The role of a gamma interferon-like lymphokine in the activation of T cells for expression of interleukin 2 receptors

Human peripheral T cells, but not non-T cells, expressed receptors for interleukin 2 when treated with partially purified human gamma interferon (IFN-γ). The expression of the receptors was evidenced by proliferation of IFN-γ-treated cells in the presence of IL 2 and absorption of IL 2 by treated cells. The IFN-γ-induced expression of IL 2 receptors was associated with partially purified IFN-γ (approximately 2000-fold purified) and was blocked by treatment of IFN-γ with specific antibodies or destruction of IFN-γ by acid pH. IFN-γ induced expression of receptors in a manner similar to that of concanavalin A (Con A). Further, Con A induction of expression of receptors was blocked by simultaneous treatment of cultures with anti-IFN-γ sera, suggesting that IFN-γ was involved in Con A induction of IL 2 receptors. T cells in culture are continuously exposed to various forms of antigen stimulation, and thus the function of IFN-γ may be the enhancement of expression of antigen- or mitogen-induced IL 2 receptors in a manner similar to its enhancement of expression of antigens of the major histocompatibility complex.     

Induction of proliferation in vitro of resting human natural killer cells: IL 2 induces into cell cycle most peripheral blood NK cells, but only a minor subset of low density T cells

We report that resting human peripheral blood natural killer (NK) cells proliferate in response to recombinant interleukin 2 (rIL 2), and addition of irradiated lymphoblastoid B cells significantly increase their proliferative response. Interaction of IL 2 with the Tac IL 2 receptor expressed on activated NK cells is necessary to maintain continued growth of these cells. Experiments in which NK cell mitosis is prevented by colchicine show that the majority of peripheral blood NK cells are induced into the first cell cycle over a 6-day culture period in the presence of rIL 2. The addition of the irradiated lymphoblastoid B cell line, Daudi, to colchicine blocked cultures does not increase the proportion of cells entering cell cycle in response to rIL 2 alone. In limiting dilution analysis, only 1/1700 B73.1+ cells grow clonally in response to rIL 2. The frequency of clonal growth of NK cells in response to irradiated Daudi cells alone is minimal, whereas the addition of irradiated Daudi cells to rIL 2 stimulated cultures resulted in a 10-fold increase in clonal frequency compared with the cultures in rIL 2 alone. Therefore, Daudi cells may act by maintaining continuous proliferation of the NK cells originally responsive to IL 2. Unlike NK cells, only a minimal proportion of peripheral blood T cells proliferate in response to IL 2. These IL 2 responsive T cells are characterized by a lower bouyant density than the majority of peripheral blood T cells. These results indicate physiologic differences between peripheral blood resting NK and T cells in their ability to be induced to cycle. IL 2 is a growth factor for both cell types, but although the presence of the growth factor is sufficient for quiescent NK cells to be induced into cycle, T cells require antigenic or other mitogenic stimuli to respond to IL 2. The small proportion of light density IL 2 responsive T cells might represent in vivo activated T cells.     

Thy-1+ epidermal cells proliferate in response to concanavalin A and interleukin 2

Mouse epidermal cells (EC) are composed of at least two phenotypically discrete populations of cells that in epidermal sheets have a dendritic morphology: Ia+ Langerhans cells (LC) and dendritic, bone marrow-derived, Ia- cells that express Thy-1 antigen (Thy-1+ dEC). Thy-1+ dEC lack other typical T cell markers such as L3T4, Lyt-1, and Lyt-2; however they do express Ly-5 and asialo GM1 in common with NK cells and certain other leukocytes. To investigate the functional capabilities of Thy-1+ dEC in vitro, cell suspensions prepared from trypsin-disaggregated sheets of mouse body wall epidermis were first enriched to 8 to 20% Ia+ and 20 to 40% Thy-1+ cells by centrifugation over Isolymph and then were cultured for 2 to 10 days with Concanavalin A (Con A) and/or partially purified rat IL 2. Con A-induced proliferation of EC was readily seen, with the maximal response occurring at a Con A concentration of 2.5 micrograms/ml on day 5 of culture. Con A responses were significantly enhanced by the continuous presence of 1 microgram/ml indomethacin. Responses both in the presence and absence of Con A were significantly enhanced by the addition of 5 to 10 U/ml of partially purified rat IL 2; proliferation in cultures stimulated by both Con A and IL 2 continued to increase throughout the 10-day culture period. Culture of fluorescence-activated cell sorter (FACS)-separated EC suspensions revealed that Thy-1-depleted EC and irradiated Thy-1+ EC failed to proliferate in response to Con A and IL 2, whereas unirradiated purified Thy-1+ EC gave enhanced Con A- and IL 2-induced responses compared with the unseparated population. Finally, to distinguish between the proliferation of small numbers of mature peripheral T cells and that of Thy-1+ dEC, antibody and complement-depletion studies were conducted with an unusual monoclonal anti-Thy-1 reagent, 20-10-5S, and with the anti-T cell reagents, anti-L3T4 and anti-Lyt-2. Thy-1+ dEC, but not LC, express the 20-10-5S determinant; furthermore, in CBA (Thy-1.2) mice 20-10-5S reacts with Thy-1+ dEC, thymocytes, and peripheral T cells, whereas in AKR/J (Thy-1.1) mice, it reacts only with Thy-1+ dEC and thymocytes and not with peripheral T cells. Pretreatment of AKR/J EC with 20-10-5S and complement abolished the capacity of such cells to respond to Con A and to IL 2.(ABSTRACT TRUNCATED AT 400 WORDS)     

Partial purification and characterization of a novel human factor that augments the expression of class I MHC antigens on tumour cells

A cytokine which augments the expression of major histocompatibility complex (MHC) I antigens on K562 and gastric carcinoma tumour (HR) cells, has been isolated from the culture supernatant of Concanavalin-A (Con-A) activated human peripheral blood mononuclear cells. The factor, termed MHC augmenting factor (MHC- AF) has been partially purified by Sephadex G- 100 column chromatography, preparative isoelectric focusing and HPLC with ion- exchange as well as sizing columns. MHC-AF activity is associated with a 35 kDa molecule which has pI of 6.0. Interferon (IFN)-α, \, tumour necrosis factor (TNF), Interleukin (IL)-2, IL-4, IL-5 and IL-7 had no significant effect in MHC- AF bioassay, but IFN-γ had significant MHC-AF activity. Antibodies to IFN-α, IFN-\ and TNF-α did not block the activity of MHC-AF, but anti-IFN-y antibodies could partially neutralize the activity. However, unlike IFN-γ, MHC-AF activity was resistant to pH 2.0 treatment. Purified MHC-AF preparations did not have any activity in WISH cell/encephalo myocarditis virus (EMC) IFN bioassays. In addition, anti-IFN-y affinity column did not retain MHC-AF activity. These results indicate that a MHC-AF distinct from IFN-γ, is produced by activated human mononuclear cells.     

Interleukin 2 dependence of human natural killer (NK) cell activity

When purified populations of human natural killer (NK) cells were tested for cytotoxic activity in the presence of partially purified preparations of human interleukin 2 (IL 2), a definite, dose-dependent linear increase in reactivity was observed. To determine whether such augmentation by IL 2 might reflect an important aspect of the physiologic regulation of NK activity, we examined the effects of monoclonal antibodies against human IL 2 on spontaneous NK activity. The presence of such antibodies during the 4-hr cytotoxicity assay resulted in significant inhibition of NK activity, and when the NK cells were pretreated for 16 to 20 hr with anti-IL 2, little or no activity remained. These data suggest that the spontaneous cytotoxic activity of NK cells is dependent on their continued exposure to IL 2. The reduction in NK activity resulting from treatment with anti-IL 2 could be at least partially restored by exposure to only low amounts of partially purified IL 2. These data have provided the basis for formulating a novel model of NK cell activation.     

Interleukin 2 induces proliferation of normal "resting" human T cells in the absence of other known external stimulation

Interleukin 2(IL-2) is known to stimulate the progression of activated T cells from G1 through the rest of the cell cycle. We have demonstrated that addition of purified recombinant human IL-2 (rIL-2) to fresh normal human peripheral blood mononuclear cells (PBM), which were IL-2 receptor (Tac) negative by FACS analysis, stimulated marked proliferation of the PBM. IL-2-induced proliferation was also observed with umbilical cord blood mononuclear cells. Monocyte depletion of PBM resulted in a marked reduction of rIL-2-induced proliferative response which could be restored by adding back autologous irradiated monocytes but not by interleukin 1. The T cells preincubated with rIL-2 showed a five to six times enhanced autologous mixed-lymphocyte reaction (AMLR) compared to controls. The rIL-2-induced proliferative response of PBM was inhibited in a concentration-dependent fashion by preincubation of PBM with an anti-HLA-DR framework monoclonal antibody. The proliferating cells were shown by two-color flow cytometric analysis to be primarily Leu-1+ and Leu-4+ T cells (both leu-3+ and Leu-2+ subsets); however, 6 to 19% of responding cells had surface markers for B cells or NK cells. The data demonstrate that rIL-2 can induce proliferation of "resting" human T cells. The phenomenon may be related to a monocyte-dependent AMLR which induces IL-2 receptors and IL-2 responsiveness in a subset of T cells.     

Ex vivo activation and expansion of natural killer cells from patients with advanced cancer with feeder cells from healthy volunteers

Background aimsCulturing natural killer (NK) cells from patients with advanced cancer is difficult and has restricted the generation of sufficient cell numbers for autologous adoptive NK-cell therapy. The aim of this study was to establish a novel method for ex vivo NK-cell expansion from patients with cancer.MethodsNK cells (CD3^?CD56⁺) were isolated from peripheral blood mononuclear cells from healthy volunteers and cancer patients, and NK^? fractions were used as feeder cells. Purified NK cells were co-cultured with feeder cells in AIM-V medium (Invitrogen, Carlsbad, CA, USA) supplemented with 5% human serum and 1000 units/mL human interleukin-2.ResultsNK cells co-cultured with feeder cells from healthy volunteers (feeder-HV) expanded more than NK cells co-cultured with feeder cells from cancer patients (feeder-CP). During the 14-day culture period, NK cells from patients with advanced cancer co-cultivated with feeder-HV expanded on average 300-fold. NK cells co-cultivated with feeder-CP expanded on average 169.4-fold. Cultures grown in the presence of feeder-HV contained 93.8 ± 7.0% (mean ± standard deviation; n = 6) CD3^?CD56⁺ NK cells, and cultures grown in the presence of feeder-CP contained 83.6 ± 15.9% CD3^?CD56⁺ NK cells. Feeder-HV caused a relative increase in CD3⁺CD4⁺ T cells, whereas feeder-CP did not induce changes. Interleukin-15, a cytokine that induces NK-cell proliferation, was detected in the culture supernatants of feeder-HV but not in those of feeder-CP.ConclusionsFeeder cells obtained from healthy volunteers have the potential to expand and activate NK cells from patients with advanced cancer. The novel NK-cell expansion method described here provides a technique for acquiring the large numbers of highly active NK cells from patients with cancer for autologous adoptive immunotherapy.     

Tumor necrosis factor as an interleukin 1-dependent differentiation inducing factor (D-factor) for mouse myeloid leukemic cells

Experiments were conducted to purify the differentiation-inducing factor (D-factor), which induces differentiation of mouse myeloid leukemic cell line, Ml, into macrophage-like cells, in a conditioned medium of guinea pig peritoneal macrophages stimulated with lipopolysaccharide. On gel filtration under high performance liquid column chromatography (HPLC), D-factor eluted at the position of 45-15 KD. By the subsequent separation on DEAE HPLC the D-factor activity disappeared. However, in the presence of recombinant human IL 1 alpha the D-factor activity appeared at a position where tumor necrosis factor (TNF) eluted. Even after fractionation on hydroxyapatite HPLC the IL 1-dependent D-factor was co-chromatographed with TNF. Recombinant human TNF as well as the partially purified guinea pig TNF induced differentiation of Ml cells in conjunction with either the partially purified guinea pig IL 1 or recombinant human IL 1 alpha, although these factors by themselves did not induce differentiation. These findings suggest that a part of D-factor activity in the conditioned medium resulted from the cooperative effects between TNF and IL 1.     

The role of interleukin 2 and T11 E rosette antigen in activation and proliferation of human NK clones

Although considerable data have recently been accumulated regarding the functional role of natural killer (NK) cells, relatively little is known about the factors that regulate NK cell activity. In these studies, we evaluated the role of interleukin 2 (IL 2) and the expression of the IL 2 receptor in the activation and proliferation of human NK cloned cell lines. By using a series of cloned cell lines, we were able to analyze homogeneous populations of NK cells that ordinarily comprise only a small fraction of peripheral blood lymphocytes and are extremely heterogeneous with respect to phenotypes and cytotoxic specificities. In comparison with several T cell clones, we found a much lower density of IL 2 receptors on NK clones, regardless of whether or not these cloned cells had a mature T cell phenotype. Correspondingly, NK clones needed a 10-fold higher concentration of recombinant IL 2 for maximal proliferation. Moreover, blocking studies with specific monoclonal IL 2 receptor antibodies indicated that IL 2 is both necessary and sufficient to induce the proliferation of NK clones. Because the majority of peripheral blood NK cells and NK clones express the T11 E rosette receptor antigen, which has been shown to be an antigen-independent activation pathway for T cells, we were able to study the role of monoclonal anti-T11 antibodies in the activation of various NK clones for which a specific target antigen is not known. In contrast to T cell clones, the induction of IL 2 receptor expression after T11 activation was possible only for some NK clones such as JT10 and JT3, but not for CNK5. Before activation, the IL 2 receptor expression of NK clones was confined to cells in the G2 - M phase, but after T11 activation the more pronounced IL 2 receptor expression became independent of the cell cycle. With respect to the direct proliferative effect of anti-T11 activation that has been noted with T cell clones, only the T3+ (JT10) and not the T3- NK clones could be directly stimulated. Nevertheless, IL 2 receptor expression could be triggered on some T3- clones such as JT3. Because T11-induced proliferation of T cells has been shown to be dependent on both the expression of the IL 2 receptor and on the interaction of this receptor with IL 2, it is proposed that the different responses of NK cells to T11 activation may reflect the ability of the individual clone to produce endogenous IL 2, as well as its ability to express the IL 2 receptor.     

Separation and purification of lymphocyte chemotactic factor (LCF) and interleukin 2 produced by human peripheral blood mononuclear cells

Two T-cell chemotactic factors, lymphocyte chemotactic factor (LCF) and interleukin 2 (IL-2), were separated and characterized from culture supernatants of concanavalin A-stimulated human peripheral blood mononuclear cells. LCF was purified approximately 7800-fold to homogeneity from culture supernatant using gel filtration and high-performance liquid chromatography (HPLC). LCF was found to be distinct from both IL-2 and interleukin-1. Sephadex G-100 gel filtration of crude supernatants from concanavalin A-stimulated mononuclear cells showed two molecular weight regions of T lymphocyte chemotactic activity. A 10,000- to 25,000-Da region contained both IL-2 and LCF and a 45,000- to 75,000-Da region contained only a high molecular weight form of LCF. Both high and low molecular weight species of LCF eluted with 40-44% acetonitrile from a reversed-phase C18 HPLC column. IL-2 present only in the low molecular weight region eluted from the C18 column with 65-75% acetonitrile. The migration of T lymphocytes to IL-2 was totally inhibited by anti-interleukin 2 receptor antibody while the response of T cells to LCF was unaffected. LCF eluting off the C18 column was purified to homogeneity by two subsequent cycles of gel filtration HPLC. The resultant protein showed a single band by sodium dodecyl sulfate-polyacrylamide gel electrophoresis corresponding to a molecular weight of 10,500. The data presented here demonstrate that IL-2 and LCF are distinct lymphocyte chemotactic factors and although they are not readily separable from crude supernatants by molecular sieve chromatography, they can easily be distinguished by reversed-phase HPLC.     

Inhibition of human natural killer cell activity by platelet-derived growth factor

The present report demonstrates that the naturally occurring biologic substance, platelet-derived growth factor (PDGF), substantially inhibits human natural killer (NK) cell activity. More precisely, pretreatment of peripheral blood mononuclear cells for 2 h with nanogram amounts of either partially purified PDGF or highly purified PDGF significantly inhibited peripheral blood NK cell activity (cytotoxicity) in a dose-dependent manner as measured against the NK-sensitive target, K-562. Furthermore, pretreatment of purified NK cells for 2 h with nanogram amounts of purified PDGF also resulted in a significant, dose-dependent inhibition of human NK cell activity (cytotoxicity), as mediated by positively selected, B73.1+ human NK cells sorted on a fluorescence-activated cell sorter. In addition to the inhibition of NK-mediated cytotoxicity, nanogram amounts of purified PDGF also significantly inhibited the single-cell binding of B73.1+ human NK cells to the NK-sensitive target K-562, as determined by routine single-cell-binding assays (i.e. conjugate formation). The implications of these findings are discussed.     

Suppressive effect of human natural killer cells on pokeweed mitogen-induced B cell differentiation

The suppressive effect of human natural killer (NK) cells on B cell differentiation induced by pokeweed mitogen (PWM) was investigated. By using Percoll discontinuous density gradient centrifugation, peripheral blood nonphagocytic and nonadherent mononuclear cells were divided into low and high density fractions for which NK cells (Large granular lymphocytes, LGL) and T cells were enriched, respectively. These fractionated mononuclear cells were co-cultured with purified autologous B cells in the presence of PWM, and were examined for their helper and suppressor activities on differentiation of B cells to immunoglobulin-(IgM and IgG) producing cells by a highly sensitive reversed hemolytic plaque assay. The T cell-enriched high density fractions provided help for B cell differentiation to levels higher than that of unfractionated mononuclear cells. On the other hand, the NK-enriched low density fractions did not show helper activity, and when added to the culture of B cells plus helper T cells, they markedly suppressed B cell differentiation. This suppressive activity, as well as the NK cytotoxicity of the NK-enriched fractions, was abrogated by treatment of the cells with monoclonal antibody against human NK cells (HNK-1), but not against T cells (OKT3) in the presence of complement. NK cells also suppressed PWM-driven B cell differentiation in the presence of T4+ (helper/inducer T) but not T8+ (cytotoxic/suppressor T) cells; however, they showed no inhibition of soluble factor-induced B cell differentiation assayed in the absence of helper T cells. It is thus concluded that human peripheral blood NK cells exhibit an ability to suppress PWM-driven B cell differentiation, possibly by acting through the effect on helper T cells but not directly on B cells.     

Interleukin 2 produced by activated B lymphocytes acts as an autocrine proliferation-inducing lymphokine

Normal peripheral blood B cells produce a soluble factor after activation that is functionally indistinguishable from interleukin 2 (IL 2) and can support B cell proliferation in vitro. Purified rabbit peripheral blood B cells, when stimulated with a combination of ionomycin (0.5 microgram/mL) and phorbol myristate acetate (PMA) (1 ng/mL), secreted a soluble factor in the culture medium that supported the IL 2-dependent cell line CTLL-2. The ability of these supernatants to support CTLL-2 growth was almost completely blocked by rabbit antibodies against human recombinant IL 2 and by the anti-IL 2 receptor monoclonal antibody 7D4. These data strongly suggest that the growth factor secreted by rabbit B cells is IL 2. To examine the possibility that the IL 2 activity detected in the B-cell cultures may be derived from residual T cells, B cells were further purified by successive panning with a pan-T-cell monoclonal antibody, L11-135, and goat anti-rabbit IgG. These highly purified B cells produced levels of IL 2 activity comparable to those produced by the initial B cell populations. Comparison of IL 2 production by decreasing numbers of purified T cells and purified B cells also indicated that the B cells were the source of IL 2 activity. Supernatants of activated B cells could support proliferation of B-cell blasts, and this activity could be completely absorbed by CTLL-2 cells, indicating that IL 2 is a major growth factor for B cells.(ABSTRACT TRUNCATED AT 250 WORDS)     

rIL 2-induced proliferation of human circulating NK cells and T lymphocytes: synergistic effects of IL 1 and IL 2

Cells participating in the rIL 2-induced proliferation of resting PBMC were identified by using different methods of cell purification. NK cells recovered in the light density fraction of Percoll gradients responded, as already known, directly to rIL 2 by strong proliferation. In contrast, large T lymphocytes co-purifying with NK cells, and small T cells sedimenting in the high density area of the Percoll gradients, were virtually unresponsive when cultivated in the sole presence of rIL 2. However, the addition of either irradiated autologous monocytes or highly purified IL 1 allowed both kinds of T cells to undergo cell division. Stringent elimination of possibly contaminating NK cells (NKH-1+) and/or activated T cells (TNKTAR, Tac+, HLA-DR+) from the high density T cells by complement lysis did not impair rIL 2-induced cell proliferation, indicating entire responsiveness of these cells to the synergistic action of IL 1 plus IL 2. Both high density CD4+ and CD8+ participated in this phenomenon, with an apparent advantage for CD4+ cells. All Tac+ cells emerging in a 6-day culture of these cells expressed the WT31 antigen, which indicates that T cells involved in rIL 2-induced proliferation are conventional mature T cells. The relative precursor frequencies of NK cells, large T lymphocytes, and small T lymphocytes that proliferated in response to rIL 2 were analyzed by limiting dilution analysis. The frequencies of clonal growth of NK cells and low density T lymphocytes were approximately the same (1/103 vs 1/185), whereas that of high density T cells was four times lower (1/458). Thus, we clearly demonstrate that resting T cells, defined as such by morphological, density, and phenotypic criteria, are able to proliferate in response to IL 2 in the presence of IL 1 without antigenic or mitogenic triggering.     

Interleukin 1 increases collagen type IV production by murine mammary epithelial cells

The effects of human interleukin 1 (IL 1) on collagen type IV production by normal mouse mammary epithelial cells were examined. Human IL 1 was derived from the culture media of peripheral blood monocytes or placental cells that were stimulated with silica. Although crude culture media of silica-stimulated monocytes or placental cells had no enhancing activity for type IV collagen production, IL 1-containing fractions obtained by Sephacryl S-200 gel chromatography and isoelectrofocusing from such media possessed considerable activity. To confirm the effects of IL 1 on collagen production, human monocyte-derived IL 1 was highly purified by sequential isoelectrofocusing, anion-exchange (AX 300), high-performance liquid chromatography (HPLC), and HPLC gel filtration (TSK 3000). The same HPLC gel filtration fractions contained both an activity that stimulated collagen synthesis by mammary cells and thymocyte growth-promoting activity. These activities of IL 1 differed from a number of other factors, such as epidermal growth factor and another factor produced by placental cells that stimulated type IV collagen production but not thymocyte proliferation. In fact, IL 1 induced 100-fold less collagen type IV production by mammary epithelial cells than was needed to induce thymocyte proliferation. Our data suggest that IL 1-like molecules, which reportedly are produced by many tissue cell types, may therefore play a role in promoting a basement membrane formation at stromal-epithelial boundaries.     

Conditions for the generation of autoreactive human T cell clones: requirement for lymphokines other than interleukin 2 alone

In an attempt to determine whether factors other than interleukin (IL) 2 alone were necessary for the generation of autoreactive suppressive T cell clones, lymphocytes from HLA-Dw-matched allogeneic mixed leukocyte cultures (MLC) were propagated and cloned in purified IL 2, partially purified IL 2, conditioned medium (CM) from stimulated peripheral blood mononuclear cells (PBMC), or with purified IL 2 plus IL 3, IL 4, or interferon-gamma (IFN-gamma). Cloning efficiencies were very low in all cases (less than 10%) and of 48 clones tested only 6 were capable of autocrine proliferation after stimulation with autologous PBMC. Four of these clones were derived from populations expanded and cloned in CM, one from cultures with partially purified IL 2, and one with purified IL 2. All were CD4+ alpha/beta-T cell receptor. Their stimulation was blocked by anti-DR and broadly reactive MHC class II-specific monoclonal antibodies (mAb) but not by anti-DQ or anti-DP mAb. One clone was blocked exclusively by broad mAb but not by anti-DR, -DQ, or -DP mAb, and this was the only clone to suppress lymphocyte proliferation in allogeneic MLC, a property previously described for autoreactive clones derived under similar conditions detecting potentially novel lymphocyte activating determinants designated "DY." These results therefore suggest that DY-specific autoreactive suppressive clones are produced under these conditions only at a low frequency and that an unidentified factor other than IL 2, IL 3, IL 4, or IFN-gamma is involved in their generation.     

Induction of interleukin 3 but not interleukin 2 or interferon production in the syngeneic mixed lymphocyte reaction

The syngeneic mixed lymphocyte reaction (SMLR) was assayed in the medium containing syngeneic normal mouse serum (NMS), by using nylon-adherent stimulator cells and nonadherent responder T cells, which were prepared from murine spleens in the absence of fetal calf serum (FCS) to avoid any sensitization to xenogeneic protein antigens. The responder cells in this SMLR, without definite background proliferation, generated specific proliferative response to the syngeneic stimulator cells in a dose-related fashion. The SMLR was accompanied by production of interleukin 3 (IL 3) but not interleukin 2 (IL 2) or interferon (IFN). No cytotoxicity against the syngeneic or allogeneic target cells was induced. Correlating with no production of IL 2 or IFN, no natural killer (NK) activity was detected. The proliferation was not inhibited by addition of specific antiserum for IFN-gamma. In contrast, proliferation in the responder cells when incubated with allogeneic stimulator cells was inhibited by anti-IFN-gamma serum and accompanied by production of IL 2 and IFN as well as IL 3, and by augmentation of NK activity and generation of cytotoxic T cells. Cell surface analysis revealed that the cells producing IL 3 in this SMLR system were Thy-1+ Lyt-1+2- helper T cells. Cells responding to the SMLR culture fluids with DNA replication were Thy-1-Lyt-1-2- asialo GM1- no-marker cells, which were the same as a population responsible for partially purified IL 3. On the other hand, when the responder cells were exposed to FCS before culture and assayed for SMLR in the FCS-free NMS medium, variable levels of IL 2 production were induced in response to the stimulator cells. The responder cells generated a high background DNA replication in the absence of syngeneic stimulators, suggesting that this IL 2 production may result from the stimulation of T cells by FCS as a foreign antigen. Overall, these results suggest that the SMLR may be a cellular interaction, in which non-T cells stimulate Lyt-1+2- helper T cells to produce IL 3 but not IL 2 or IFN. This IL 3 can, in turn, induce proliferation of IL 3 responding cells, which appear to be early precursors in lymphocyte differentiation, but no proliferative response or activation of IL 2- and IFN-dependent mature T cells or NK cells.     

Induction of interferon-gamma production by human natural killer cells stimulated by hydrogen peroxide

Interferon (IFN)-inducing activity of hydrogen peroxide in human peripheral mononuclear cells was investigated. Among the mononuclear cells, purified nonadherent cells produced IFN, but not B cells and monocytes. The maximal titer of IFN by purified nonadherent cells was observed after a 72-hr cultivation in the presence of 10(-2) mM H2O2 without affecting their viability. Furthermore, the purified nonadherent cells, but not the unpurified mononuclear cells, showed an augmented cytotoxicity to K562 when stimulated with hydrogen peroxide. By using Percoll discontinuous density gradient centrifugation, peripheral blood nonphagocytic and nonadherent mononuclear cells were divided into the low and high density fractions for which natural killer (NK) cells and T cells were enriched, respectively. The NK-enriched low density fractions, but not the T cell-enriched high density fractions, showed IFN production by the stimulation of hydrogen peroxide. IFN production as well as large granular lymphocytes and HNK-1+, Leu-11+ cells of the NK-enriched fractions were abrogated by treatment of the cells with monoclonal antibody against human NK cells (HNK-1+) but not against T cells (OKT3) in the presence of complement. Moreover, hydrogen peroxide-inducing IFN production seems to be regulated by monocytes. The antiserum neutralizing IFN-alpha and IFN-beta failed to neutralize substantially IFN-produced NK cells. The treatment with either pH 2 or antiserum-neutralizing human IFN-gamma resulted in marked reduction, indicating that a major part of IFN was IFN-gamma. The purified nonadherent cells showed IFN production and augmented cytotoxicity when cultured separately from activated macrophages by opsonized zymosan; furthermore, both IFN production and enhancement of cytotoxicity were abrogated by catalase. These results suggest that both exogenous and endogenous hydrogen peroxide might be responsible for a part of immunoregulation.     

Effects of natural and recombinant IL 2 on regulation of IFN gamma production and natural killer activity: lack of involvement of the Tac antigen for these immunoregulatory effects

Highly enriched populations of human large granular lymphocytes (LGL), natural killer (NK) cells, and T cells were obtained from low and high density fractions, respectively, of discontinuous Percoll gradients. The NK cells were composed of 75 to 90% LGL, with the majority of the contaminating cells being monocytes. The T cells were greater than 95% OKT3+. The proliferative and cytotoxic progenitors in both fractions were examined by using a limiting dilution assay with interleukin 2 (IL 2) from four sources: 1) crude supernatant of a gibbon lymphoma (MLA-144), 2) purified (150,000-fold) MLA-144 IL 2, 3) partially purified human IL 2, and 4) purified recombinant human IL 2. The proliferative capacity was measured at day 7 by [3H]thymidine incorporation, whereas the progenitors of cells with NK-like activity were evaluated by assessing cytotoxic activity against K562 cells at day 8 in a 4-hr 51Cr-release assay. The frequency of proliferative progenitors among T cells was approximately 1/5 and was approximately 1/60 with LGL. Titration of the highly purified IL 2 preparation demonstrated that LGL proliferated with as little as 2 U of IL 2. The frequency of detectable cytotoxic progenitors in the LGL population, however, fell sharply when less than 40 U of IL 2 were employed. The T cells failed to demonstrate cytotoxic activity against the NK-susceptible target cells at any concentration of IL 2 tested. The IL 2 preparations also were examined for their ability to directly and rapidly enhance the cytotoxic activity of highly purified NK cells. All four preparations of IL 2 enhanced the cytotoxic activity of LGL without any detectable accessory requirement after incubation for as little as 6 hr, even though the MLA-144 IL 2 preparations were devoid of detectable interferons (IFN). These data indicate that IL 2 has dual effects on NK cells, regulating their activity was well as promoting their proliferation. Collectively, these results demonstrate that highly purified IL 2, devoid of other detectable lymphokines, is capable of supporting the growth of human NK cells and augmenting their in vitro activity. In parallel experiments, these same IL 2 preparations were quite active in causing the proliferation of T lymphocytes, clearly demonstrating a role of IL 2 in promoting the proliferation of NK cells as well as T cells. The mechanism of IL 2 boosting appears to be a direct interaction with LGL, resulting in the production of IFN gamma.(ABSTRACT TRUNCATED AT 400 WORDS)