Non-specific propagation of human antigen-dependent T lymphocyte clones

Formation of the killer Ig-like receptor repertoire on CD4+CD28null T cells

Killer Ig-like receptors (KIRs) are expressed on CD4(+)CD28(null) T cells, a highly oligoclonal subset of T cells that is expanded in patients with rheumatoid arthritis. It is unclear at what stage of development these T cells acquire KIR expression. To determine whether KIR expression is a consequence of clonal expansion and replicative senescence, multiple CD4(+)CD28(null) T cell clones expressing the in vivo dominant TCR beta-chain sequences were identified in three patients and analyzed for their KIR gene expression pattern. Based on sharing of TCR sequences, the clones were grouped into five clone families. The repertoire of KIRs was diverse, even within each clone family; however, the gene expression was not random. Three particular receptors, KIR2DS2, KIR2DL2, and KIR3DL2, had significant differences in gene expression frequencies between the clone families. These data suggest that KIRs are successively acquired after TCR rearrangement, with each clone family developing a dominant expression pattern. The patterns did not segregate with the individual from whom the clones were derived, indicating that peripheral selection in the host environment was not a major shaping force. Several models were examined using a computer algorithm that was designed to simulate the expression of KIRs at various times during T cell proliferation. The computer simulations favored a model in which KIR gene expression is inducible for a limited time during the initial stages of clonal expansion.

Cytolethal distending toxin of Haemophilus ducreyi induces apoptotic death of Jurkat T cells

The immune response to Haemophilus ducreyi is mediated in part by T cells infiltrating the site of infection. In this study, we show that H. ducreyi antigen preparations inhibited the proliferation of peripheral blood mononuclear cells and primary human T-cell lines. H. ducreyi also inhibited Jurkat T-cell proliferation and induced apoptosis of Jurkat T cells, confirmed through the detection of DNA degradation and membrane unpacking. The cytotoxic product(s) was present in cell-free culture supernatant and whole-cell preparations of H. ducreyi and was heat labile. H. ducreyi produces two known heat-labile toxins, a hemolysin and a cytolethal distending toxin (CDT). Whole cells and supernatants prepared from a hemolysin-deficient mutant had the same inhibitory and apoptotic effects on Jurkat T cells as did its isogenic parent. Preparations made from an H. ducreyi cdtC mutant were less toxic and induced less apoptosis than the parent. The toxic activity of the cdtC mutant was restored by complementation in trans. CdtC-neutralizing antibodies also inhibited H. ducreyi-induced toxicity and apoptosis. The data suggest that CDT may interfere with T-cell responses to H. ducreyi by induction of apoptosis.

Expansion of rat 6-thioguanine-resistant T-lymphocyte clones by stimulation with ionomycin and a phorbol ester

Previous molecular analyses of the mutations produced in the rat lymphocyte hprt assay were hindered by difficulties encountered in growing mutant lymphocytes from 6-thioguanine-resistant clones. In this study, we evaluated the ability of the calcium ionophore, ionomycin, and the tumor promotor, phorbol 12-myristate 13-acetate, to stimulate clone expansion. A medium containing these two agents, along with mitogen-free conditioned medium, was found to expand 64% of 276 mutant clones to at least 5 x 10(5) cells in nine days of culture. Some clones were expanded to more than 4 x 10(6) cells. The procedure appears suitable for propagating rat lymphocyte clones for mutation analysis.

Liver-infiltrating and circulating CD4+ T cells in chronic hepatitis C: immunodominant epitopes, HLA-restriction and functional significance

The aim was to assess the specificity and functional significance of liver-infiltrating and peripheral blood T cells in chronic hepatitis C. Peripheral blood mononuclear cells hepatitis C virus from 50 of 58 (86.2%) patients with chronic hepatitis C virus infection and 6 of 28 (21.4%) controls showed a proliferative T cell response to at least one of 16 synthetic peptides covering highly conserved regions of the core, envelope (El) and non-structural regions (NS4) of hepatitis C virus. However, six immunodominant peptides were exclusively recognized by the proliferating blood mononuclear cells from 46 patients with chronic hepatitis C virus infection (79.3%). Fine specificity and HLA-restriction were studied with 15 peptide-specific CD4+ T cell lines and 23 T cell clones isolated from liver tissue and peripheral blood of 12 patients with chronic hepatitis C. It was demonstrated that the peptide-specific response of CD4+ T cells was restricted to the presence of autologous accessory cells and HLA-DR and -DP molecules. Eight peptide-specific T cell lines and five T cell clones derived from liver tissue and peripheral blood, released interferon-gamma (200-6600 pg/ml) and tumor necrosis factor-alpha (100-400 pg/ml) and no or little interleukin-4 (< 140 pg/ml) after peptide-specific or mitogeneic stimulation, thus resembling a Th1-like cytokine profile. Patients with active liver disease showed significantly higher proliferative responses to hepatitis C virus core peptides than asymptomatic hepatitis C virus carriers or complete responders to interferon therapy. In conclusion, class II-restricted CD4+ T cell responses to some immunodominant epitopes within the hepatitis core region correlated with disease activity in chronic hepatitis C virus infection. Functionally, liver-infiltrating and peripheral blood T cells released Th1-like cytokines in response to the specific stimulus. Thus, it can be suggested that CD4+ T cells can mediate the pathogenesis of chronic hepatitis C virus induced liver disease.

T lymphocytes from the normal human peritoneum contain high frequencies of Th2-type CD8+ T cells

The majority of peritoneal T lymphocytes have been shown to be CD8+ and to co-express CDw60. Expression of CDw60 characterizes CD8 T cells capable of secreting interleukin (IL)-4 and supporting IgG production by B cells. We analyzed at the clonal level the functional cytokine profile of CD8+ T lymphocytes from the normal human peritoneum. While the majority of the clones produced interferon (IFN)-gamma and exhibited high alloantigen-specific cytolytic activity, some clones secreted IL-4 and IL-5 but no detectable IFN-gamma. These Th2-type CD8+ T cell clones provided substantial B cell help for IgG and IgA synthesis and exhibited reduced cytolytic activity. Our results suggest that distinct subsets of CD8+ T cell may occur in different immune compartments.

Proliferative response of CD4+ T cells and hepatitis B virus clearance in chronic hepatitis with or without hepatitis B e-minus hepatitis B virus mutants

To assess the significance of cell-mediated immunity, T cells were derived from the peripheral blood and liver tissue of hepatitis B virus (HBV)-infected patients and controls. The analysis of the 3H-thymidine-uptake in response to a panel of recombinant HBV antigens revealed that peripheral blood mononuclear cells (PBMC) of the 25 viremic patients with inflammatory active, chronic hepatitis B, 16 with wild-type and nine with HBe-minus HBV mutant infection, showed stronger proliferative responses to HBc and HBe antigens than 16 asymptomatic nonviremic HBsAg carriers with normal aminotransferase levels (HBc: SI 19.3 +/- 3.9 vs. 13.0 +/- 3.2 vs. 8.0 +/- 1.2; P < .01 and HBe: SI 16.6 +/- 4.0 vs. 10.7 +/- 3.5 vs. 6.9 +/- 1.5; P < .05). In 15 patients with acute self-limited hepatitis B, however, significantly stronger HBc antigen-specific T-cell responses were observed during HBV clearance and HBe/anti-HBe seroconversion, whereas in nine completely HBV-immunized patients only minor proliferative responses to HBV antigens were observed. Six HBe/HBcAg- and two HBeAg-specific CD4+ T-cell lines could be expanded from liver tissue and peripheral blood of six viremic patients with chronic hepatitis B. Irrespectively of HBV mutations the HBV-specific activation of the T-cell lines was restricted by the presence of HLA-DR molecules and resulted in the release of Th1-like cytokine patterns. Follow-up of interferon (IFN) recipients showed simultaneous short-term increase of HBc/HBe-specific T-cell reactivities in responder patients during HBV clearance and HBe/anti-HBe seroconversion, whereas in nonresponders high virus load and HBV-specific immune responses were in imbalance.(ABSTRACT TRUNCATED AT 250 WORDS)

Evidence for a paracrine pathway of B-cell stimulation in hairy cell leukaemia

It is a well-known phenomenon that the growth of malignant B-lymphocytes, i.e. hairy cells, is regulated by cytokines. Several investigators have suggested that the stimulating cytokines are produced by the malignant B cells themselves, indicating an autocrine growth regulation. In this paper we demonstrate that T-lymphocyte clones produce soluble mediators which stimulate the growth of malignant B lymphocytes. The incidence of the growth-stimulating T-cell clones derived from peripheral blood is identical in patients with hairy cell leukaemia (HCL) and healthy controls. About 50% of the clones stimulate the growth of hairy cells, but not the growth of purified B lymphocytes of healthy donors. The stimulating activity of a single clone varies when tested on different hairy cells. Interferon alpha (IFN alpha), but not antibodies against tumour necrosis factor alpha (TNF alpha) or interleukin-2 (IL-2), completely inhibit the growth-stimulating activity. Our results indicate that a paracrine growth regulation has to be considered in addition to the postulated autocrine loop in the growth regulation of malignant B cells.

Extended-term culture of human T lymphocytes: Material potentially useful in genotoxicity testing

A simplified method, using recombinant interleukin-2, foetal bovine serum and freeze-killed feeder cells, has been developed for the mass culture of T lymphocytes derived from human peripheral blood. In this protocol, aliquots of bulk cultures can be cryopreserved about 8 days after initiation, and subsequent mass cultures generated a further week after recovery. At the end of this period the lymphocytes are karyotypically normal, and cultures from different donors are very similar in terms of rate of cell division and expression of key antigenic markers. Such extended-term T lymphocyte cultures are potentially valuable in genotoxicity testing, combining the practical convenience of established cell lines with the theoretical advantage of possession of the normal human karyotype.

In vitro expansion and analysis of T lymphocyte microcultures obtained from the vaccination sites of cancer patients undergoing active specific immunization with autologous Newcastle-disease-virus-modified tumour cells

In order to understand further the effects of Newcastle-disease-virus(NDV)-modified tumour vaccines we investigated the feasibility of isolating lymphocytes from the site of injection of patients undergoing postoperative active specific immunization (ASI) with autologous NDV-modified tumour cells. Delayed-type-hypersensitivity(DTH)-like reactions from five cancer patients were surgically removed, minced and the tissue particles were digested with collagenase and DNase. Lymphoid cells recovered were expanded in a highly efficient limiting-dilution analysis system optimized for T cell growth [Moretta et al. (1983) J Exp Med 157: 743] and lymphocyte microcultures (clonal probability > 0.8) could be grown for up to 1 year. Analysis of the microcultures for phenotype and function showed that the majority were positive for CD4 (92%) and TCR alpha beta (96%). Concanavalin-A-induced production of interleukin-2 (IL-2), IL-6, interferon gamma and tumour necrosis factor alpha was detected in more than 70% of the microcultures. Lectin-dependent cytotoxicity was only very rarely observed. The general characteristics of the microcultures obtained support the notion of a DTH-like reaction taking place at the site of tumour cell challenge. The possibility of in vitro expansion and cultivation of T lymphocytes from ASI vaccination sites should help to elucidate further the role of these cells in active specific immunization against autologous tumour cells.

An improved procedure for the in vitro expansion of human T-lymphocyte clones for mutant analysis

Assays detecting mutants present in human peripheral blood T-lymphocytes have been developed to monitor the population for somatic mutations. In order to investigate the nature of the mutations, colonies are further expanded in vitro by repeated lectin stimulation. To characterise fully each mutant clone, sufficient cells (approximately 10(7)) must be available for several molecular and biochemical techniques to be employed. These techniques, and their importance to the assay for population monitoring, are discussed briefly. We report here that the expansion of mutant colonies to approximately 10(7) cells by repeated lectin stimulation is not effective for all T-cell clones but that an alternative "lectin free" expansion method has enabled us to expand all the clones tested from a variety of normal donors and other individuals of interest.

Analysis of the human T-cell response to picornaviruses: identification of T-cell epitopes close to B-cell epitopes in poliovirus

Little is known about the nature and specificity of T-cell-mediated responses to picornaviruses in humans. In this study, the nature of the T-cell response to seven picornaviruses, including polioviruses, coxsackieviruses B3 and B4, human rhinovirus 14, and encephalomyocarditis virus, was determined. Twenty-nine individuals responded to poliovirus type 3, coxsackievirus B3, and encephalomyocarditis virus by proliferation of T cells, and from such cultures, 130 virus-specific T-cell lines were established. T-cell lines generated in response to encephalomyocarditis virus were exclusively strain specific. However, the majority of T-cell lines established in response to viruses, other than encephalomyocarditis virus, were cross-reactive to each other. Their cross-reactivity was confirmed in 2 of the 30 picornavirus-specific clonally derived T-cell lines from two subjects, but the majority of these lines were serotype specific. T-cell epitopes adjacent to each of the B-cell antigenic sites in VP1 of poliovirus type 3 were identified. The response to the region adjacent to B-cell antigenic site 1 (residues 97 to 114) was dominant between individuals. The localization of this major CD4 T-cell epitope may permit the construction of chimeric viruses utilizing the natural picornavirus T-cell response to augment production of antibody specific for inserted sequences.

MHC-unrestricted recognition of bacteria-infected target cells by human CD8+ cytotoxic T lymphocytes

A CD8+ alpha beta TCR+ T cell clone (A35) was isolated from the synovial fluid of a patient with post-enteric reactive arthritis caused by Yersinia enterocolitica. This clone efficiently killed autologous and allogeneic target cells that had been preincubated with live but not with heat-killed bacteria. There was no restriction by polymorphic parts of HLA-A, -B, or -C molecules and a HLA class II-deficient mutant cell line was lysed as efficiently as its normal counterpart, whereas infected HLA class I-deficient cells (Daudi cells) were not. The clone showed crossreaction between Yersinia enterocolitica, Escherichia coli, Pseudomonas aeruginosa, and Streptococcus pyogenes, but did not lyse target cells preincubated with Staphylococcus epidermidis. MAb to CD2, CD3, and CD8 efficiently blocked A35, whereas the addition of mAb to HLA class II or to HLA class I did not. This clone apparently represents a novel effector mechanism against bacteria-infected or -modified cells that could be involved in the immunopathology of reactive arthritis.

Stimulator cell-dependent requirement for CD2- and LFA-1-mediated adhesions in T lymphocyte activation by superantigenic toxins

The staphylococcal enterotoxins and related microbial T cell mitogens stimulate T cells by cross-linking variable parts of the T cell receptor (TCR) with MHC class II molecules on accessory or target cells. We have used cloned human T cells and defined tumor cells as accessory cells (AC) to study the requirements for T cell activation by these toxins. On AC expressing high levels of CD54 (intercellular adhesion molecule-1, ICAM-1) and CD58 (lymphocyte function-associated antigen-3, LFA-3), mAb to CD2 were relatively ineffective in inhibiting the response to the toxins and antibodies to the lymphocyte function-associated antigen-1 (LFA-1) did not inhibit at all. If added together, however, these mAb inhibited the response completely. Similar results were obtained using antibodies to the target structures of CD2 and LFA-1. In contrast, on cells expressing low levels of LFA-3, mAb to LFA-1 but not to CD2 were strongly inhibitory. The same pattern of inhibition was found when these same cells were used as presenters of specific antigen to the T cells. These data show that adhesions via CD2 or LFA-1 are alternatively required for the stimulation of the T cells by superantigenic toxins and demonstrate another similarity between T cell stimulation by superantigens and by specific antigen recognition.

Candida arthritis: cellular immune responses of synovial fluid and peripheral blood lymphocytes to Candida albicans

A case of septic Candida albicans arthritis of the knee in a patient with systemic candidiasis is presented. Systemic and intra-articular cellular immune responses to C albicans and various bacterial antigens were monitored for 15 weeks. It is shown that the candida induced blastogenesis of synovial fluid lymphocytes was much more stimulated than that of peripheral blood lymphocytes, and that the proportion of activated cells expressing HLA class II antigens was markedly increased in the synovial fluid. Strong cellular immune responses to Candida albicans could still be shown many weeks after the synovial fluid aspirates had become sterile. For the first time synovial fluid derived, CD4 positive T lymphocyte clones with specificity for candida antigens were characterised and further propagated in vitro.

An approach to isolating T cell lines that react to antigens presented on the surface of dendritic cells

We describe an approach that might be useful for identifying antigens on surfaces of antigen presenting cells. It is known that dendritic cells carry antigens in situ and are efficient at clustering antigen-specific T cells. Using the human mixed lymphocyte reaction (MLR) system, we have shown that alloreactive CD4+ T cells can be selected by their capacity to cluster with dendritic cells in the first 2 days of the MLR. Small numbers of clustered cells, 1-10/culture well, could then be expanded as antigen-specific lines in presence of either antigen or mitogen, sodium periodate. Few antigen-specific lines could be isolated from the nonclustered fraction. When T cell lines derived from the dendritic T cell clusters were maintained without antigen, i.e. using second party (syngeneic antigen-presenting cells (APC] or irrelevant antigen bearing APC, i.e. third-party (HLA-mismatched) stimulator cells plus mitogen, the T cells retained their specificity for the original stimulating alloantigen over the time course tested, several weeks to months. These findings show that by using dendritic cells as immunoadsorbents one can prepare antigen-specific cell lines and maintain the specificity of the lines without the need for adding exogeneous antigen during either immunoselection or cloning. We discuss the possible use of dendritic cells as a means for raising T cell lines and clones that recognize antigens being carried by APC and which might be pertinent to protective immunity and autoimmunity.

Evidence for T cell receptor-HLA class II molecule interaction in the response to superantigenic bacterial toxins

The staphylococcal enterotoxins and related microbial T cell mitogens stimulate T cells by cross-linking variable parts of the T cell receptor (TcR) with MHC class II molecules on accessory or target cells. In this report we describe that a given combination of T cell, accessory cell (AC) and toxin can be non-stimulatory. However, the same T cell can respond to the same toxin on another AC and the same AC can present the same toxin to another T cell. This indicates that in the complex formed between TcR, toxin and class II molecule an interaction between TcR and class II molecule takes place.

The generation and use of human T cell clones

In this review a number of uses of human T cell clones have been discussed. Before considering T cell cloning, however, it is worth bearing in mind that there are certain disadvantages to this approach to T cell immunity, not the least of which is that these cells, adapted as they are for in vitro growth, may be unrepresentative of the normal T cell, in terms of both specificity, and function. In addition, cloning is sufficiently difficult for it to be undertaken only where monoclonal populations are essential to the desired aim. Nevertheless, the range of uses discussed, and the fact that many have had a fundamental impact on our understanding of immune mechanisms, not only as mediated by T cells, but also of the intracellular mechanisms of antigen-presentation, the nature and mode of action of the cytokines, as well as the cell surface molecules and cascade of signals that orchestrate T cell activation, indicate the importance of T cell cloning. In the future, it is probable that the use of T cell clones with defined receptor usage will improve our understanding of the mechanisms underlying disease pathogenesis, and thus aid both the prevention and treatment of disease. In addition, the T cell receptor structure will, no doubt, be elucidated, leading to a further quantum leap in our understanding of T cell immune mechanisms, as well as suggesting other avenues for exploration. In all these areas there is no doubt that the methodology of T cell cloning will continue to make a fundamental contribution.

The use of anti-CD3 and anti-CD28 monoclonal antibodies to clone and expand human antigen-specific T cells

Antigen-specific T cell clones are useful reagents for studies of the fine specificity of antigen recognition and of potential therapeutic use in adoptive immunotherapy for human viral and malignant diseases. Culture methods which require antigen and APC for stimulation can be problematic for the generation and long-term growth of human virus and tumor-specific T cells. We have developed an alternative culture method using monoclonal antibodies to T cell activation molecules, CD3 and CD28, as stimulation to efficiently grow CD4+ and CD8+ antigen-specific T cells from single progenitors and expand T cell clones in long-term culture. This method alleviates the requirement for large amounts of viral or tumor antigens and MHC compatible APC to sustain the growth of virus and tumor-specific T cell clones, and, as demonstrated for CD8+ CMV-specific cytotoxic T cells, overcomes the difficulties cloning CD8+ T cells using virally infected cells as antigen-presenting cells. T cell clones generated and maintained with monoclonal antibody stimulation are rapidly expanded and retain antigen-specific responses after 3 months in culture, suggesting this approach may prove useful for growing large numbers of antigen-specific T cell clones for cellular immunotherapy.

Absence of Epstein-Barr virus-specific, HLA class II-restricted CD4+ cytotoxic T lymphocytes in infectious mononucleosis

Cytotoxic T lymphocytes (CTL) with the CD4+ phenotype that recognize major histocompatibility complex (MHC) class II antigens are detectable very frequently in cultures of human alloreactive or virus-specific T cells. The significance of these CD4+ CTL for an immune reaction in vivo is not clear. Since Epstein-Barr virus (EBV) transformed B cells express HLA-class I and class II antigens equally well both CD8+ and CD4+ CTL should be stimulated during an acute EBV infection. We analysed the MHC specificity and the phenotype of EBV-specific CTL from patients with infectious mononucleosis (IM). When tested directly without any previous culture, T cells from patients in the acute phase of IM showed specific MHC-restricted cytotoxicity against the autologous B cell line. Addition of a HLA class I specific monoclonal antibody (MoAb) but not of a HLA class II specific MoAb resulted in a complete blocking of the lytic activity. Cell sorting revealed that the entire cytotoxic activity was present in the CD8+ fraction whereas no specific CTL were detectable in the CD4+ fraction. The absence of cytotoxicity in CD4+ cells was not due to a lack of activation of these cells since both CD8+ and CD4+ cells were activated in situ, showing spontaneous growth in interleukin-2 (IL-2) and expressing the activation marker TP103. Frequency estimation revealed that 1/300-1/600 CD8+ but only 1/2000-1/4000 CD4+ T cells gave rise to a specific CTL colony after 10 days. If CD4+ colonies were tested repeatedly for cytotoxicity we found that CD4+ CTL acquired their cytotoxicity during in vitro culture. In addition, we isolated EBV-specific CD4+ T cell clones able to lyse their stimulator cells in the presence but not in the absence of lectin, even after a long period of culture. Taken together our results show that cytotoxicity mediated by CD4+ T cells does not play a role in an anti-viral immune response.

Salmonella-reactive synovial fluid T-cell clones in a patient with post-infectious Salmonella arthritis

From a patient with reactive arthritis following Salmonella typhimurium enteritis, synovial fluid T-lymphocytes were cloned and expanded in vitro. Seven out of 74 clones showed a marked proliferative response to antigens of heat-killed Salmonella typhimurium with autologous T-cell-depleted peripheral blood mononuclear cells as antigen-presenting cells. The Salmonella-reactive clones were of the CD4+ phenotype, antigen-induced proliferation could be inhibited by a monoclonal antibody to HLA class II. One clone recognized both Salmonella and Campylobacter jejuni antigens in the proliferation assay. The multiclonality of Salmonella-reactive synovial fluid T-cells indicates that the microorganisms have been present, at least transiently, within the affected joint and thus recruited specific T-lymphocytes that might initiate synovitis.