Ex vivo generation of functional dendritic cells from mobilized CD34+ hematopoietic stem cells

Gene engineering to enhance tumour immunogenicity and elicit curative responses against established tumours and tumour recurrences has become an attractive prospect. Gene engineering enables new genes to be selectively inserted into the genome of a tumour cell, or the construction of new fusion plasmids coding tumour antigens and immunomodulatory molecules. The rationale behind current research is to enhance the immune recognition of tumour antigens through their association with the molecules on which immune recognition depends. The immunotherapy data obtained in many experimental tumour systems provide a realistic assessment of the potential and limits of this technological approach. Experimental vaccination of rodents has been shown to induce a significant immune memory, even against poorly immunogenic tumours, that can prevent tumour growth and cure initial metastases, but is poorly effective against established tumours. Its use in tumour prevention is a fresh dawning perspective.     

Ex vivo expansion of haemopoietic progenitor cells

Over the last few years, techniques have become available that allow the extensive proliferation of haemopoietic progenitor cells in ex vivo culture systems. The most commonly used method involves a simple liquid suspension culture system supplemented with a range of cytokines. Alternatively, more complex systems have been devised in which the formation of a stromal layer is required. Large increases in total cell numbers and committed progenitor cells can be readily obtained and, with some techniques, significant expansion of primitive haemopoietic cells has been demonstrated. Although these strategies have several potential applications, few clinical studies have been performed. It has been shown that infusion of ex vivo cultured cells is well tolerated with no associated toxicity. However, it is still unclear whether these culture systems sustain sufficient numbers of long-term repopulating cells to secure durable engraftment following myeloablative therapy. In gene therapy studies, ex vivo expansion of stem cells should improve the efficiency of gene transduction to enable the production of genetically modified cells that are capable of expressing the gene of interest for extended periods of time.     

Ex vivo staining of metastatic lymph nodes by class I major histocompatibility complex tetramers reveals high numbers of antigen-experienced tumor-specific cytolytic T lymphocytes

Characterization of cytolytic T lymphocyte (CTL) responses to tumor antigens has been impeded by a lack of direct assays of CTL activity. We have synthesized reagents ("tetramers") that specifically stain CTLs recognizing melanoma antigens. Tetramer staining of tumor-infiltrated lymph nodes ex vivo revealed high frequencies of tumor-specific CTLs which were antigen-experienced by surface phenotype. In vitro culture of lymph node cells with cytokines resulted in very large expansions of tumor-specific CTLs that were dependent on the presence of tumor cells in the lymph nodes. Tetramer-guided sorting by flow cytometer allowed isolation of melanoma-specific CTLs and confirmation of their specificity and their ability to lyse autologous tumor cells. Our results demonstrate the value of these novel reagents for monitoring tumor-specific CTL responses and for generating CTLs for adoptive immunotherapy. These data also indicate that strong CTL responses to melanoma often occur in vivo, and that the reactive CTLs have substantial proliferative and tumoricidal potential.     

An antimicrobial activity of cytolytic T cells mediated by granulysin

Cytolytic T lymphocytes (CTLs) kill intracellular pathogens by a granule-dependent mechanism. Granulysin, a protein found in granules of CTLs, reduced the viability of a broad spectrum of pathogenic bacteria, fungi, and parasites in vitro. Granulysin directly killed extracellular Mycobacterium tuberculosis, altering the membrane integrity of the bacillus, and, in combination with perforin, decreased the viability of intracellular M. tuberculosis. The ability of CTLs to kill intracellular M. tuberculosis was dependent on the presence of granulysin in cytotoxic granules, defining a mechanism by which T cells directly contribute to immunity against intracellular pathogens.     

Eradication of residual disease by administration of leukemia-specific T cells after experimental allogeneic bone marrow transplantation

Phage display selection strategies rely on the physical link between the displayed heterologous protein ligand and the DNA encoding it. Thus, genes expressing a ligand with a specific binding affinity can be selected rapidly. To improve the specificity and sensitivity of this technology for potential use in identifying ligands to a specific antibody present in a complex mixture, we incorporated a DNA selection step along with the phage display technology. Ligands for hepatitis C virus (HCV) antibodies present in serum were identified by panning a phage-displayed random peptide library against pools of serum HCV antibodies. An additional DNA hybridization screening step using single-stranded DNA isolated from one of the pools increased the specificity and sensitivity, resulting in the selection of an HCV antibody ligand with diagnostic potential.     

Ex vivo clonotype primer-directed gene amplification to identify malignant T cell repertoires

The effect of weight on mortality was examined using data from the first National Health and Nutrition Examination Survey (NHANES I) Epidemiologic Follow-up Study for white women aged 65 to 74 years at baseline. There was a U-shaped curve relating the Quetelet index categories to total mortality, with increased risk for both lean and heavy women. However, the increased risk to lean subjects occurred only among those who had lost more than 8.55% from their reported lifetime maximum weight. Controlling for baseline medical conditions, excluding early years of follow-up, and limiting the analysis to never-smokers did not greatly change the results. Lean women with stable weight have the lowest risk of mortality, while those who have lost weight have a high risk. Heavy women have a high risk of mortality regardless of weight-loss history. Thus, the effect of weight on mortality is modified by history of weight loss in older women, even when accounting for factors associated with weight loss and increased mortality risk.     

Perforins in human cytolytic cells: the effect of age

The ageing process is associated with a progressive increase in the number of circulating NK cells, together with a decreased lytic activity per cell. A similar decrease in activity was also found for CD8 lymphocytes. Cytotoxic T- and NK cells express cytoplasm granules containing cytolytic effector molecules (as perforins, studied here) which can recognize and destroy damaged, infected and/or mutated target cells. To investigate whether an altered distribution of perforins in cytolytic cells or a reduced number of cytolytic cells producing perforins underlies decreased cytolytic activity with advancing age, perforin expression was assessed at the single cell level in T- (CD4 and CD8) and NK (CD16) peripheral blood lymphocytes from elderly subjects by flow cytometry. Perforin distribution at the cellular level in CD8+ and CD16+ cell cytoplasm suggested a similar distribution during ageing and a similar number of cells producing perforins. In addition, perforin utilization was maintained in the generation of cytolytic activity against K562 target cells and perforin synthesis in culture following activation was unabated. These data stress the importance of other factors, such as defective signal transduction for granule exocytosis, that may account for the different pattern of lytic activity found in aged people.     

Ex vivo transduction of corneal epithelial progenitor cells using a retroviral vector

An in vivo model was used to determine whether bone hyperemia precedes increased intracortical porosity induced by disuse. Twenty-four adult male roosters (age 1 yr) were randomly assigned to intact-control, 7-days-sham-surgery, 7-days-disuse, and 14-days-disuse groups. Disuse was achieved by isolating the left ulna diaphysis from physical loading via parallel metaphyseal osteotomies. The right ulna served as an intact contralateral control. Colored microspheres were used to assess middiaphyseal bone blood flow. Bone blood flow was symmetric between the left and right ulnae of the intact-control and sham-surgery groups. After 7 days of disuse, median (+/-95% confidence interval) standardized blood flow was significantly elevated compared with the contralateral bone (6.5 +/- 5.2 vs. 1.0 +/- 0.8 ml x min-1 x 100 g-1; P = 0.03). After 14 days of disuse, blood flow was also elevated but to a lesser extent. Intracortical porosity in the sham-surgery and 7-days-disuse bones was not elevated compared with intact-control bones. At 14 days of disuse, the area of intracortical porosity was significantly elevated compared with intact control bones (0.015 +/- 0.02 vs. 0. 002 +/- 0.002 mm2; P = 0.03). We conclude that disuse induces bone hyperemia before an increase in intracortical porosity. The potential interaction between bone vasoregulation and bone cell dynamics remains to be studied.     

Induction of autologous reactivity of human NK cells

'Mature' human natural killer cell activity could be enriched by adsorption-elution with fetal fibroblast as adsorbents against normal allogeneic skin fibroblasts, but not against autologous targets. However, when the natural killer activity was augmented by contact with tumour cells (HeLa), autologous and allogeneic skin fibroblast targets were killed without preference. Adsorption-elution with augmenting target cells as adsorbents resulted in an efficient enrichment of NK activity showing non-discriminate cytotoxicity. Morphologically, this was associated with an enrichment of large granular lymphocytes previously shown to be responsible for human NK activity. We conclude that the NK activity of human 'mature' NK cells shows a relative autologous exemption, whereas 'pre-NK' cells augmented to full activity in vitro are non-discriminative.     

IL-10 inhibits alloreactive cytotoxic T lymphocyte generation in vivo

In this report, we present evidence that the CTL response directed against MHC Class I allo-determinants can be inhibited as a result of IL-10 expression in vivo. The presence of localized IL-10 secretion at the site of allogeneic tumor cell challenge resulted in marked inhibition of the CTL response and allowed growth of the tumor in the allogeneic host. Using purified CD4+ T cells from mice immunized in the presence or absence of IL-10, we have shown that the loss of alloreactivity as a consequence of IL-10 expression results from the inhibition of CD4+ T cell function. The expression of either IL-2 or IFN-gamma with IL-10 locally at the time of allogeneic cell challenge completely restored CTL alloreactivity, suggesting that the action of IL-10 could be bypassed by providing helper T lymphocyte-derived cytokines of the Th1 type at the site of immunization. Inhibition of alloreactivity by IL-10 was observed using either purified macrophages or dendritic cells as APC in an in vitro assay. Thus, the expression of IL-10 following antigenic challenge (such as that observed in Th2-like immune responses) may profoundly limit the ability for generating functional CTL in vivo.     

Human delayed-type hypersensitivity reaction in a SCID mouse engrafted with human T cells and autologous skin

We have developed and animal model to study human delayed-type hypersensitivity reactions occurring in a human environment within a mouse host. Human skin was grafted onto the backs and autologous human immune cells were injected into the peritoneal cavity of mice with severe combined immunodeficiency. Seven and 14 d after grafting, 2-50% of total white blood and spleen cells were of human origin. Mouse spleen-derived human T cells from tetanus toxoid-sensitized donors proliferated in response to tetanus toxoid as measured by [3H]thymidine uptake, and the strength of this proliferative response equaled that with pre-graft T cells from the same donor. Proliferation was blocked with monoclonal antibodies to human but not to mouse major histocompatibility complex antigens and with anti-human CD4 monoclonal antibodies. In vivo vaccination of mice with tetanus toxoid did not enhance proliferation of mouse spleen-derived human T cells in response to antigen. Injection of tetanus toxoid into the human skin graft caused a perivascular human CD4+/CD25+ T-cell infiltrate, which was not present when tetanus toxoid was injected into adjacent mouse skin. We conclude that human T cells grafted into mice with severe combined immunodeficiency retain their function, that human T cells specifically recognize human but not mouse skin as homing sites, and that human T-cell responses depend on the human micro-environment. This model lends itself to studies of endothelium-T-cell interactions, T-cell activation within skin, and chronic inflammatory skin diseases.     

PRAME, a gene encoding an antigen recognized on a human melanoma by cytolytic T cells, is expressed in acute leukaemia cells

Gene PRAME was found to encode an antigen recognized on a human melanoma cell line by an autologous cytolytic T-lymphocyte clone. This gene is expressed at a high level in a very large fraction of tumours, such as melanomas, non-small-cell lung carcinomas, sarcomas, head and neck tumours and renal carcinomas. It is therefore a candidate for tumour immunotherapy even though some low expression is found in certain normal tissues. We tested by RT-PCR the expression of PRAME on more than 250 bone marrow or blood samples from patients with a haematological malignancy. Approximately 25% of the acute leukaemia samples were positive. Remarkably, all acute myeloblastic leukaemias that carried the chromosomal translocation t(8;21), which fuses the genes AML1 and ETO, expressed PRAME at a high level.     

Selection of T cells reactive against autologous B lymphoblastoid cells during chronic rheumatoid arthritis

The repertoire and Ag specificity of T cells infiltrating inflamed joints from a chronic rheumatoid arthritis (RA) patient were studied in detail. Repertoire analysis demonstrated a reduced clonality of joint-infiltrating lymphocytes (JIL) as compared with patient's PBL, which was presumably due to an intra-articular expansion of T cell clones with recurrent TCR features. Strikingly, a large fraction of these JIL T cell clones, which were predominantly CD8+, proliferated in vitro when exposed to autologous B lymphoblastoid cells (BLC), unlike randomly chosen PBL clones derived from the same patient. This proliferative response was HLA-restricted, which confirmed a classical TCR-mediated recognition of BLC and was not observed against autologous PHA blasts, suggesting recognition of either EBV or B cell-specific Ags. Finally, a preliminary analysis of synovial lymphocytes derived from another chronic RA patient demonstrated a similar enrichment for T cells reactive against autologous BLC within JILs as compared with patient's PBLs. Taken together, these results, which suggest frequent expansions of autologous BLC-reactive T cells within inflamed joints of chronic RA patients, provide a basis for future studies evaluating the fine specificity and pathogenicity of these lymphocytes.     

Inhibition of cytolytic T lymphocyte activity by oxysterols

The objective of this study was to investigate the effects of oxysterols (OS), namely 5 alpha-hydroxy-6-ketocholestanol, 6-ketocholestanol and 25-hydroxycholesterol, on specific cell-mediated cytotoxicity by C57BL/6 spleen cells against P815-X2 (a DBA/2 mastocytoma) target cells. Cytolytic T lymphocytes (CTL) were generated by intraperitoneally injecting C57BL/6 mice with P815-X2 tumor cells 10 d prior to the cytotoxicity experiments. Preincubation of CTL with 10(-5) M 5 alpha-hydroxy-6-ketocholestanol and 6-ketocholestanol for 45 min in lipoprotein-depleted medium resulted in an inhibition of cytolytic activity (73 and 43%, respectively) as measured by 4-h 51Cr release. At a concentration of 5 x 10(-6) M, 5 alpha-hydroxy-6-ketocholestanol inhibited CTL activity by 65%, whereas 6-ketocholestanol did not elicit any inhibition. By contrast, 25-hydroxycholesterol did not inhibit CTL at either concentration, although it is known to be a potent inhibitor of 3-hydroxy-3-methyl-glutaryl-coenzyme A reductase, the rate-limiting enzyme in the cholesterol biosynthetic pathway. When CTL were preincubated with OS in lipoprotein-replete medium, there was no inhibition of CTL activity at the respective concentrations. The results suggest that the inhibition of CTL activity upon short-term incubation with OS is not due to the inhibition of cholesterol synthesis, but may be due to the insertion of OS into the plasma membrane to replace cholesterol and alteration of membrane physical properties.     

Contribution of tyrosine kinases to the selective orientation of human CD4+ bifunctional cloned T cells toward proliferation or cytolytic function

We show that T cell activation of human CD4+ cloned T cells through the CD2 molecule can induce either autocrine proliferation or cytolysis, depending on the pair of anti-CD2 mAbs used for stimulation, that is, D66/T11(1) or GT2/T11(1), respectively. As the earliest biochemical event after CD2 stimulation is likely the induction of tyrosine phosphorylation of various proteins, we investigated whether differential activation of protein tyrosine kinases (PTKs) could contribute to the selective induction of each function. Results show that herbimycin A, a potent PTK inhibitor, markedly decreased the induction of both proliferation and cytolysis. This implies a regulatory role for tyrosine phosphorylation in the induction of each function by CD2. However, that PTKs are differentially activated upon induction of proliferation by D66/T11(1) or cytotoxic function by GT2/T11(1) emanated from two different approaches. First, immunoblotting total cellular extracts with an anti-phosphotyrosine mAb showed different patterns of tyrosine phosphorylation depending on the pair of CD2 mAbs used for stimulation. Second, a differential activation of p56lck, a src-related PTK, was observed after stimulation with D66/T11, and GT2/T11(1). Although induction of proliferation by D66/T11(1) was correlated with increased Lck activity, this was not observed when cells were triggered to lyse by GT2/T11(1). Thus, by providing striking correlative evidences linking differences in PTK activation with induction of different functions in bifunctional cloned T cells, our results strongly suggest that PTKs may contribute to the selective orientation of T cell functions at a single-cell level.     

Analysis of MAGE-3-specific cytolytic T lymphocytes in human leukocyte antigen-A2 melanoma patients

The MAGE-3 gene is a member of a multigene family that is selectively expressed by subsets of different human tumor types, including malignant melanoma, but not by normal tissues except for testis and placenta. A cytolytic T lymphocyte (CTL)-defined MAGE-3 antigen, corresponding to the MAGE-3 peptide 271-279 associated with the human leukocyte antigen (HLA)-A2 molecule, has been recently identified using T lymphocytes from a normal individual stimulated in vitro with peptide-pulsed autologous antigen-presenting cells. Because MAGE-3 is expressed in 76% of metastatic melanomas, the HLA-A2-restricted MAGE-3 antigen should be expressed by approximately 37% of Caucasians bearing a metastatic melanoma tumor, thus representing an attractive candidate for the elicitation of specific CTL immune responses in vivo. In this study, we determined the proportion of HLA-A2+ melanoma patients displaying detectable MAGE-3 peptide 271-279-specific CTL precursors in peripheral blood. Peptide-specific CTL populations were obtained from at least 4 of 11 HLA-A2+ patients. Peptide-specific CTL lines derived from these populations readily lysed HLA-A2-positive target cells that were pulsed with MAGE-3 peptide 271-279 at nanomolar concentrations yet were unable to recognize (as assessed by cytolysis and cytokine production) MAGE-3-expressing autologous or allogeneic HLA-A2-positive melanoma lines. Similarly, the CTL lines failed to recognize MAGE-3-negative HLA-A2-positive tumor lines after transfection with the MAGE-3 gene, although they were able to recognize COS-7 cells transfected with MAGE-3. In contrast, HLA-A1-positive melanoma lines transfected with MAGE-3 were efficiently recognized by CTL lines directed against the MAGE-3 peptide 168-176, a known HLA-A1-restricted CTL epitope. These results suggest that the expression level of the MAGE-3 peptide 271-279, unlike that of MAGE-3 peptide 168-176, in melanomas may be too low to allow efficient recognition by specific CTLs. Thus, it appears that despite the presence of CTL precursors against MAGE-3 peptide 271-279 in some HLA-A2+ melanoma patients, the usefulness of this peptide for specific immunotherapy of melanoma may be limited.     

Fas-induced apoptosis of T cells occurs independently of ceramide generation

The Fas receptor is one of a number of important physiological inducers of programmed cell death (apoptosis). Current models for regulation of this process involve rapid conversion of sphingomyelin to ceramide by cellular sphingomyelinases. Induced changes in cellular levels of such sphingosine-based ceramides are normally extrapolated from measurements of sphingomyelinase activity or following their conversion to ceramide phosphate by treatment of cellular lipid extracts with bacterial diacylglycerol kinase (DAGK). To allow direct study of cellular sphingosine- and sphinganine-based ceramide levels, we developed a mass spectrometric technique capable of determining inducible changes in both overall ceramide levels and species distribution in cellular lipid preparations. Contrary to current models, we detected no changes in cellular ceramide levels up to 2 hr poststimulation of Jurkat T cells with an anti-Fas IgM, although this treatment did induce apoptosis. We also determined in the same system that, when utilizing the DAGK assay, increased phosphorylation of substrates that comigrated with ceramide standards was apparent but that this effect was due to an enhancement of DAGK activity rather than increases in levels of cellular ceramides as substrates per se. Thus, the first direct measurement of ceramides present in cells undergoing apoptosis indicates that, insofar as it can be measured, the induction of apoptosis does not involve the generation of sphingosine-based ceramides, contrary to many published accounts.     

Differential TCR signaling and the generation of memory T cells

PURPOSE: Serum soluble interleukin-2 receptor level is a sensitive and quantitative marker of lymphocyte activation. We determined levels of serum soluble interleukin-2 receptor in children with reflux nephropathy to evaluate its clinical significance in the prediction for the progression of renal injuries. MATERIALS AND METHODS: Serum soluble interleukin-2 receptor values were determined in 63 children with reflux nephropathy. The group consisted of 37 boys and 26 girls 10 to 18 years old. T cells (naive and memory), B cells and macrophages were evaluated immunohistochemically in the scarred kidneys of 4 other patients (3 boys and 1 girl 5 to 16 years old) who underwent nephrectomy due to severe reflux nephropathy with little function seen on (99m)technetium-dimercapto-succinic acid (DMSA) renal scan. Levels of serum soluble interleukin-2 receptor were measured by an enzyme-linked immunosorbent assay. We simultaneously determined serum levels of creatinine and beta2-microglobulin, and urinary levels of alpha1-microglobulin and microalbumin. Individual functions of the right and left kidneys were estimated by renal dimercaptosuccinic acid uptake. RESULTS: Levels of serum soluble interleukin-2 receptor in the patients who had low total uptake of DMSA (right uptake plus left uptake) were significantly higher than those from patients with normal total uptake. Levels of serum soluble interleukin-2 receptor correlated significantly with levels of creatinine (r=0.616, p <0.0001) and beta2-microglobulin (r=0.803, p <0.0001), and levels of urinary alpha1-microglobulin (r=0.753, p <0.0001) and microalbumin (r=0.673, p <0.0001). A significant negative correlation was observed between levels of serum soluble interleukin-2 receptor and total DMSA uptake values (right uptake plus left uptake r=-0.678, p <0.0001). In the scarred kidneys leukocyte infiltrates were markedly increased in fibrosed spaces. The predominant cell type in these lesions was memory T cells. CONCLUSIONS: These results suggest that elevated levels of serum soluble interleukin-2 receptor are likely to reflect activated T cells in the kidneys of patients with reflux nephropathy and may be a useful predictor of progression of renal injury in these children.