimeras containing fetal Lewis liver plus fetal thymus grafted under the kidney capsule, however, dominant utilization of Vβ8.2 was restored. The migration of liver-derived stem cells through rat thymus grafts was documented by combining fetal tissues from wild-type and transgenic Lewis rats. The results confirm that the recognition of the immunodominant epitope 68–88 by MBP-specific encephalitogenic T cells is a genetically determined feature of the Lewis rat T cell repertoire. They further suggest that the formation of the repertoire requires T cell differentiation in a syngeneic thymic microenvironment.     

Effects of interferon-α on cytokine profile,T cell receptor repertoire and peptide reactivity of human allergen-specific T cells

A large panel of T cell clones (TCC) specific for the recombinant form of Poa pratensis allergen (rKBG7.2 or Poa p9) were established from the peripheral blood of a grass pollen-sensitive donor in the absence or presence of recombinant interferon-α (IFN-α) in bulk culture and their pattern of cytokine secretion, peptide reactivity and TCR Vβ repertoire was examined. The majority of allergen-specific TCC derived in absence of IFN-α produced high amounts of interleukin-4 (IL-4) and IL-5 but not IFN-γ (Th2 cells), while most of TCC derived in presence of IFN-α produced IFN-γ but not, or limited amounts of, IL-4 and IL-5 (Th1 or Th0 cells). Of 24 TCC established in the presence of IFN-α, 22 were able to recognize a single allergen peptide, p26, while none of the clones established in the absence of IFN-α showed a similar specificity. The majority of both clones expressed the Vβ2 element regardless of whether they were established in the presence of IFN-α, but the presence of IFN-α favored the expansion of Vβ2⁺, Vβ17⁺ and Vβ22⁺ Poa p9-specific T cells, whereas in the absence of IFN-α, other TCR Vβ-bearing T cells (Vβ5, Vβ6.7 and Vβ14) were expanded in addition to Vβ2⁺ T cells. None of Vβ2⁺ clones established in the absence of IFN-α reacted with p26, whereas all the Vβ2⁺ clones established in its presence responded to this peptide. IFN-α also shifted the TCR Vβ repertoire of both Poa p9- and Lolium perenne group 1 (Lol p1)-specific T cell lines generated from the same patient and from a different grass-sensitive individual. These data demonstrate that IFN-α modulates the development of allergen-specific T cells in vitro, and suggest that IFN-α may represent an useful tool for novel immunotherapeutic approaches in allergic disorders.     

T cell receptor α gene rearrangement and transcription in adult thymic γδ cells

T cells belong to two separate lineages based on surface expression of αβ or γδ T cell receptors (TCR). Since during thymus development TCR β, γ, and δ genes rearrange before α genes, and γδ cells appear earlier than αβ cells, it has been assumed that αδ cells are devoid of TCR α rearrangements. We show here that this is not the case, since mature adult, but not fetal, thymic γδ cells undergo VJα rearrangements more frequently than immature αβ lineage thymic precursors. Sequence analysis shows VJα rearrangements in γδ cells to be mostly (70 %) nonproductive. Furthermore, VJα rearrangements in γδ cells are transcribed normally and, as shown by analysis of TCR β-/- mice, occur independently of productive VDJβ rearrangements. These data are interpreted in the context of a model in which precursors of αβ and γδ cells differ in their ability to express a functional pre-TCR complex.     

识别猪SLA的特异性人T细胞系TCR BV基因取用格局和CDR3结构多样性分析

不同T细胞克隆TCR分子的序列不同 ,所识别的抗原特异性也不同。其中第三互补决定区 (CDR3)变异最大 ,是TCR主要的抗原结合部位。本文采用荧光标记半定量PCR技术 ,用DNA测序仪作程序分析 ,了解猪细胞抗原致敏前后的人T细胞群和 5个T细胞系 2 4个TCRBV基因家族取用格局 ,并以TCRα链C区的基因片断作为内参对取用情况作定量估计。发现首次抗原致敏后培养 2周的T细胞除了BV2 4、BV8和BV10未能检测出 ,其它BV基因都有不同程度的取用。然而 ,5个细胞系的TCRBV基因呈现十分有限的取用格局 ,其中两个CD4+ T细胞系都取用BV12和BV14;3个CD8+ T细胞系中都优势取用BV1,有两个还取用BV19。CD4+ T细胞系和CD8+ T细胞系之间TCRBV无交叉取用 ,提示两类细胞识别的抗原表位存在差异。进一步用变性凝胶扫描分析上述T细胞系取用TCRBV中的CDR3的多样性 ,发现未经抗原致敏的T细胞BV的CDR3结构为多峰型且呈正态分布 ,表明涉及多种结构不同的细胞克隆 ;而抗原特异性T细胞系CDR3除了一个CD8+ T细胞系BV1有两个主峰外其它无例外地都显示单峰或者仅一个主峰 ,这从另一个角度证明建系T细胞的单克隆性。     

Peripheral blood T cell expansions in patients with Behc¸et's disease

Behc¸et's disease (BD) is a chronic multisystemic inflammatory disorder characterized mainly by recurrent oral and genital aphthous ulcerations and uveitis. Etiology and pathogenesis of BD remain unknown. T cell receptor (TCR) Vα/Vβ gene product expression as well as Jβ gene segment expression in peripheral blood of BD patients were analysed to investigate the possible role of T lymphocytes in the etiopathogenesis of BD. Flow cytometry with 12 TCR V-specific MoAbs was used for TCRV analyses. Jβ gene segment usage by T cell populations expressing certain Vβs was determined by polymerase chain reaction (PCR) technique with Vβ- and Cβ-specific primers, Southern blotting of PCR products, and subsequent hybridization with radiolabelled Jβ gene segment-specific probes. Although 13 of the 23 BD patients exhibited increases in expression of one or more TCR V-gene products, only expansions among the CD4⁺ T cell subset were significantly more frequent in BD patients (7/23) compared with healthy controls (0/15) (P = 0.019). Six out of eight cases followed for up to 20 months had at least one expansion correlated with disease activity. A strict preference for particular Jβ gene segments implicating clonality was apparent in all analysed T cell expansions and correlated well with disease activity. These results suggest a possible involvement of antigen-specific T lymphocytes in the pathogenesis of BD.     

Prevention and treatment of Lewis rat experimental allergic encephalomyelitis with a monoclonal antibody to the T cell receptor Vβ8.2 segment

The predominance of T cell receptor (TCR) Vβ8.2 utilization by encephalitogenic T cells induced in Lewis rats by immunization with myelin basic protein (MBP) is controversial. Thus, both an almost exclusive usage of Vβ8.2 [Burns, F. R., Li, X., Shen, N., Offner, H., Chou, Y. K., Vandenbark, A. A. and Heber-Katz, E., J. Exp. Med. 1989. 169: 27; Chluba, J., Steeg, C., Becker, A., Wekerle, H. and Epplen, J. T., Eur. J. Immunol. 1989. 19: 279] and a quite diverse Vβ composition of CD4 T cells causing experimental autoimmune encephalomyelitis (EAE) [Sun, D., Gold, P. D., Smith, L., Brostoff, S. and Coleclough, C., Eur. J. Immunol. 1992. 22: 591; Sun, D., Le, J. and Coleclough, C., Eur. J. Immunol. 1993. 23: 494] have been reported. Using a recently developed monoclonal antibody (mAb) specific for TCR Vβ8.2, we show that postnatal treatment effectively eliminates Vβ8.2-bearing cells and prevents MBP-induced EAE in the majority of Lewis rats. Moreover, treatment of adult Lewis rats with Vβ8.2-specific mAb as late as on day 12 after MBP immunization suppressed the development of neurological symptoms. Thus, Vβ8.2-bearing cells do play a decisive role in Lewis rat EAE, and suppression of the small (5%) Vβ8.2-expressing T cell subset provides an effective therapeutic strategy.     

Analysis of T cell receptor Vβ diversity in peripheral CD4+ and CD8+ T lymphocytes in patients with autoimmune thyroid diseases

Autoimmune thyroid diseases are characterized by intrathyroidal infiltration of CD4⁺ and CD8⁺ T lymphocytes reactive to self‐thyroid antigens. Early studies analysing T cell receptor (TCR) Vα gene usage have shown oligoclonal expansion of intrathyroidal T lymphocytes but not peripheral blood T cells. However, TCR Vβ diversity of the isolated CD4⁺ and CD8⁺ T cell compartments in the peripheral blood has not been characterized fully in these patients. We performed complementarity‐determining region 3 (CDR3) spectratyping as well as flow cytometric analysis for the TCR Vβ repertoire in peripheral CD4⁺ and CD8⁺ T cells from 13 patients with Graves' disease and 17 patients with Hashimoto's thyroiditis. Polyclonal TCR Vβ repertoire was demonstrated by flow cytometry in both diseases. In contrast, CDR3 spectratyping showed significantly higher skewing of TCR Vβ in peripheral CD8⁺ T cells but not CD4⁺ T cells among patients with Hashimoto's thyroiditis compared with healthy adults. We found trends towards a more skewed CDR3 size distribution in those patients having disease longer than 5 years and requiring thyroid hormone replacement. Patients with Graves' disease exhibited no skewing both in CD4⁺ and CD8⁺ T cells. These findings indicate that clonal expansion of CD8⁺ T cells in Hashimoto's thyroiditis can be detected in peripheral blood and may support the role of CD8⁺ T cells in cell‐mediated autoimmune attacks on the thyroid gland in Hashimoto's thyroiditis.     

T cell receptor-γδ-expressing fetal mouse thymocytes are generated without T cell receptor Vβ selection

We investigated whether fetal mouse T cell receptor (TCR) γδ cells have been subjected to so-called TCRβ selection at the CD25 stage of thymus development. To this end, we carried out a comparative three-color flow microfluorimetric analysis of TCRβδ cells developing in the fetal, neonatal and adult thymus using monoclonal antibodies to CD2, CD8, CD24, CD25 and CD44. Day-15 fetal TCRγδ cells were CD2⁺, suggesting an origin at a post-CD25 stage. Molecular analysis of TCRβ rearrangements were also carried out. Thus, by semi-quantitative polymerase chain reaction (PCR) amplification of Vβ6 and Vβ8 to Jβ2 rearrangements day-15 fetal TCRγδ showed extensive TCRβ rearrangements, a finding confirmed by PCR amplification from single micromanipulated cells. Finally, sequencing analysis of 104 PCR-amplified TCR VDJβ2 fragments showed that the majority (58%) were rearranged out of frame. Taken together, these phenotypic and molecular analyses suggest that fetal TCRγδ cells have not been subject to TCRβ selection.     

Somatic hypermutation of the T cell receptor Vβ gene in microdissected splenic white pulps from HIV-1-positive patients

Somatic mutation of rearranged immunoglobulin V genes occurs in germinal centers (GC), resulting in affinity maturation of the immune response. Rearranged T cell receptor (TCR) genes were thought to be excluded from this process despite similarities in their gene structure. Somatic mutations were found among TCR Vα (TCRAV) chains of antigen-specific T cells localized in GC of mice. Here, somatically mutated TCR Vβ (TCRBV) chains are identified among microdissected splenic white pulps from HIV-positive individuals. Both the frequency and the nature of the base substitutions were found to be similar to those of mutated immunoglobulin VH genes. This was true for intrinsic mutations in the TCR framework regions as well as for mutations underlying selective pressures in the TCRBV5 gene segment. The concentration of mutations and a preference for replacement mutations in complementarity determining regions of expanded clones were indicative of a positive selection process.