Allogeneic gene-modified tumor cells (RCC-26/IL-7/CD80) as a vaccine in patients with metastatic renal cell cancer: a clinical phase-I study.

Despite novel targeted agents, prognosis of metastatic renal cell cancer (RCC) remains poor, and experimental therapeutic strategies are warranted. Transfection of tumor cells with co-stimulatory molecules and/or cytokines is able to increase immunogenicity. Therefore, in our clinical study, 10 human leukocyte antigen (HLA)-A(*)0201(+) patients with histologically-confirmed progressive metastatic clear cell RCC were immunized repetitively over 22 weeks with 2.5-40 × 10(6) interleukin (IL)-7/CD80 cotransfected allogeneic HLA-A(*)0201(+) tumor cells (RCC26/IL-7/CD80). Endpoints of the study were feasibility, safety, immunological and clinical responses. Vaccination was feasible and safe. In all, 50% of the patients showed stable disease throughout the study; the median time to progression was 18 weeks. However, vaccination with allogeneic RCC26/IL-7/CD80 tumor cells was not able to induce TH1-polarized immune responses. A TH2 cytokine profile with increasing amounts of antigen-specific IL-10 secretion was observed in most of the responding patients. Interferon-γ secretion by patient lymphocytes upon antigen-specific and non-specific stimulation was substantially impaired, both before and during vaccination, as compared with healthy controls. This is possibly due to profound tumor-induced immunosuppression, which may prevent induction of antitumor immune responses by the gene-modified vaccine. Vaccination in minimal residual disease with concurrent depletion of regulatory cells might be one strategy to overcome this limitation.

Allogeneic retrovirally transduced, IL-2- and IFN-gamma-secreting cancer cell vaccine in patients with hormone refractory prostate cancer--a phase I clinical trial.

BACKGROUND: The purpose of this vaccine study was to determine the safety and feasibility of vaccination with an allogeneic prostate carcinoma cell line, LNCaP, expressing recombinant interleukin-2 (IL-2) and interferon-gamma (IFN-gamma) and to evaluate the efficacy of inducing tumor-specific immune responses in HLA-A2-matched patients with hormone refractory prostate cancer (HRPC). METHODS: In a dose-escalating phase I study, HLA-A2-matched HRPC patients received four vaccinations of irradiated allogeneic LNCaP cells retrovirally transduced to secrete IL-2 and IFN-gamma at study day 1, 15, 29 and 92 and subsequently every 91 days unless tumor progression was evident. RESULTS: Three patients receiving the first dose level (7.5 million cells) showed no evidence of dose-limiting toxicity or vaccine-related adverse events including autoimmunity. One of three patients receiving the second dose level (15 million cells) developed a transient self-limiting grade 3 local injection site reaction (ulceration) after the eighth vaccination. Vaccine-induced immune responses against a broad array of prostate tumor associated antigens were detected in all six patients. Two of the three patients receiving the higher dose showed a decline in serum prostate-specific antigen (PSA) values of more than 50%, with one patient remaining on protocol for 3 years. CONCLUSIONS: Immunisation with the allogeneic LNCaP/IL-2/IFN-gamma vaccine is safe and feasible without any dose-limiting toxicity or autoimmunity. A 50% PSA decline was achieved in two of the six patients. This encouraging data provides the scientific rationale for further investigation of the vaccine in a phase II trial.

Adoptive tumor therapy with T lymphocytes enriched through an IFN-gamma capture assay.

Successful adoptive T-cell therapy has been demonstrated in viral disease and selected forms of cancer. However, it is limited by the difficulty to efficiently isolate and amplify autologous tumor-reactive T-cell clones. Tetramers of major histocompatibility complex (MHC) class I and peptide have facilitated the characterization of CD8+ T cells specific for tumor-associated antigens. However, for adoptive T-cell therapy, MHC-tetramers have limitations: they require knowledge of tumor antigens, which is often not available; they select T cells with a single specificity, thereby posing risk for selection of tumor escape variants; they do not select for function, so that T cells may be anergic when isolated from cancer patients; and they do not allow the isolation of CD4+ T cells that can be essential for tumor rejection. Because interferon (IFN)-gamma is essential for tumor rejection, we isolated live T cells based on their IFN-gamma production. IFN-gamma secreted by previously activated T cells is retained on the cell surface, allowing their specific isolation and expansion. We show here that IFN-gamma+ but not IFN-gamma- T cells from tumor-immunized mice are cytolytic and mediate tumor rejection upon adoptive transfer. Importantly, tumor-specific T cells can be enriched from lymphocytes infiltrating human renal cell carcinoma by the IFN-gamma capture assay.

Lysis of prostate carcinoma cells by trifunctional bispecific antibodies (alpha EpCAM x alpha CD3).

Bispecific monoclonal antibodies (bsAbs) are a promising immunotherapeutic option for treatment of cancer, especially in situations of minimal residual disease. The combination of an anti-CD3 and anti-tumor-associated antigen antibody redirects cytotoxic T-lymphocytes towards malignant cells. Using a trifunctional bispecific antibody against EpCAM x CD3, that additionally activates Fc gamma R(+) accessory cells via its Fc region, we investigated the interaction between three EpCAM(+) prostate carcinoma cell lines and peripheral blood mononuclear cells (PBMCs) of healthy donors and patients with prostate carcinoma (PC). Visualization was performed by double immunocytochemical methods and computerized sequential video microscopy. Tumor cells and PBMCs supplemented with alpha EpCAM x alpha CD3 in 16-well chamber slides resulted in lysis of tumor cells within 1--3 days without any differences between patient and healthy donor PBMCs. The characteristic necrotic way of tumor cell killing (rounding, swelling, disrupting) could be observed in computerized sequences of video frames. Simultaneously, we could not reveal any form of apoptotic signal using three different apoptotic markers (TUNEL, M30 cyto death, anti-active caspase 3). Within the first 48 hr we observed typical PBMC cluster formation with increasing cell proliferation. PBMCs surrounding the tumor cells were not dominated by CD4(+), CD8(+), or CD14(+) cells. Lymphocytes with pore-forming perforin proteins concentrated towards the tumor target cells. Our combination of double immunocytochemical and computerized video microscopic techniques may serve as an important improvement of validity of cell-cell interaction experiments using in vitro models. (J Histochem Cytochem 49:911-917, 2001)

Immunomagnetic cell enrichment detects more disseminated cancer cells than immunocytochemistry in vitro.

PURPOSE: We describe a method to improve tumor cell detection compared to currently available immunocytochemical methods by using immunomagnetic cell enrichment. MATERIALS AND METHODS: Two different methods of immunomagnetic cell enrichment using antibody coated magnetic beads were tested and compared with unenriched immunocytochemistry. One method was positive selection of epithelial cells from mononuclear cells with the antiepithelial antibody BER-EP4 and the other was depletion of mononuclear cells with the antileukocyte antibody CD45. Mononuclear cells were isolated from peripheral blood by density centrifugation and various numbers of tumor cells were added. The 5 different cell lines from urological malignancies used in the study were DU-145, RT-4, CAKI-2, KTCTL-2 and KTCTL-30. Following incubation of cell suspensions with the beads, cell separation was performed in a magnetic field. After centrifugation on glass slides immunocytochemical staining for cytokeratin was performed. A total of 112 experiments were completed and negative controls were obtained. RESULTS: The number of tumor cells detected by positive selection and depletion was significantly higher than by immunocytochemistry (p <0.001). The median enrichment factor and tumor cell recovery rate for positive selection and depletion were 15.3 and 61.2%, and 13.0 and 57.3%, respectively (not significant). With less than 1 tumor cell suspended in 106 mononuclear cells, the probability of tumor cell detection was 23% for immunocytochemistry alone and 93.3% for both enrichment methods (p <0.01). No false-positive results were observed. CONCLUSIONS: Compared to immunocytochemistry, immunomagnetic cell enrichment significantly improves the sensitivity of detection of epithelial cells added to mononuclear cells. Both methods of enrichment were equally effective and may be important for clinical practice in the future.

Allogeneic vaccination for renal cell carcinoma: development and monitoring.

An allogeneic tumor cell vaccine should display a natural immunogenicity that allows the stimulation of tumor-reactive effector cells in patients. Furthermore, the vaccine should express antigens that are shared by many tumors to which patients are not tolerant. A variety of tumor peptides should be presented by different HLA-molecules due to limited MHC matching with recipients and last but not least, the vaccine should have a strong growth potential in vitro to allow adequate amounts of vaccine to be generated for long-term usage. In vitro and in situ studies with the renal cell carcinoma cell line RCC-26 demonstrate: (1) RCC-26 can induce complex allospecific responses through direct priming; (2) RCC-26 can not only reactivate cytotoxic T lymphocytes (CTL) of a memory phenotype but they also can induce de novo tumor-antigen associated responses in normal donors; (3) these cells present epitopes restricted by several MHC molecules, allowing the vaccination of patients matched for different HLA alleles; and (4) they stimulate HLA-A*0201-restricted T cells bearing characteristic T cell receptors (TCR). Thus, in addition to using limiting dilution killer and ELISPOT assays, molecular tracking of a tumor-specific TCR can be used to judge the development of antitumor reactivity and vaccine efficiency.

A PCR-SSP method to specifically select HLA-A*0201 individuals for immunotherapeutic studies.

HLA-A*0201 is an important restriction element for peptide presentation to T cells in disease and cancer. Mutation studies and analyses using cytotoxic T lymphocytes have shown the functional relevance of subtype-specific differences in HLA-A2 molecules for peptide binding and T-cell receptor recognition. Therefore, many immunotherapeutic studies need to accurately select HLA-A*0201-positive individuals. We designed an easy, robust approach based on the polymerase chain reaction using sequence-specific primers (PCR-SSP) to specifically distinguish A*0201-positive individuals from other HLA-A2 subtypes described to date. The first step includes reactions that give information whether the sample donor is HLA-A2 and, if so, whether the individual is homozygous or heterozygous for HLA-A2. Further, it is determined whether the sample has an HLA-A*0209 or an HLA-A*0201 sequence at the corresponding position in exon 4. Samples that may contain an HLA-A*0201 allele according to the results of this first step are subtyped in a second step nested PCR. Here the strategy is focussed on the discrimination of HLA-A*0201 from the other subtypes by considering divergent nucleotide positions in two ways. One SSP combination amplifies the HLA-A*0201 sequence while a corresponding SSP combination specifically amplifies the subtype or group of subtypes differing from HLA-A*0201 at this position. Thus, at relevant polymorphic nucleotide positions the HLA-A*0201 sequence is both directly and indirectly confirmed. This strategy strongly enhances the reliability of the subtyping and allows better verification of HLA-A*0201-positive patient selection for clinical studies.

HSP expression in human leukocytes is modulated by endurance exercise.

PURPOSE: Temperature increase, oxidative stress, and inflammatory reactions after endurance exercise were expected to stimulate the synthesis of heat shock proteins (HSP) in peripheral blood leukocytes. Furthermore, it was of interest whether regular endurance training influences HSP expression. METHODS: The expression of HSP27, HSP60, HSP70, constitutive HSC70, and HSP90 in the cytoplasma and surface of lymphocytes, monocytes, and granulocytes of 12 trained athletes was analyzed by flow cytometry before and after (0, 3, and 24 h) a half marathon. Twelve untrained persons at rest were included as control. RESULTS: After the race, there was a significantly greater percentage of leukocytes expressing cytoplasmic HSP27, HSP60, and HSP70 (P < 0.01), whereas HSC70 and HSP90 remained unchanged. The fluorescence intensity increased significantly in monocytes for HSP27 (0 and 3 h) and HSP70 (0, 3, and 24 h) and in granulocytes, only 24 h postexercise for HSP70. The percent values of trained athletes at rest were significantly lower compared with untrained persons (P < 0,01). CONCLUSIONS: Strenuous exercise increased HSP expression in blood immediately after the run, indicating a protective function of HSP in leukocytes of athletes to maintain function after heavy exercise. The downregulation of HSP-positive cells in trained athletes at rest seems to be a result of adaptation mechanisms to regular endurance training.

Expression of B7.1 (CD80) in a renal cell carcinoma line allows expansion of tumor-associated cytotoxic T lymphocytes in the presence of an alloresponse.

We have selected a well-characterized human renal cell carcinoma (RCC) line as the basis for development of a genetically engineered tumor cell vaccine to be applied in an allogeneic setting. This cell line was genetically modified by retroviral transduction to express B7.1 costimulatory molecules. The unmodified tumor cells and B7.1-expressing tumor cells were compared for their ability to induce tumor-associated responses in allogeneic peripheral blood mononuclear cells (PBMC) of two normal control donors having single MHC class I allele matches with the tumor cells. PBMC primed using B7.1-modified tumor cells showed a preponderance of CD3+CD8+ cytotoxic T lymphocytes (CTL) that proliferated over extended periods of time in mixed lymphocyte tumor cell (MLTC) cultures. Strong cytolytic activity developed in the primed populations and included allospecific CTL with specificity for mismatched HLA-A, -B and -C molecules. Nevertheless, it was possible to isolate CTL clones that were able to lyse tumor cells but not lymphoblastoid cells that expressed all the corresponding allospecificities. Thus, induction of complex allospecific responses did not hinder the development of tumor-associated CTL in vitro. These results support the use of this genetically modified allogeneic tumor cell line for vaccination of partial-MHC matched RCC patients.

Cytokine modulation of TH1/TH2 phenotype differentiation in directly alloresponsive CD4+ human T cells.

Organ graft rejection is caused by the recognition of allogeneic MHC molecules by recipient T cells by two different pathways. The indirect pathway of alloreactivity requires the presentation of MHC peptides from the graft by autologous APC, as with conventional antigen. The direct pathway, on the other hand, requires the recognition of foreign MHC on foreign cells. The regulatory mechanisms for this component of alloreactivity have not been extensively studied. We show here that the T cell response activated by alloantigens in the direct pathway is similarly constrained and modulated by cytokines, as has been shown for classic antigen presentation. Thus, the inclusion of IL-2 or TGF-beta in MLC performed with purified responder T cells resulted in outgrowth of cells secreting IL-2 and IFN-gamma, whereas addition of IL-4, IL-10, or anti-TGF-beta encouraged outgrowth of cells secreting IL-4 and IL-10. T cells alloactivated via the direct pathway and then cloned in IL-2 alone secreted IL-4 and IL-10 as well as IFN-gamma and IL-2 (Th0 phenotype). Established clones remained susceptible to cytokine modulation, such that IL-4 and IL-10 decreased their secretion of IL-2 and IFN-gamma, whereas TGF-beta suppressed IL-4 and IL-10 secretion. The first alterations of Th0 toward Th1 or Th2 phenotypes could already be observed after only a very brief exposure to cytokines of 48 hr, followed by extended culture with IL-2 alone. These results confirm that human T cells with Th1 and Th2 phenotypes, recognizing alloantigen via the direct pathway, derive from the same IL-2-secreting precursor and can be manipulated by cytokines in an analogous fashion to conventional antigen-reactive cells. These findings may have implications for manipulating the direct pathway of alloantigen recognition in human organ transplantation.

Long-term culture of monoclonal human T lymphocytes: models for immunosenescence?

Human monoclonal T lymphocyte populations maintained in long-term culture by intermittent reactivation via the antigen receptor and supplied with exogenous interleukin 2 manifest finite proliferative lifespans. T lymphocytes cloned from mature peripheral T cells of adult donors were constantly lost from the time point of their first isolation up to an estimated maximum of 80 population doublings (PD) for the longest lived. T lymphocytes cloned from T cell progenitors in bone marrow, on the other hand, survived for a maximum of ca. 100 PD. One facet of the functional capacity of cells derived from these two different sources was assessed by measuring their autocrine proliferation after mitogenic stimulation. For a majority of T cell clones (TCC), autocrine proliferative capacity decreased as a function of culture age, becoming absent by 50 PD for adult-derived-TCC and by 70 PD for bone marrow-derived TCC, thereby clearly occurring prior to the end of the proliferative life spans of the clones. Limiting dilution frequency analysis showed that the number of autocrine proliferative precursors within these monoclonal populations declined with age, paralleling loss of autocrine proliferative capacity in the 'bulk' clones. Of a variety of surface structures monitored during culture ageing of TCC, the density of expression of the coreceptor molecule CD28 was found to correlate with decreasing autocrine proliferative capacity in two-thirds of the clones. Thus, at least for a fraction of monoclonal human T lymphocytes, decreasing autocrine proliferative capacity, a measure of clonal expansion, may correlate with decreasing numbers of CD28 molecules expressed on the surface and therefore presumably with the strength of costimulatory signal delivered via this important coreceptor.

Relative roles of natural killer- and T cell-mediated anti-leukemia effects in chronic myelogenous leukemia patients treated with interferon-alpha.

Potential anti-leukemia effects mediated by T cells or by natural killer (NK) cells were investigated in chronic myelogenous leukemia (CML) patients treated with interferon-alpha. Therapy-associated modulation of T cell and NK reactivity was monitored for one year from initiation in autologous mixed lymphocyte-tumor cell reactions and cytotoxicity directed against autologous CML cells, respectively. During the course of IFN-therapy, NK activity against autologous CML cells increased steadily, whereas T cell reactivity fluctuated randomly. Despite the high level of T cell reactivity to autologous tumor cells in short-term (6 days) culture, 1) they failed to respond to synthetic peptides corresponding to the bcr/abl fusion sequence of the patient, and 2) only one proliferative T cell clone (TCC) was isolated which specifically recognized HLA-DR-matched CML cells. This TCC appeared not to recognize synthetic peptides corresponding to the bcr/abl fusion sequence of the patient; the antigen to which it responds remains unknown. To assess potential immunogenicity of bcr/abl peptides, it was attempted to sensitize T cells from normal donors in vitro. Of 109 cell lines obtained from seven different donors, eleven showed peptide-dependent proliferation. Therefore, although these results show that it is possible to isolate apparently CML-specific T cells from patients, as well as to prime T cells against tumor-specific peptide in vitro, the frequency of such T cell-mediated reactivity appears low and its relevance to anti-leukemic effects questionable. On the other hand, the strong time-dependent enhancement of natural killing of autologous CML blasts during IFN-alpha treatment, a phenomenon not observed for T cell reactivity, suggests that natural immunity may be more important in controlling disease.

Interleukin 10 is a human T cell growth factor in vitro.

Although interleukin (IL)-10 inhibited lymphocyte proliferation in mixed lymphocyte cultures (MLC) and blocked stimulation of alloreactive T cell clones (TCC) by peripheral blood mononuclear cells (PBMC), the cells surviving culture with IL-10 showed enhanced viability. A minority of IL-2-dependent T cell lines, moreover, incorporated tritiated thymidine when cultured with IL-10 alone; their proliferation with IL-10 was dose-dependent, prevented by addition of neutralizing antisera to IL-10 but not to IL-2 and/or IL-4 and observed both shortly (4 days) and later (7-10 days) after T cell allostimulation. Examination of the proliferative responses to IL-10 of a panel of TCC revealed heterogeneity of responsiveness: whereas only one of five CD8+ TCR2 (T cell receptor alpha, beta)-TCC proliferated with IL-10, three of five CD4+ TCR2-TCC proliferated, one of them strongly. In contrast, all three TCR1(gamma delta)-TCC tested responded to IL-10, albeit rather weakly. These results therefore suggest that in addition to its well-established inhibitory action on T cell activation, IL-10 may also exert positive influences on clonal expansion of subsets of preactivated T cells.

Human gamma delta T cells are resistant to induction of anergy but not to induction of cell death in vitro.

A condition of hyporesponsiveness can be induced in certain mature human alpha beta (TCR2) cells relatively easily by their stimulation in the absence of costimulatory signals (signal 1 alone). This state of "anergy" has been implicated in tolerance to self and transplanted organs as well as tumors and may represent an important regulatory component of immune responsiveness. Little is known about whether the same condition applies to gamma delta (TCR1) cells. We therefore undertook to investigate anergy induction in TCR1 cell clones using several approaches known to induce this state in TCR2 cells. First, TCR1 clones were found not to be anergized by culture on immobilized CD3 monoclonal antibody (mAb), while the majority of TCR2 clones were anergized. Second, blocking of autocrine proliferation (stimulated in TCR1 or TCR2 clones by mitogen in the presence of accessory cells) using CTLA-4-lg, a soluble B7 family counterreceptor resulted in anergy induction in TCR2 cells but not TCR1 cells, although experiments with CHO cells transfected with B7-1 (CD80) genes confirmed that these TCR1 clones were responsive to costimulation with B7. Third, blocking mitogen-induced proliferation with anti-IL 2 receptor antibodies and anti-IL 2 antisera resulted in anergy induction in TCR2 but not TCR1 cells. Fourth, stimulation with the calcium ionophore ionomycin also anergized TCR2 but not TCR1 cells. In all four systems, but especially in the latter, stimulation by signal 1 alone resulted in high levels of cell death (> 50%) which was similar for both TCR1 and TCR2 cells. Therefore, these data may reflect a high level of resistance to tolerance induction (manifested as proliferative anergy) but not to clonal deletion (manifested as stimulation-dependent cell death) on the part of TCR1 cells.

Role of three quantitatively dominant endogenous peptides from HLA-DRB1*0401 molecules in class II specific alloreactivity.

Alloreactivity remains an important barrier to organ transplantation and is caused by T cell recognition of foreign histocompatibility antigens (HAg) in two ways: (1) indirect recognition, in which processed HAg peptides are presented by self MHC like any other foreign antigen, and (2) direct recognition, where the foreign MHC itself is recognized in contravention of the T cell recognition rule of self restriction. Whereas the role of endogenous peptides in direct MHC class I specific recognition is now established, their role in class II specific direct alloreactivity remains controversial, since no defined endogenous peptide has been shown to be required for alloreactivity. That mutations resulting in defective antigen processing impair class II specific allostimulation, however, suggests that the endogenous pathway is important for class II as well as class I alloreactivity. We attempted to establish the importance of endogenous peptides for alloreactivity by identifying common sequences of peptides bound by DR molecules of an HLA-DRB1*0401 homozygous B cell line. Peptides corresponding to three of these (calreticulin, HLA class I and an unidentified molecule) were used to restimulate established allospecific HLA-Dw4 reactive T cell clones, as well as to sensitize allogeneic T cells de novo in vitro. Xenogeneic chinese hamster ovary (CHO) cells coexpressing the relevant DR allele together with CD80 were used as antigen presenting cells. The role of CD80 could be determined on these cells because (1) they are xenogeneic and (2) they do not express B7 family members bound by CTLA-4Ig.(ABSTRACT TRUNCATED AT 250 WORDS)

Requirements for stimulation or anergy induction in alloreactive human T cell clones.

The "two signal" concept for T cell activation is widely accepted. Signal 1 is commonly delivered via the antigen receptor, and signal 2 via accessory interactions. Delivery of both signals results in activation, signal 1 alone in induction of hyporesponsiveness. The nature of signal 1 in alloreactivity is not completely clear; most evidence suggests that a complex of foreign major histocompatibility complex molecules and their bound peptides is recognized. Interactions between B7 (CD80) ligand and CD28/CTLA-4 receptors are currently considered the most important sources of signal 2. Xenogeneic cells transfected with human genes provide useful stimulators for dissecting signals 1 and 2 in alloreactivity. We show here that the majority of DR-specific alloreactive T cell clones (TCC) fails to recognize Chinese hamster ovary (CHO) cells transfected with human DR, whether or not these are cotransfected with genes for CD80 or LFA-3. Stimulation was not observed even in the presence of a pool of peptides isolated by low pH release from B cell line (BCL)-derived DR molecules, or in the presence of synthetic peptides corresponding to the sequences of the three most commonly identified endogenous peptides. Lack of recognition was observed both in failure to stimulate proliferation and in failure to induce anergy. However, one TCC was identified which responded weakly to DR+ CHO cells, and for this clone, the presence of either CD80 or LFA-3 strongly enhanced proliferative responses. Anergy was not induced, even in the absence of CD80. Immobilized HLA-DR molecules purified from a BCL also failed to stimulate proliferation, but unlike the CHO transfectants, they did induce anergy. Stimulation with BCL also induced anergy if CD80-dependent interactions were blocked with soluble CTLA-4-Ig receptor. These results are consistent with the model that DR molecules expressed in the absence of appropriate peptide are simply not recognized by most alloreactive T cells, whereas DR molecules containing appropriate bound peptide are recognized as signal 1 and induce anergy. CTLA-4-Ig blocking confirms that CD80-dependent interactions can be important in preventing anergy induction, but that they are not always necessary is illustrated by the existence of a single clone which recognized DR molecules on CHO transfectants, giving very weak proliferation without CD80, and nonetheless no anergy induction.

Extrathymic development and function of human T-lymphocytes from bone marrow cells in vitro.

To enrich low-density human bone marrow (BM) cells for putative progenitors of T-lymphocytes, CD7+ CD3- cells were sorted (purity was estimated at > 99.9%) and cultured under limiting dilution conditions with irradiated allogeneic stimulator cells, interleukin (IL) 2, and PHA. Clonal populations were available for analysis from Day 25 onward. By this time, all clones (n = 54) expressed CD3 and alpha/beta-T cell receptor (TCR2). Fifty percent of the clones were CD4+ and 50% were CD8+, with no double positives, whereas almost all clones obtained under identical conditions from peripheral blood (PB) cells were CD4+. All clones were capable of autocrine proliferation, which was blocked by CD25 or CD71 mAb. Most or all clones tested (n = 15) responded to IL 4 and IL 7 as well as IL 2, but not to IL 3 or GM-CSF and only two responded to IL 9. Most clones accumulated mRNA for GM-CSF, IL 2, IL 3, IL 4, IL 5 and also IL 9, but 6 of 11 were negative for IFN-gamma mRNA, and all were negative for IL 6 mRNA. Sixty-two percent of CD4+ and 85% of CD8+ clones (total 70% of all clones) mediated lectin-dependent cell lysis; but whereas 35% of CD4+ and 65% of CD8+ clones (total 46% of all clones) lysed K562 natural killer (NK)-susceptible targets, only 24% of CD4+ and 5% of CD8+ clones (total 17% of all clones) killed lymphokine-activated killer (LAK)-susceptible Daudi cells. Only three clones lysed allogeneic LCL targets and none lysed autologous targets. Furthermore, none of the clones proliferated when stimulated by autologous cells, neither did they suppress proliferative responses of autologous cells. These results suggest that CD3- cells from the bone marrow can acquire functional cytotoxic and proliferative programs extrathymically during in vitro culture with IL 2, mitogens and allogeneic cells, but do not manifest autoreactivity in the three test systems, cytotoxicity, suppression, or autocrine proliferation.

Properdin, a positive regulator of complement activation, is expressed in human T cell lines and peripheral blood T cells.

Properdin plays an important regulatory role in the activation of the complement system. Here we report the biosynthesis of properdin in four different human T cell lines and in T cells purified from peripheral blood. Cell sorting experiments, in conjunction with Northern blotting, showed that both CD4- and CD8-bearing populations of T cells have the potential to synthesize properdin. The functional activity of properdin secreted from these T cell lines was determined in a hemolytic assay. In view of the numerous ways in which complement activation may influence cellular immune response, the present results indicate, for the first time, a possible interaction between the complement and the T cell system.