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

The nature of the autoimmune T cell response to myelin oligodendrocyte glycoprotein (MOG), recently recognized as a potential target antigen in multiple sclerosis (MS), has not yet been characterized, in contrast to the T cell reactivity to other potential target antigens in MS such as myelin basic protein and proteolipid protein. Here, we show that the encephalitogenicity of the recombinant Ig-like domain of human MOG is associated, in H-2^b mice, with an immunodominant T cell reactivity against a single region of MOG spanning amino acids 35–55, accounting for the previously reported strong encephalitogenic activity of pMOG 35–55. A single injection of pMOG 35–55 with or without administration of pertussis toxin was sufficient to induce severe clinical experimental autoimmune encephalomyelitis (EAE) in H-2^b mice. Encephalitogenic pMOG 35–55-specific T cell lines derived from C3H.SW (Vβ^b) mice were diverse in their TCR Vβ gene usage (Vβ1, Vβ6, Vβ8 and Vβ15), although Vβ8.2 was most predominantly expressed (48%). However, Vβ8⁺ T cells may only be part of the encephalitogenic MOG-specific T cell repertoire in H-2^b mice, as demonstrated by the susceptibility of C57L (Vβ^a) mice to disease induced by pMOG 35–55. Encephalitogenic T cell lines from Vβ^a mice were also diverse in their TCR Vβ gene usage (Vβ1, Vβ2, Vβ6, Vβ14 and Vβ16). Such a heterogeneous TCR Vβ gene expression by pMOG 35–55/I-A^b-reactive T cells from both Vβ^a and Vβ^b H-2^b mice suggested multiple epitopes within pMOG 35–55. Analysis of the pattern of reactivity by pMOG 35–55-reactive T cells to a set of truncated peptides was not commensurate with independent nested epitopes, but revealed a requirement for recognition of a core sequence, YRSPFSRVV (pMOG 40–48). However, optimal stimulation was obtained with longer peptides, with each additional amino acid flanking either the N or the C terminus differentially increasing the stimulatory capacity of pMOG 40–48. Nonetheless, pMOG 40–48 was the minimal encephalitogenic epitope for both Vβ^a and Vβ^b mice. Thus, the T cell reactivity against the immunodominant encephalitogenic region of MOG is characterized by a diverse Vβ gene usage and a requirement for the same core epitope. This pattern of reactivity may favor epitope-directed, rather than TCR-targeted, approaches to immunospecific therapy for MOG-related autoimmune disease.     

Characterization of CD4−CD8− T cell receptor αβ+ T cells appearing in the subarachnoid space of rats with autoimmune encephalomyelitis

Inflammation of the central nervous system (CNS) in experimental autoimmune encephalomyelitis (EAE) starts in the subarachnoid space (SAS) and spreads later to the adjacent CNS parenchyma. To characterize the nature of lesion-forming T cells in situ in more detail, T cells were isolated from the SAS and their surface phenotype and the nucleotide sequence of the junctional region of the T cell receptor (TCR) was determined and compared with those of the lymph node (LN) and spinal cord (SC) T cells. Characteristically, more than 70% of SAS TCR αβ⁺ T cells isolated at the early stage of EAE lacked both CD4 and CD8 molecules, whereas those from LN and SC were either CD4⁺ or CD8⁺. Analysis of nucleotide sequences of the junctional region of TCR revealed that T cells bearing a sequence identical to that for encephalitogenic T cell clones were found in both SAS and SC. Furthermore, purified CD4^?CD8^? T cells expressed CD4 molecules after culture. At the same time, these T cells acquired reactivity to myelin basic protein and induced passive EAE in naive animals after adoptive transfer. Our results suggest that CD4^?CD8^? T cells in the SAS are precursors of lesion-forming T cells in the SC and that phenotype switching takes place during the process of T cell infiltration into the CNS parenchyma. The double-negative nature of these T cells may explain an escape of encephalitogenic T cells from negative selection in T cell differentiation.     

Identification of an endogenous mammary tumor virus involved in the clonal deletion of Vβ2 T cells

Expression of Vβ (β -chain variable region) gene segments was investigated in the Mus m. domesticus DDO strain, which possesses a large genomic deletion encompassing 20 of the 29 Vβ gene segments known in BALB/c. Stainings using Vβ -specific monoclonal antibodies revealed that up to 60% of the peripheral T cells use 3 Vβ gene segments. Variable frequencies of Vβ 2 T cells were observed among DDO individuals. Segregation analyses of F2 crosses between Vβ 2-deletor mice and mammary tumor virus (Mtv)-free mice led to the identification of a new endogenous Mtv, named Mtv-DDO, mediating Vβ 2 Tcell clonal deletion. Mtv-DDO structure is conserved with the exception of the carboxy-terminal region as compared to other Mtv. Comparison between Mtv sharing the same Vβ specificity and isolated from laboratory or wild mice confirms that a stretch of 11 amino acids, defined as the Vβ -specific region, is required for the Vβ -specific interaction. Limited substitutions in this region account for the shift of the Mtv specificity towards different Vβ.     

Clonal expansions of Vδ1+ and Vδ2+ cells increase with age and limit the repertoire of human γδ T cells

We have investigated the complexity of the human γδ T cell repertoire by means of a VJ heteroduplex analysis method. cDNA obtained from peripheral blood mononuclear cells was amplified with Vδ1-Cδ or Vδ2-Cδ primers. The product was denatured and renatured to allow random reannealing of the strands and the heteroduplexes carrying mismatched junctional sequences were separated from the homoduplexes on polyacrylamide gels. Whenever one or more T cell clones were expanded to over 10% of the polyclonal background, discrete bands of homo- and heteroduplex appeared. This method was applied to the analysis of the peripheral γδ compartment from healthy donors and rheumatoid arthritis patients of different ages. While samples from young individuals showed a polyclonal pattern, a clear tendency towards oligoclonality appeared with increasing age, both in normal individuals and rheumatoid arthritis patients. We also show that the VJ junctional sequence derived from the heteroduplex fragments can be successfully used to isolate and characterize the corresponding T cell clones in vitro, even after a period of 1 year. In conclusion, our findings indicate that the complexity of the γδ T cell repertoire decreases with age as a consequence of the expansion of a few T cell clones.     

同种异体反应性细胞与调节性T细胞在新生期诱导的小鼠移植耐受中的作用探讨

目的:初步探讨同种异体反应性T细胞克隆清除与调节性T细胞在小鼠移植耐受中的作用。方法:雌性BALB/c小鼠与雄性C57BL/6小鼠杂交一代获得F1小鼠,不同剂量的F1小鼠脾脏细胞经眶静脉输注给新生24 h C57BL/6小鼠体内诱导耐受,成年后移植F1小鼠来源的皮肤,建立不同耐受程度的小鼠移植耐受模型;耐受小鼠脾脏细胞经CFSE标记后注射到F1小鼠体内,分析耐受小鼠来源的T细胞在体内对F1抗原的增殖能力;流式细胞术、过继转移实验分析CD4+Foxp3+调节性T细胞在移植耐受和移植排斥过程中的表达。结果:C57BL/6小鼠在新生期输注F1小鼠脾脏细胞可诱导移植耐受,耐受程度与输注的脾脏细胞剂量有关,3×107个F1小鼠脾脏细胞可诱导C57BL/76小鼠长期皮肤移植耐受,1×107个细胞诱导可使移植皮肤生存时间显著延长,但在50 d内完全排斥;体内混合淋巴细胞反应实验证明,长期耐受小鼠体内的同种异体反应性T细胞被完全克隆清除,但低剂量组小鼠体内仍存在一定数量的反应性T细胞;流式细胞分析发现,高剂量和低剂量组小鼠体内的CD4+Foxp3+调节性T细胞表达与初始小鼠相比没有显著差异;同种异体反应性T细胞过继转移给耐受小鼠,移植耐受的皮肤发生排斥反应,小鼠体内的调节性T细胞表达升高。结论:小鼠的移植耐受程度与小鼠体内的同种异体反应性T细胞的克隆清除程度有关,与CD4+Foxp3+调节性T细胞的表达没有直接关系;调节细胞在移植排斥过程中表达升高,可能作为一种反馈机制参与耐受的形成。     

Functional and molecular characterization of B cell-responsive Vδ1+ γδ T cells

Cells expressing the Vδ1⁺ gene segment are a minor γδ T cell population in human peripheral blood but predominate in epithelia and (inflamed) tissues. The characteristic dendritic-like morphology of these γδ T cells is consistent with their putative immune surveillance role in epithelia. Their function, however, remains unknown. We and others previously reported that a subset of Vδ1⁺ γδ T cells proliferates after stimulation with Epstein-Barr virus (EBV)-transformed B lymphoblastoid cell lines (LCL), but not with fresh peripheral blood-derived B cells. These responses were independent of the type of T cell receptor (TcR) γ chain co-expressed with the Vδ1 chain. The in vivo relevance of this LCL-mediated activation as well as the nature of the stimulatory ligand on the LCL is not well established. In this study, we tested the proliferative response of Vδ1⁺ LCL-responsive T cells against non-EBV-transformed B cells, activated through CD40 by murine EL4 B5 cells, and to a panel of B cell lines differing in the expression of EBV nuclear antigen proteins and adhesion/co-stimulatory molecules. The role of the Epstein-Barr virus-derived antigen in the induction of this response could be excluded as the activated (non-EBV-transformed) peripheral blood B cells were also able to induce a proliferative response in the LCL-responsive Vδ1⁺ T cells. Therefore, the stimulatory ligand on B cells is of cellular rather than of viral origin, and its expression is up-regulated upon activation of B cells. The expression of B7 and CD39 molecules on the surface of activated B cells appeared to be crucial since antibodies to these structures could block the induction of proliferation of the Vδ1⁺ T cells. Finally, we investigated the diversity of the responding Vδ1⁺ γδ T cell clones by sequence analysis of the TcRδ junctional regions. No restricted V-D-J sequences were found among the LCL-responsive Vδ1⁺ T cell clones, arguing strongly against a mono- or oligoclonal Vδ1⁺ γδ T cell response to LCL. These findings may explain the presence of polyclonally activated Vδ1⁺ T cells in inflamed tissues where activated B cells are often present.     

Apoptotic elimination of Vβ8.2+ cells from the central nervous system during recovery from experimental autoimmune encephalomyelitis induced by the passive transfer of Vβ8.2+ encephalitogenic T cells

A CD4⁺Vβ8.2⁺ T cell clone specific for the peptide 72–89 of guinea pig myelin basic protein (GMBP) was used to induce acute experimental autoimmune encephalomyelitis (EAE) in Lewis rats. To assess apoptosis in inflammatory cells infiltrating the central nervous system (CNS), we extracted cells from the spinal cord, enriched them for T cells and performed flow-cytometric analysis of their DNA stained with propidium iodide. The presence of apoptosis was confirmed by the demonstration of DNA fragmentation on gel electrophoresis. A gradual increase in the proportion of apoptotic cells was observed between 4 and 7 days after the transfer of the encephalitogenic T cells. The highest frequency of apoptotic cells (9.2 ± 1.2%) was observed 7 days after cell transfer, when clinical recovery commenced. Passive transfer of ovalbumin-specific cells resulted in only a background level (0.8%) of apoptosis in the CNS. We conclude that the apoptotic process selectively eliminates autoreactive T cells from the CNS as: (a) there was a selective disappearance of disease-relevant CD5⁺Vβ8.2⁺ cells from the CNS during the course of EAE; (b) there was a decrease in the frequency of CNS-infiltrating T cells reactive to the GMBP 72–89 peptide during the course of EAE, and in a standard proliferation assay there was a loss of in vitro reactivity of CNS-infiltrating cells to this peptide, but not to a non-CNS antigen (ovalbumin); (c) simultaneous surface labeling and DNA analysis of CNS-infiltrating cells revealed that the frequency of Vβ8.2⁺ cells was about sevenfold higher in the apoptotic T cell population than in the normal (non-apoptotic) T cell population; and (d) we were unable to detect recirculation of the Vβ8.2⁺ cells to lymphoid organs after their frequency decreased in the CNS. The selective apoptotic elimination of autoreactive T cells from the target organ of this spontaneously resolving autoimmune disease may have implications for the understanding of the mechanism by which an autoimmune attack is terminated and for the design of therapeutic strategies to facilitate this process.     

Encephalitogenic,myelin basic protein-specific T cells from naive rat thymus: preferential use of the T cell receptor gene Vβ8.2 and expression of the CD4− CD8− phenotype

Using a primary limiting dilution approach to generate T cell lines, we compared myelin basic protein (MBP)-specific T cell clones from naive unprimed Lewis rat thymuses with the corresponding T cell repertoire of primed rats. We found that in the naive thymus repertoire MBP-specific, encephalitogenic T cell clones preferentially use T cell receptor Vβ8.2 genes, along with CDR3 sequences typical for the primed Lewis anti-MBP response. In contrast to T cells from primed immune organs, which all display the CD4⁺ CD8^? phenotype, the majority of naive thymus-derived T cell clones expressed reduced levels of the CD4 co-receptor. Some clones were completely CD4^?CD8^?, while others included CD4^? CD8^? subpopulations along with CD4⁺CD8^? T cells. In the one mixed population examined in detail, the CD4^?CD8^? and CD4⁺CD8^? T cell subpopulations used a T cell receptor with identical β chain sequence. The data suggest that in the Lewis rat the biased T cell receptor gene usage by encephalitogenic T cells is a property of the natural thymic T cell repertoire, possibly as a consequence of positive selection. The unusually low expression of CD4 in the major histocompatibility complex class II-restricted autoreactive T cells could be related to their escape from negative selection within the thymus.     

A functionally significant allelic polymorphism in a T cell receptor Vβ gene segment

The effect of an allelic polymorphism in the BV1S1 gene segment on recognition of major histocompatibility complex (MHC)-peptide complexes by a specific T cell receptor (TCR) was studied using RBL 2H3 cells transfected with TCR-CD3ζ chimeric receptors. An HLA-A2-restricted human immunodeficiency virus (HIV) pol-specific cytotoxic T lymphocyte (CTL) clone utilizing the BV1S1A2 gene in combination with AV2S1A2 was identified and the extracellular domains of the TCR were fused to CD3ζ. In degranulation assays RBL 2H3 transfectants expressing this receptor maintained the specificity of the parental CTL clone. The allelic variant BV1S1A1N1 containing a glutamine for histidine substitution at position 48 in the loop of the second complementarity-determining region was generated by site-directed mutagenesis. Transfection of this molecule as a CD3ζ chimera together with the original AV2S1A2 CD3ζ molecule resulted in cell surface expression of both chains but a loss of recognition of HLA-A2 HIV pol peptide-pulsed targets. The effect of this polymorphism on MHC-peptide recognition supports current models of TCR MHC-peptide interaction and provides evidence for a functional role for polymorphism in the TCRV genes.     

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.     

T cell receptor (TCR) Vβ gene usage in bronchoalveolar lavage and peripheral blood T cells from asthmatic and normal subjects

T cells are thought to play an important regulatory role in asthma, but little is known about the T cell repertoire of the human lung or whether asthma is associated with any specific repertoire changes. Flow cytometry and MoAbs to TCR VB (TCRBV) families were used to quantify bronchoalveolar lavage (BAL) and blood T cells from normal and atopic individuals. Clonality was then assessed by polymerase chain reaction (PCR) amplification of cDNA and gene scanning using consensus and family-specific TCRBV primers and confirmed by sequence analysis. In addition, blood and BAL T cell populations were studied pre- and post-allergen challenge in four patients with allergic asthma. The majority of TCRBV families detected in blood by MoAb staining were also represented in BAL. While differences between BAL and blood populations were evident in each individual studied, these differences were not consistent between individuals or between CD4⁺ and CD8⁺ T cell subpopulations. These results are in broad agreement with other published studies, but in contrast to previous work we found a consistent difference between TCRBV7 family usage in blood and BAL in all individuals studied, and a consistently increased proportion of CD4⁺ BAL T cells bearing BV5S2/3 in asthmatics only. After allergen challenge, the pattern of TCRBV gene usage was largely unchanged as judged by flow cytometry. Gene scanning of PCR products generated from consensus VB primers revealed polyclonal lymphocyte populations in blood and BAL from all seven atopic individuals: in one normal tested polyclonal populations were found in blood and oligoclonal populations in BAL. Selected families amplified with family-specific primers BV5S2/3, BV6 and BV7 (chosen because of their predominance in BAL compared with blood) were more variable and revealed predominant polyclonal populations in blood and polyclonal or oligoclonal populations in BAL. In one asthmatic patient a clonal BV5S2 family was found in BAL. Following allergen challenge there were no significant changes in polyclonality/oligoclonality/clonality in three cases, but in one case a clonal BV5S2 population was found after challenge, that had not been evident beforehand. The lung T cell repertoire is thus broadly representative of blood T cells, but shows population differences that may result from response to persistent exposure to airborne antigens common to normal and atopic individuals. Oligoclonal TCRBV family expansion appears to be primarily lung-specific but independent of atopic asthma, although our challenge data in one case support the concept that clonal populations may follow local allergen challenge. These data are consistent with selection and amplification of specific T cell families in the lung in response to local antigenic exposure.     

DNAX accessory molecule‐1 (CD226) promotes human hepatocellular carcinoma cell lysis by Vγ9Vδ2 T cells

Human Vγ9Vδ2 T lymphocytes can be activated by nonpeptidic antigens such as the mevalonate pathway‐derived isopentenyl pyrophosphate or synthetic phosphoantigen such as bromohydrin pyrophosphate. They display a strong cytotoxic activity against several tumor types, including hepatocellular carcinoma (HCC). Little is known about the mechanisms underlying Vγ9Vδ2 T‐cell recognition of tumor cells, but there is strong evidence that activating NK receptors play a role in γδ T‐cell cytotoxicity. In this study, we showed that the two NK receptors DNAX accessory molecule‐1 (DNAM‐1) and CD96 were expressed by Vγ9Vδ2 T cells. The ligands Nectin‐like‐5 specific of both DNAM‐1 and CD96, and also Nectin‐2, an additional ligand of DNAM‐1, were present on all HCC cell lines analyzed. Furthermore, we demonstrated by mAb‐mediated masking experiments that cytotoxicity against HCC cells as well as IFN‐γ production in γδ T cells were dependent on DNAM‐1. Our experiments indicated that Nectin‐like‐5 but not Nectin‐2 was involved in DNAM‐1‐dependent γδ T‐cell functions. We did not reveal a role for CD96 in the killing of HCC cells. Finally, we showed by combined mAb‐mediated blockade that DNAM‐1 and NKG2D could cooperate in the cell lysis of HCC.     

Impaired survival of T cell receptor Vγ3+ cells in interleukin-4 transgenic mice

The mouse epidermis contains a network of Thy-1⁺ dendritic T cells. Most of these cells express a homogeneous T cell receptor (TCR) configuration (Vγ3/ Vδ1) with only negligible junctional diversity. Because fetal thymocytes are precursors of these dendritic epidermal T cells (DETC) and the addition of interleukin (IL)-4 to fetal thymic organ cultures causes an early arrest in thymopoiesis, we examined DETC development in transgenic (tg) mice expressing IL-4 under the control of major histocompatibility complex class I regulatory sequences. Immunohistologic examination of epidermal sheets and polymerase chain reaction analysis of total skin RNA from IL-4 tg mice failed to reveal TCR Vγ3⁺ DETC and Vγ3 mRNA, respectively. In contrast, the sizes of TCR γδ subpopulations in lymphoid organs were unchanged in these mice. Although the numbers and staining intensities of TCR Vγ3⁺ thymocytes in early fetal (days 14–17) IL-4 tg mice were similar to those of littermate controls, we observed a preferential death of these cells in thymic organ cultures from IL-4 tg mice. We observed further that epidermal sheets prepared from 9-day-old mice whose mothers had been treated with an IL-4-neutralizing antibody from day 12 to day 18 of pregnancy contained DETC numbers similar to those of controls. However, upon termination of the anti-IL-4 treatment, DETC ceased to expand. We conclude that IL-4 impairs the survival of TCR Vγ3⁺ cells.     

At low precursor frequencies,the T‐cell response to chronic self‐antigen results in anergy without deletion

The behavior of self‐reactive T cells in the peripheral immune system has often been studied by following the fate of adoptively transferred antigen‐specific T cells in antigen expressing mice. In most cases, after a period of expansion, such cells undergo a slow clonal deletion, accompanied by the onset of anergy and/or suppression in the remaining cells. Here, we demonstrate that at initial frequencies approaching those found in normal repertoires, it is possible to completely avoid deletion and still maintain peripheral tolerance. At starting numbers of <1000 T cells, stimulation by chronic self‐antigens resulted in a period of robust clonal expansion, followed by a steady plateau phase extending beyond 4 months. Despite their stable persistence, the self‐reactive T cells did not convert to a Foxp3+ fate. However, they displayed a considerable block in their ability to make IL‐2, consistent with the onset of anergy — in a precursor frequency or deletion independent fashion.     

A regulatory cross‐talk between Vγ9Vδ2 T lymphocytes and mesenchymal stem cells

The physiological functions of human TCRVγ9Vδ2⁺ γδ lymphocytes reactive to non‐peptide phosphoantigens contribute to cancer immunosurveillance and immunotherapy. However, their regulation by mesenchymal stem cells (MSC), multipotent and immunomodulatory progenitor cells able to infiltrate tumors, has not been investigated so far. By analyzing freshly isolated TCRVγ9Vδ2⁺ lymphocytes and primary cell lines stimulated with synthetic phosphoantigen or B‐cell lymphoma cell lines in the presence of MSC, we demonstrated that MSC were potent suppressors of γδ‐cell proliferation, cytokine production and cytolytic responses in vitro. This inhibition was mediated by the COX‐2‐dependent production of prostaglandin E2 (PGE₂) and by MSC through EP2 and EP4 inhibitory receptors expressed by Vγ9Vδ2 T lymphocytes. COX‐2 expression and PGE₂ production by MSC were not constitutive, but were induced by IFN‐γ and TNF‐α secreted by activated Vγ9Vδ2 T cells. This regulatory cross‐talk between MSC and Vγ9Vδ2 T lymphocytes involving PGE₂ could be of importance for the antitumor and antimicrobial activities of γδ T cells.     

Differential targeting of IL-2 and T cell receptor signaling pathways selectively expands regulatory T cells while inhibiting conventional T cells

Strategies to expand regulatory T cells hold therapeutic potential for ameliorating T cell-mediated autoimmunity. Recently, we reported that the requirements for T cell receptor signaling in conventional T cell and regulatory T cell proliferation are different. Using mutant mice that display defective T cell receptor-mediated phospholipase Cγ (PLCγ) activation, we hereby demonstrate that PLCγ activation is required for antigen-specific conventional T cell proliferation but not for IL-2-induced regulatory T cell proliferation. This led us to hypothesize that in conjunction with IL-2, pharmacological inhibition of T cell receptor-mediated PLCγ activation might offer a novel therapeutic strategy to expand regulatory T cells while simultaneously inhibiting conventional T cell proliferation. Indeed, using the calcineurin inhibitor Cyclosporine A to inhibit signaling downstream of PLCγ, we found that Cyclosporine A attenuated antigen-specific Tconv proliferation but permitted IL-2-induced regulatory T cell expansion in vitro and in vivo. Furthermore, the combination of Cyclosporine A and IL-2 was superior over either Cyclosporine A or IL-2 monotherapy in protection against the T cell-mediated demyelinating autoimmune disease mouse model, experimental autoimmune encephalomyelitis. Thus, a combination of TCR signaling inhibition and IL-2 might be a beneficial strategy in expanding regulatory T cells and inhibiting conventional T cell proliferation in autoimmune settings.     

Selective killing of T cells by immunotoxins directed at distinct Vβ epitopes of the T cell receptor

The potency and specificity of anti-T cell receptor (TcR)-directed immunotoxins were studied in two T cell leukemia lines, HPB-ALL and Jurkat, and in primary T cells. Immunoconjugates were synthesized using anti-CD3? or distinct anti-V_β antibodies cross-linked to CRM9, a binding site-mutant of diphtheria toxin. All TcR-expressing cells display the CD3 complex on the plasma membrane. HPB-ALL cells express the V_β5 gene product in the β subunit of the TcR, while Jurkat cells express V_β8. V_β expression in primary T cells isolated from buffy coats is heterogeneous. Primary T cell populations expressing specific V_β epitopes in the TcR were generated by plating CD3⁺ T cells on V_β-specific antibody-coated flasks or by positive immunomagnetic selection. Immunotoxins directed against the invariant CD3? epitope target and kill all T cells. Immunoconjugates targeted at distinct anti-V_β epitopes are specific for cells that express the corresponding gene product in the TcR. The results demonstrate the ability of antiTcR-based immunotoxins selectively to kill T cells with defined V_β epitopes. These reagents may be clinically useful in disorders mediated by autoreactive T cell populations exhibiting V_β restriction and in the treatment of clonal TcR-expressing lymphomas.     

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.     

Co-expression of CD8α in CD4+ T cell receptor αβ+ T cells migrating into the murine small intestine epithelial layer

We investigated the surface phenotype of CD3⁺CD4⁺ T cell receptor (TCR) αβ⁺ T cells repopulating the intestinal lymphoid tissues of C.B-17 scidlscid (severe-combined immunodeficient; scid) (H-2^d, L^d+) mice. CD4⁺ CD8^? T cells were cell sorter-purified from various secondary and tertiary lymphoid organs of congenic C.B-17 +/+ (H-2^d, L^d+) or semi-syngeneic dm2 (H-2^d, L^d?) immunocompetent donor mice. After transfer of 10⁵ cells into young scid mice, a mucosa-homing, memory CD44^hi CD45RB^lo CD4⁺ T cell population was selectively engrafted. Large numbers of single-positive (SP) CD3⁺ CD2⁺ CD28⁺ CD4⁺ CD^8? T cells that expressed the α₄ integrin chain CD49d were found in the spleen, the mesenteric lymph nodes, the peritoneal cavity and the gut lamina propria of transplanted scid mice. Unexpectedly, large populations of donor-type doublepositive (DP) CD4⁺ CD8α⁺ CD8β^? T cells with high expression of the CD3/TCR complex appeared in the epithelial layer of the small intestine of transplanted scid mice. In contrast to SP CD4⁺ T cells, the intraepithelial DP T cells showed low expression of the CD2 and the CD28 co-stimulator molecules, and of the α₄ integrin chain CD49d, but expressed high levels of the α_IEL integrin chain CD103. The TCR-Vβ repertoire of DP but not SP intraepithelial CD4⁺ T cells was biased towards usage of the Vβ6 and Vβ8 viable domains. Highly purified populations of SP and DP CD4⁺ T cell populations from the small intestine epithelial layer of transplanted scid mice had different abilities to repopulate secondary scid recipient mice: SP CD4⁺ T cells repopulated various lymphoid tissues of the immunodeficient host, while intraepithelial DP CD4⁺ T cells did not. Hence, a subset of CD3⁺ CD4⁺ TCRαβ⁺ T cells apparently undergoes striking phenotypic changes when it enters the microenvironment of the small intestine epithelial layer.