Generation of natural killer-like activity in mixed lymphocyte-tumor cell cultures. II. Correlation between expression of HLA-DR antigens on the activated T cells and their cytotoxic capability

In this study, we investigated the role of DR antigens in human mixed lymphocyte reactions (MLR) at the responder cell level. Upon stimulation by allogeneic lymphocytes or leukemic cell lines, a large proportion of T cells underwent blastogenesis and began expressing DR antigens. Analysis by a fluorescence-activated cell sorter revealed that both subpopulations of large activated T cell blasts and of small T lymphocytes became DR+ by synthesis and/or uptake. Depletion of DR+ responder cells from 6-day-old MLRs by treatment with anti-DR monoclonal antibodies (mAbs) plus complement (C) reduced but did not completely abrogate the natural killer (NK)-like activity of the responder lymphocytes, suggesting that the MLR-induced cytotoxic cells include both DR+ and Dr- populations. The expression of NK-like activity by the responder cells was also greatly reduced upon addition of anti-DR mAbs (without C) at the start of the mixed cultures. This effect was observed regardless of the presence of DR antigens on the stimulator cells, indicating that the anti-DR mAbs can interact with the antigens present on both the stimulator and responder populations. These data show that during an MLR, the continued presence of DR antigens on the responding population is essential for the expression and maintenance of the proliferative and cytotoxic capabilities of these cells.     

Autologous B lymphoblastoid cell lines and long-term cultured T cells as stimulators in the mixed lymphocyte reaction: analysis of the role of HLA class II antigens as stimulatory molecules

Human activated T cells, long-term cultured in the presence of interleukin 2 (IL 2), were compared with autologous Epstein Barr virus-transformed B lymphoblastoid cell lines for expression of human leukocyte (HLA)-HLA-DR and -DQ antigens and for ability to induce proliferative responses in autologous and allogeneic lymphocytes. Immunofluorescence analysis performed with a panel of monoclonal antibodies (mAb) specific for HLA-DR or -DQ antigens did not reveal any significant difference in the expression of HLA-DR antigens but revealed reduced expression of HLA-DQ antigens on two out of four T cell lines tested. No obvious difference could be detected in the two-dimensional gel electrophoretic profile of HLA-DR and -DQ beta-chains synthesized by the autologous pairs of B and T cell lines. In contrast with previous reports, the IL 2-dependent cell lines consistently induced alloproliferative responses in standard 6-day mixed lymphocyte cultures; however, these responses were severalfold lower than those elicited by the autologous B lymphoid lines. Both anti-HLA-DR and anti-HLA-DQ mAb blocked the proliferative responses induced by the B cell lines but did not affect those generated by the T cell lines, suggesting that the latter cells induce T lymphocyte activation via a mechanism independent of HLA-DR or -DQ antigen expression on their surface. Addition of IL 2 to the mixed cultures with B cell lines as stimulators did not affect the outcome of the proliferative responses but partially or completely reversed the blocking activity of the mAb. In contrast, IL 2 significantly enhanced the alloproliferation induced by the T lymphoblastoid cell lines, and the anti-HLA class II mAb partially antagonized this effect. Taken together, these data suggest that unlike the HLA-DR and -DQ gene products on B cells, those on IL 2-dependent long-term cultured T cells do not play a direct or primary stimulatory role in the mixed lymphocyte reaction; the reduced levels of alloproliferation induced by the T cell lines are, at least in part, due to a defective production of endogenous IL 2 by the responder lymphocytes rather than to a defective expression of IL 2 receptors by the alloproliferative T cell subset; and the anti-HLA class II mAb in these cultures act only at the responder cell level, since they can efficiently block the enhancement of T cell proliferation triggered by exogenous IL 2, but not the proliferative responses induced by T cell lines in standard conditions.     

Generation of functional dendritic cells for potential use in the treatment of acute lymphoblastic leukemia

Immunotherapy of malignant diseases mediated by dendritic cells (DC) pulsed with tumor antigens ex vivo is a promising new tool in the individual treatment of malignant diseases. The present study focuses on the problem of how to optimize in vitro culture conditions and induce the maturation of DC with the capacity to induce antitumor immunity toward leukemic cells. DC were generated from peripheral mononuclear cells by co-cultivation with granulocyte/macrophage-colony stimulating factor (GM-CSF) and interleukin-4 (IL-4). Tumor antigens were added for 2 h after 7 days in culture. Irradiated leukemic blasts, blast lysate, apoptotic cells from the Jurkat cell line (T ALL) and their lysate were used in various concentrations for antigen pulsing. Harvested DC were phenotyped by flow cytometry, and viability was assessed using trypan blue exclusion (Annexin test). After the cells had been pulsed with tumor antigens and co-cultured with autologous lymphocytes, the production of interferon-gamma (IFN-gamma) and IL-12 was analyzed, and lymphocyte proliferative response and cytotoxicity against the target tumor cell line were assessed. The cultivation of monocytes under the described conditions led to the expression of surface markers typical of DC (i.e. CD83, CD86, HLA-DR, CD11c and CD40). Pulsation by antigens from leukemic cells further increased the cell populations expressing these markers. Antigen pulsation decreased the viability of generated DC depending on the increase in concentration of tumor antigens. Pulsed DC-lymphocyte interaction increased the proliferative response of lymphocytes and IFN-gamma production depending on the type of tumor antigens used for pulsation. The highest proliferative response was detected with DC pulsed with Jurkat cell-line lysate. Similarly to the proliferation assay, cytotoxic testing showed the highest efficiency of DC pulsed with Jurkat cell-line lysate in killing the target malignant cells. Our results show that an appropriate antigen concentration used for DC pulsing is one of the crucial factors in an effective treatment strategy, as high concentrations of tumor antigens induce apoptosis of DC, thereby rendering them non-functional. Under optimal conditions, pulsation by lysate from leukemic blasts induced the maturation of DC and led to an increase in the proliferation of autologous lymphocytes, to the production of Th1-cytokines and to the induction of cytotoxicity toward the leukemic cell line. These results are encouraging for the possible application of pulsed DC in the therapy of acute lymphoblastic leukemia.     

DR antigen expression on ovarian carcinoma cells does not correlate with their capacity to elicit an autologous proliferative response

Summary Expression of HLA-DR antigens by purified preparations of human ovarian carcinoma cells freshly isolated from surgical specimens was examined in parallel with the capacity of tumor cells to elicit a blastogenic response from autologous lymphocytes in mixed lymphocyte-tumor culture (MLTC) assay. Of 21 tumor preparations, 11 (52%) reacted with monoclonal antibodies 279 and/or 949 specific for a monomorphic determinant of HLA-DR antigens, with heterogeneous positivity, ranging between 30% and 95%. In this series of patients positive MLTC occurred in 8/21 individual experiments. The HLA-DR expression was proportionally similar in tumors giving positive MLTC (4/8=50%) and negative MLTC (7/13=53%). The lack of correlation between DR expression on tumor cells and stimulatory activity in autologous MLTC and the fact that DR-negative tumors could induce lymphocyte stimulation, support the hypothesis that blastogenesis occurs upon recognition of tumor-associated antigens, different from DR molecules, possibly tumor-specific antigens.     

MLC-specific suppressor T lymphocytes in man. I. Their induction in vitro by soluble HLA-DR antigens

Human T lymphocytes precultured for 36 hr in the presence of soluble HLA-DR antigens suppress the MLR response of autologous peripheral blood lymphocytes to allogeneic stimulating cells. The suppression is DR antigen-specific in that it appears that the MLR stimulating cell donor and the soluble suppressor-inducing antigen must share DR specificities. The soluble DR antigens were fractionated from the sera of normal donors using QAE-Sephadex chromatography and CNBr-activated Sepharose immunoadsorption. Similarly prepared HLA-A and -B antigens failed to induce suppressive activity. The suppressive activity of DR-antigen cultured T cells is resistant to mitomycin C treatment and, further, the antigen specificity is maintained with or without mitomycin C treatment. The kinetics of suppressor cell induction as well as the kinetics of suppression in the test MLR cultures are presented. The implications of these results are discussed.     

DR antigens expressed on tumor cells do not contribute to the blastogenetic response of autologous T cells

Summary Tumor cell suspensions prepared from surgical specimens were characterized for cellular composition and reactivity with monoclonal antibodies detecting T lymphocytes, monocytes, and the monomorphic determinants of DR molecules (antigens encoded by the D region of the major histocompatibility complex in man). About half the adenocarcinoma preparations contained tumor cells which expressed DR antigens. Lymphocytes of certain patients were stimulated in vitro by the autologous tumor cells, and this was independent of the expression of DR antigens on the tumor cells. In addition, pretreatment of the stimulator tumor cells with anti-DR Mab (monoclonal antibody) had only marginal effect on their stimulatory potentialIn contrast, when the same tumor cells were used as stimulators of allogeneic lymphocytes, proliferation was more often seen with DR-positive tumors and the reaction was often inhibited by the anti-DR Mab treatment. There were exceptions, however, which suggest that other DR antigens not detected by the reagents used may have been expressed on these cells. The allostimulatory capacity of the tumor cells was usually weak and did not occur with all responder lymphocytes. It is important to note that stimulation of autologous lymphocytes could occur with tumor preparations that did not elicit allogeneic response.Thus, the in vitro stimulation of autologous blood-derived T cells by suspensions of unpropagated cells separated from solid tumors reflects the sensitization state of the patients against their tumor cells.     

Membrane structures involved in auto-tumor recognition

Tumor patients' blood lymphocytes have the capacity to recognize autologous tumor cells in vitro. A consequence of this recognition is the proliferation of small-size, high-density, resting T cells. Both helper (CD4+) and cytotoxic/suppressor (CD8+) T lymphocytes proliferate in the mixed lymphocyte-tumor cell cultures. In contrast to the autologous mixed lymphocyte cultures, both the auto-erythrocyte rosetting and non-rosetting (AE+ and AE-) T cells participate in the auto-tumor response. In contrast to stimulation by virus-infected or hapten-modified cells, DR antigen expression is not essential for stimulation by autologous tumor cells. In a proportion of cancer patients, blood lymphocytes have the capacity to lyse the patients' own tumor cells in vitro. There are two populations of lymphocytes with auto-tumor cytotoxic function. The first is characterized by low buoyant density and by non-adaptive cytotoxicity. In contrast to the recognition of hapten-modified or virus-infected target cells by the CTL, recognition of autologous tumor cells by the cytotoxic LD cells occurs even when the MHC class I antigens are blocked by mAb. The CD3 complex is also not involved in LD-mediated lysis. The other population with auto-tumor cytotoxic function comprises high-density, resting T cells. Recognition of autologous tumor cells by cytotoxic HD lymphocytes shares the characteristics of CTLs, i.e., their function is abrogated by pretreatment of the effectors with mAbs directed to the T3 receptor complex and by preincubation of the targets with mAb to the MHC class I antigens. Cytotoxicity of HD cells is restricted to the autologous tumor cells. This selectivity and the characteristics shared with CTL suggest that the auto-tumor reactivity of HD lymphocytes reflects an immune response against the autologous tumor.     

The role of tumor cells in the modification of T lymphocytes activity--the expression of the early CD69+, CD71+ and the late CD25+, CD26+, HLA/DR+ activation markers on T CD4+ and CD8+ cells in squamous cell laryngeal carcinoma. Part I

The role of interactions between tumor cells and autologous immunocompetent cells, the impact on the modulation of the activity of T CD4(+) and CD8(+) lymphocytes, as well as the influence on the regulation and determination of antitumor cellular immune response in patients with head and neck squamous cell carcinomas (HNSCC) is not completely clear. The aim of this study was to analyze early and late activation antigens expression on T cells subpopulations modified under the influence of the presence of cancer cells to investigate the regulatory mechanisms of the local cellular immune response in carcinoma of the larynx. Cytofluorymetric analysis of the early (CD69(+), CD71(+)) and late activation markers (CD25(+) (high), CD26(+), HLA/DR(+)) expression on T CD3(+)CD4(+) and CD3(+)CD8(+) cells subpopulations in mixed cellular cultures of freshly isolated tumor cells (MLTMC) and non-cancerous normal epithelial cells (MLNCC) with immunocompetent cells was performed in 55 cases of squamous cell laryngeal carcinoma. The whole peripheral blood concentrations of IL-10 and IFN-γ in 21 h and 72 h of experiments were also measured by ELISA. The relationships between the activation markers expression depending on the type of cells used in co-cultures, as well as the level of secreted cytokines, were investigated. Our work has revealed a statistically significant dependence of cytofluorymetric results on the presence of TMC or NCC in mixed cellular cultures. Increased expression of CD69(+), CD71(+) and CD25(+) (high), CD26(+), HLA/DR(+) antigens on T CD3(+)CD4(+) and CD3(+)CD8(+) cells was higher in MLTMC cultures, in comparison with MLNCC. We demonstrated negative significant relationships of IFN-γ and IL-10 secretion with regard to CD4(+)CD69(+), CD8(+)CD69(+), CD4(+)CD71(+), CD8(+)CD71(+) antigens expression in 21 h of experiments without mitogenic stimulation. Furthermore, this study revealed negative significant relationships of IFN-g secretion with regard to CD4(+)HLA/DR(+) and CD8(+)HLA/DR(+) as well as between IL-10 concentration and CD4(+)HLA/DR(+) in trials without PHA stimulation. Our findings have confirmed a key role for tumor cells in determining the function of T cells involved in the immunological processes and impact of neoplastic cells on modulating the activity of T CD4(+) and CD8(+) lymphocytes in laryngeal carcinoma.     

Adherent Ia+ murine cell lines with characteristics of dendritic cells. II. Characteristics of I region-restricted antigen presentation

The ability of an adherent Ia+, interleukin 1+ (IL-1) tumor cell line (P388AD) to present turkey gamma-globulin (TGG) to primed T lymphocytes was demonstrated and compared with normal antigen-presenting cells (APC) found in mouse spleen. P388AD tumor cells presented TGG to long-term cultures of TGG-reactive T cells (LTTC) and to lymph node-derived T cells which were enriched on nylon wool columns and subsequently depleted of endogenous antigen-presenting cells with anti-Ia antisera and complement. MHC-restricted antigen presentation by P388AD was observed when long-term cultures of TGG-reactive T cells were used as the responding T-cell population. Furthermore, antisera directed against I-region determinants expressed on the P388AD tumor cells inhibited TGG-specific T-cell proliferation in a dose-related fashion, suggesting a functional role for the tumor cell-associated Ia molecules. The kinetics of antigen presentation to LTTC by P388AD were similar to the kinetics observed for splenic APC, although the magnitude of the proliferative response to LTTC to TGG was generally lower when antigen (Ag) was presented by the tumor cells compared to splenic antigen-presenting cells (APC). However, the magnitude of T-cell proliferation of immune lymph node (LN) T cells was comparable when Ag was presented on tumor cells or splenic APC. Several experiments suggested that Ag uptake and/or processing may be less effective in P388AD tumor cells as compared to normal splenic APC. A nonadherent Ia+, IL-1- tumor cell line (P388NA), which was isolated from the same parental tumor as P388AD, was also tested for the ability to present Ag to primed T lymphocytes and Ag-reactive LTTC. In contrast, to P388AD, the nonadherent tumor cell failed to present TGG under identical culture conditions even though Ia molecules were expressed on the tumor cells and Ag uptake had occurred. However, the defect in Ag presentation by P388NA could be corrected if an exogenous source of purified interleukin 1 was supplied to the cultures. A unique opportunity thus exists with both the P388AD and P388NA tumor cell lines to decipher some of the molecular interactions leading to T-cell proliferation during antigen presentation.     

Human alveolar macrophages: HLA-DR-positive macrophages that are poor stimulators of a primary mixed leukocyte reaction

Previous studies demonstrated that alveolar macrophages (AM) from most normal human volunteers failed to stimulate the antigen-induced proliferation of peripheral blood T lymphocytes although greater than 90% of AM expressed HLA-DR antigens. The current studies establish that AM also fail to induce allogeneic peripheral blood mononuclear cells to proliferate in a mixed leukocyte reaction (MLR). Suppressive activity by AM was not an explanation for their failure to induce an MLR. Indirect immunofluorescence established the presence of both HLA-DR and DQ antigens on the majority of AM and the persistence of these antigens on cells in culture for up to 6 days, the period of time required to observe a maximal MLR. Metabolic labeling experiments also demonstrated that HLA-DR antigens were synthesized by AM. It was recently reported that AM secrete relatively small amounts of IL 1, an important ancillary signal provided by accessory cells to enhance the stimulation of lymphocyte proliferation. However, addition of optimal concentrations of IL 1 to cultures containing AM failed to enhance the MLR. Thus, there is at least one additional, but as yet undefined, requirement for an accessory cell to induce an optimal MLR besides the display of HLA-D region antigens and the secretion of IL 1. In contrast, AM were effective in specifically stimulating proliferation of alloreactive T cell lines, suggesting that at least some cell lines do not require this nonspecific undefined second signal. We speculate that although AM may not initiate primary immune responses in the lung, they may be important in maintaining immune-mediated inflammatory responses by specifically restimulating already activated T cells.     

Inhibition of cell growth and induction of apoptotic cell death by the human tumor-associated antigen RCAS1.

Tumor-associated antigens that can be recognized by the immune system include the MAGE-family, p53, MUC-1, HER2/neu and p21ras. Despite their expression of these distinct antigens, tumor elimination by the immune system is often inefficient. Postulated mechanisms include insufficient expression of co-stimulatory or adhesion molecules by tumor cells, or defective processing and presentation of antigens on their cell surfaces. Tumor cells may also evade immune attack by expressing CD95 (APO-1/Fas) ligand or other molecules that induce apoptosis in activated T cells. Here we describe RCAS1 (receptor-binding cancer antigen expressed on SiSo cells), a membrane molecule expressed on human cancer cells. RCAS1 acts as a ligand for a putative receptor present on various human cell lines and normal peripheral lymphocytes such as T, B and NK cells. The receptor expression was enhanced by activation of the lymphocytes. RCAS1 inhibited the in vitro growth of receptor-expressing cells and induced apoptotic cell death. Given these results, tumor cells may evade immune surveillance by expression of RCAS1, which would suppress clonal expansion and induce apoptosis in RCAS1 receptor-positive immune cells.     

Role of class II histocompatibility antigens in Staphylococcus aureus protein A-induced activation of human T lymphocytes

The capacity of peripheral blood monocytes and B lymphocytes to support staphylococcal protein A (SpA)-induced proliferation of autologous and allogeneic T cells, as well as the role of major histocompatibility complex (MHC) class I and II molecules in this activation process, were investigated. Highly purified peripheral T lymphocytes did not proliferate in response to SpA, but their response was reconstituted by both irradiated (or mitomycin C-treated) monocytes and B lymphocytes. The effect of B cells on the SpA-induced T-cell response could not be explained by a contamination of residual accessory cells because long-term continuous B-cell lines restored SpA-induced T-cell DNA synthesis as effectively as did monocytes. Support of SpA responsiveness by B cells could not be accounted for by polyclonal binding of SpA to cell surface immunoglobulins, since the ability of SpA-unreactive and SpA-reactive B cells was comparable. The cells from two human leukemic lines--K562 and Raji--showed the same ability in supporting the pokeweed mitogen-induced T-cell response, but the class II-positive Raji cells were much more effective than class II-negative K562 cells in restoring the T-cell responsiveness to SpA. Monoclonal antibodies specific for monomorphic determinants of MHC class II antigens, as well as their F(ab')2 fragments, consistently inhibited the SpA-induced proliferative response, whereas antibodies specific for MHC class I antigens were without effect. The antibodies specific for class II antigens appeared to act at the level of accessory cell, since pretreatment with these antibodies inhibited the ability of SpA-pulsed monocytes or Raji cells to present SpA to autologous or allogeneic T lymphocytes, respectively. These data indicate that either monocytes or normal and lymphoblastoid B cells can act as accessory cells for the proliferative response of human T cells to soluble SpA and that monomorphic determinants of MHC class II molecules play an important role in this activation process.     

Biochemical characterization of lymphocyte regulatory molecules. II. Purification of a class of rat and human lymphokines

Rat spleen cells activated in vitro by concanavalin A produce lymphokine molecules that possess biologic activity in a number of murine lymphocyte response assays. A single class of lymphokine most adequately described as T cell growth factor (TCGF, Interleukin-2) with a m.w. of 15,000 as estimated from gel filtration studies and with an isoelectric range of 5.4 to 5.6 stimulates i) the growth of established T cell lines in culture, ii) the proliferation of thymocytes in the presence of Con A under culture conditions where Con A alone is non-mitogenic, iii) the induction of antibody responses to heterologous erythrocyte antigens in athymic (nude) mouse spleen cell cultures, and iv) the generation of cytotoxic T lymphocytes (CTL) in thymocyte cultures and in nude mouse spleen cell cultures. We suggest that in each of the assay systems tested, this class of rat lymphokine acts directly on activated T cells. Nonactivated T cells must be stimulated by either mitogen or antigen before becoming responsive to lymphokine, but do not require antigen or mitogen for continued lymphokine-dependent proliferation. Similarly, human peripheral blood mononuclear cells activated by phytohemagglutinin (PHA) produce a class of lymphokines of identical size with an isoelectric point of 6.0 to 6.5 that possess the same biologic properties as measured in murine lymphocyte response systems.     

Activation of specific suppressor cells with heat-treated allogeneic tumor cells

The ability of heat-treated allogeneic cells to induce suppressor cells was examined. The tumor cell lines EL-4 (H-2^b) and P815-X2 (H-2^d), were heated to 56 °C for 10 min and injected intravenously into mice of the DBA/2J (H-2^d) and C57BL/6J (H-2^b) strains, respectively. After 4 days, the splenocytes of the treated mice were mixed with normal spleen cells and cultured for 5 days with allogeneic tumor cells. The cytotoxic T-cell response was reduced in cultures of these cell mixtures. An allogeneic difference was required to induce suppression because the syngeneic combination did not induce suppressor cell activity. Furthermore, the induction of cytotoxic T cells to the C118 cell line (H-2^k) was not suppressed by this procedure, which suggests that the suppression was haplotype specific. These suppressor cells were sensitive to anti-Thy 1.2 and complement, cortisone, and cyclophosphamide, but insensitive to irradiation. These are characteristics similar to suppressor cells activated by intact cells. Heat treatment abrogated the tumor cell's ability to induce a proliferative and a primary, but not a secondary, cytotoxic T-cell response. The heat-treated cells also lost their ability to function as cold target inhibitor cells, but retained the same quantity of serologically detected antigens as the intact cells. These results suggest that the serologically detected antigens are responsible for the activation of the suppressor cells of the cytotoxic T-cell response.     

Human mononuclear phagocyte-associated antigens: I. Identification and characterization

Rabbit antisera were produced against a lymphokine-activated human macrophage cell line, U937 (αU937), and human peritoneal macrophages (αPEMØ). After absorption with AB erythrocytes, pooled platelets, and B-lymphoblastoid cell lines, both antisera reacted by microcytotoxicity, indirect immunofluorescence (IF), and radioimmunoassay (RIA) with adherence-purified human peripheral blood monocytes, splenic and peritoneal macrophages, and leukemic myelomonoblasts. A panel of normal human T lymphocytes, B lymphocytes, and erythroid-myeloid or lymphoblastoid cell lines failed to react with both αU937 and αPEMØ. Although both heteroantisera reacted against polymorphonuclear leukocytes (PMNs), after absorption with PMNs specific reactivity against mononuclear phagocytes remained. Absorption of αU937 and αPEMØ with myelomonoblastic leukemia cells (AMML) removed IF and RIA activity against both PMNs and monocytes but not against splenic and peritoneal macrophages. In contrast, absorptions of both heteroantisera preparations with splenic macrophages abolished their IF and RIA reactivity not only to splenic and peritoneal macrophages but also to peripheral blood monocytes and leukemic myelomonoblasts. These results are consistent with (1) both antisera defining specific monocyte/macrophage-associated antigens(s) which are distinct from MHC-coded HLA-A,B,C, and DR antigens, and (2) expression of common monocyte/macrophage-associated antigen(s) and uniquely associated antigen(s) selectively expressed on tissue macrophages. These reagents will be useful in delineating human monocyte/macrophage differentiation as well as the immunological functions of mononuclear phagocytes.     

Selective inhibitory effect of Hu-IFN-gamma on the agarose clonability of tumor-derived lymphoid cell lines

Recombinant human interferon alpha (IFN-alpha) and interferon gamma (IFN-gamma) were compared for their ability to influence the proliferative capacity of tumor-derived cell lines and of normal B lymphocytes infected in vitro by Epstein-Barr virus (EBV). EBV-induced B-cell proliferation was suppressed almost completely when 10(2) U/ml IFN-alpha were added to the culture medium while the same dose of IFN-gamma had significantly lower inhibitory activity. The pure IFNs differed in their ability to influence the growth of three Burkitt lymphoma-derived cell lines, Raji, Daudi, and Namalwa, depending on whether the cells were propagated in suspension or in semisolid cultures. IFN-alpha inhibited cell proliferation under both culture conditions with thresholds of sensitivity characteristics for each cell line. In contrast, IFN-gamma had no effect on the growth in suspension but it abolished the clonogenic potential of tumor cell lines in semisolid agarose. The results suggest that the two IFN types may exert their growth inhibitory activity through different mechanisms of action.     

Generation of natural killer cell lines from murine long-term bone marrow cultures

Functionally active natural killer (NK) cells with the ability to lyse 51Cr-labeled YAC-1 lymphoma target cells are no longer detectable by 1 wk of culture in cultured marrow cells harvested from Dexter-type long-term marrow cultures (LMC). Interferon, which enhances NK cell-mediated target cell lysis, fails to induce NK activity from LMC cells even at high effector to target cell ratios. However, such LMC cells, when placed in secondary cultures in the presence of Con A-splenic leukocyte-conditioned medium (spleen-CM) generated a population of cells with NK activity within 1 wk. Kinetic studies showed that the generation of NK activity was not due simply to proliferation of a few surviving NK cells, but suggested derivation from NK precursors through clonal expansion and functional maturation. This NK activity was further shown to be associated with a subpopulation of cells bearing surface Thy-1, Ly-5, and NK-1 as well as asialo-GM1 antigens but lacking Ly-1 antigen. The expression of Ly-2 antigen, however, was variable. Electron microscopy studies of isolated asialo-GM1-positive cells showed a uniform lymphoblastoid morphology with large cytoplasmic to nuclear ratios and prominent electron dense cytoplasmic granules characteristic of large granular lymphocytes. In support of the NK nature of such cultured cells was the ability of anti-asialo-GM1 and complement to abrogate, and of interferon to augment, target cell lysis. Isolated cell lines also showed target selectivity similar to NK cells. The implications of the studies on further analysis of the nature of NK precursors is discussed.