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.     

Lysis of dengue virus-infected cells by natural cell-mediated cytotoxicity and antibody-dependent cell-mediated cytotoxicity

Peripheral blood mononuclear cells (PBMC) from humans without antibodies to dengue 2 virus lysed dengue 2 virus-infected Raji cells to a significantly greater degree than uninfected Raji cells. The addition of mouse anti-dengue antibody increased the lysis of dengue-infected Raji cells by PBMC. Dengue 2 immune human sera also increased lysis of dengue-infected Raji cells by PBMC. These results indicate that both PBMC-mediated cytotoxicity and antibody-dependent cell-mediated cytotoxicity (ADCC) can cause significant lysis of dengue-infected Raji cells. The lysis of infected Raji cells in the ADCC assay correlated with the dilution of dengue-specific antibody which was added, indicating the dengue virus specificity of the lysis of dengue virus-infected Raji cells. Alpha interferon (IFN alpha) was detected in the culture supernatant of PBMC and dengue-infected Raji cells. However, enhanced lysis of dengue-infected Raji cells by PBMC may not be due to the IFN produced, because neutralization of all IFN activity with anti-IFN alpha antibody did not decrease the lysis of dengue-infected cells, and effector cells pretreated with exogenous IFN alpha also lysed dengue-infected cells to a greater degree than uninfected cells. The effector cells responsible for lysis of dengue virus-infected Raji cells in the natural killer and ADCC assays were analyzed. Nonadherent PBMC caused more lysis than did adherent cells. Characterization of nonadherent cells with monoclonal antibodies showed that the predominant responsible effector cells were contained in OKM1+ and OKT3- fraction in the natural killer and ADCC assays.     

The recognition specificity of a murine helper T cell for hemagglutinin of influenza virus A/PR/8/34

Human large granular lymphocytes (LGL), which are known to be responsible for natural killer (NK) cell activity, also produced a variety of lymphokines including interleukin 2 (IL 2), colony stimulating factor (CSF), and interferon (IFN) in response to phytohemagglutinin (PHA) or concanavalin A (Con A). Human peripheral blood LGL, which were purified by removal of monocytes adhering to plastic flasks and nylon columns, followed by separation on a discontinuous Percoll gradient, and additional treatment with anti-OKT3 and Leu-M1 plus complement, were more potent producers of these lymphokines than unseparated mononuclear cells (MNC), nylon column-eluted cells, or purified T lymphocytes. Moreover, IL 2 production by LGL could be further distinguished in that it was not enhanced by the addition of macrophages or macrophage-derived factor, i.e., IL 1, whereas addition of macrophages did potentiate IL 2 production by T lymphocytes. Further analysis of cells in the LGL population using various monoclonal antibodies revealed that removal of cells with OKT11 or AF-10, a monoclonal antibody against human HLA-DR antigen, decreased IL 2 production, whereas removal of OKT8+, OKM1+, Leu-M1+, or Leu-7+ cells led to enhanced IL 2 production. The LGL population is therefore heterogeneous and includes at least three functionally and phenotypically distinct subsets. An atypical T cell subset (OKT3-, Leu-1-, OKT11+) rather than the myeloid subset of LGL (Leu-M1+ or OKMI+) was the source of LGL-derived IL 2, whereas the latter subset and/or another subset of OKT8+ cells appear to regulate this IL 2 production. In addition to performing NK activity, LGL on a per cell basis seem to be more effective than T lymphocytes in producing lymphokines, namely, IL2, CSF, and IFN.     

Recombinant interleukin 2 rapidly augments human natural killer cell activity

Recombinant human interleukin 2 (r-IL-2) rapidly stimulated human natural killer cell activity in vitro. Augmentation of NK activity occurred within 1 hr of preincubation with r-IL-2. Responsive killer cells were typical NK cells as shown by cell fractionation procedures. These included Percoll density gradient separation and depletion of OKT3+ T cells by an indirect rosetting method. Analysis with a panel of polyclonal and monoclonal antibodies against alpha and gamma interferon revealed that this early enhancement of NK activity by r-IL-2 was independent of the production of both types of interferon.     

Interferon-alpha induction of lymphocytes containing parallel tubular structures

The induction by IFN-alpha in peripheral blood lymphocytes of parallel tubular structures (PTS) and/or electron-dense granules occurring in a minority of peripheral blood lymphocytes was examined. IFN reportedly augments natural killer (NK) cell activity of large granular lymphocytes (LGL); these cells contain PTS and/or electron-dense granules. Normal peripheral blood mononuclear cells were incubated with IFN-alpha and surface antigen expression was measured by means of indirect immunofluorescence and, at the ultrastructural level, using gold labelled monoclonal antibodies. Surface antigen reactivity with the monoclonal antibodies OKT 3, 4, 8 and Anti-Leu-7 (HNK-1) showed no difference between the IFN-alpha incubation and non-IFN-alpha groups. However, electron microscope investigation revealed significant absolute increases in the percentage of OKT 8+ and Anti-Leu-7+ cells which were PTS-positive after IFN-alpha treatment compared with the control groups. The cytotoxicity assay using the K562 cell line showed enhanced lytic activity. Our results suggest that cells coexpressing the OKT 8 and Leu-7 antigens may be responsible for a minor proportion of the increase in PTS but that IFN-alpha mainly induces PTS and/or associated structures in cells which express the OKT 8+ antigen. These PTS+/OKT 8+ cells may contribute to enhanced cell cytotoxicity.     

Differential replication of human immunodeficiency virus type 1 in CD8- and CD8+ subsets of natural killer cells: relationship to cytokine production pattern.

CD8+ and CD8- subsets of peripheral blood natural killer (NK) cells were examined for susceptibility to infection with human immunodeficiency virus type 1 (HIV-1) and for the ability to produce various types of interferon (IFN) and tumor necrosis factor (TNF). HIV-1 was preferentially grown in CD8+ NK cells. The ability of CD8- NK cells to suppress HIV-1 replication was related to their ability to produce alpha IFN (IFN-alpha) upon viral induction. Induction with interleukin-2 resulted in IFN-gamma production in both subsets of NK cells. In the CD8+ subset, IFN-gamma and HIV-1 mutually enhanced the production of TNF alpha, leading to hyperactivation of viral replication, whereas in CD8- NK cells IFN-gamma primed HIV-induced IFN-alpha production. The dichotomous effects of IFN-gamma on HIV-1 replication were dependent on the IFN-alpha-producing ability of the cellular targets. These findings can explain the selective depletion of the CD16+ CD8+ subset that begins early in the in vivo HIV-1 infection.     

Natural killer (NK) cells as a responder to interleukin 2 (IL 2). II. IL 2-induced interferon gamma production

In the accompanying paper, we showed that natural killer (NK) cells were a major population in the naive spleens of normal mice that responded directly to a T cell growth factor, interleukin 2 (IL 2), and clonally replicated without other stimulating agents. The cloned cells growing in IL 2 showed a potent NK activity against several NK targets without addition of an NK-activating agent, interferon (IFN). In the present study, therefore, we examined whether these cloned NK cells on their own produced IFN. It was found that all NK clones growing in IL 2 produced IFN in the culture fluids. The titers of IFN produced in the IL 2-containing media correlated well with the number of growing cells. With the culture in the absence of IL 2, neither cell growth nor IFN production could be detected. Addition of Con A into the culture in the IL 2-free media showed no IFN production. The antiserum neutralizing IFN alpha and IFN beta failed to significantly neutralize IFN produced by NK clones. Treatment with either a pH of 2.0 or antiserum neutralizing mouse IFN gamma resulted in a marked reduction of IL 2-induced NK IFN, indicating that a major part of IFN produced was IFN gamma. These results indicate that IL 2 stimulates NK clones to proliferate, accompanied by IFN gamma production. The results also show that an NK clone, when stimulated with Sendai virus, produced a type 1 IFN (IFN alpha and/or IFN beta), suggesting that murine NK cells can produce both type 1 (alpha and/or beta) and type 2 (gamma) IFN, depending on inducers.     

Natural killer cells in the blood and bone marrow of the rhesus monkey

Natural killer (NK) cells in peripheral blood lymphocytes (PBL) and bone marrow (BM) cells of the rhesus monkey were detected by their functional activity against K562 cells. Animals could be grouped into "high" or "low" NK responders, a trait found to be consistent over a period of 2 years. NK active cells in PBL were in the nonadherent population, with the majority bearing Fc receptors and a further subdivision of these into CR+ (complement receptor) and CR- NK cells. Of 10 monoclonal antibodies directed against different epitopes of human lymphocytes, OKT11, OKT10, and Leu 11 showed reactivity with rhesus NK cells. Only OKT10 was reactive with the effector site of the cell, as shown by its capability to block NK function. Of the Leu 11 monoclonal antibodies (a, b, c), Leu 11c was nonreactive while Leu 11a and Leu 11b were shown by immunofluorescence to bind to 7 to 21% of PBL; Leu 11b was also cytotoxic to the NK cells. Leu 11b did not prevent binding of Leu 11a to PBL, suggesting reactivity of these antibodies with different epitopes. Percoll fractionation of PBL and BM revealed a greater enrichment of NK activity with BM; also, with PBL peak NK activity occurred in fractions 4 and 5 while this occurred in fraction 5 with BM. Although Percoll PBL fractions contained a higher percentage of Leu 11b cells, the NK activity of the BM fractions was proportionately greater. The majority of PBL cells with NK activity were FcR+ while significant activity could be attributed to FcR- cells of BM, in both the unseparated and Percoll fractions of each tissue. The data suggest NK active cells of BM may be distinct from those found in PBL.     

Regulation of human natural cytotoxicity by IgG. III. Interaction between negative regulation by monomeric IgG and positive regulation by interferons of different types

Our prior reported results have demonstrated the dose-dependent inhibition of human natural killer (NK) cell activity upon treatment of peripheral blood mononuclear cells (PBMC) with monomeric IgG (mIgG) prior to the cytotoxic assay. In the present study, the combined effects on NK activity of human interferon (IFN) of each of the three types and mIgG, respectively, were determined. NK cells incubated with IFN alpha or IFN beta had augmented cytotoxicity against K562 target cells but remained responsive to negative regulation by mIgG. PBMC treated with human recombinant IFN gamma had unchanged cytotoxic activity but became partially resistant to suppression by mIgG. This ability of IFN gamma to interfere with the negative regulation of NK activity by cytophilic mIgG was seen when the cytokine was preincubated with effector cells prior to, simultaneously with, or after their exposure to inhibitor protein. These data provide some clues regarding the possible biological significance of the mIgG-induced down-regulation of NK cells which, when required for host protection, might be appreciably reversed or blocked by IFN gamma produced by NK cells or T cells in response to various agents.     

Monoclonal antibody-defined surface markers of effector cells involved in human monocyte cytotoxicity

Human adherent peripheral blood mononuclear cells were cytotoxic in vitro against the murine TU5 line in a 48-hr [3H]thymidine-release assay. Monocyte-enriched adherent cell preparations contain a small and variable (usually less than 5%) contamination with large granular lymphocytes as assessed by morphology and staining with monoclonal antibody markers B73.1 and HNK1. To assess whether killing was in fact mediated by monocytes, mononuclear cells or monocyte-enriched preparations were separated using monoclonal antibodies directed against mononuclear phagocytes (Mo2, UCHM1, B44.1) or natural killer (NK) cells (B73.1 and HNK1), and a fluorescence-activated cell sorter. Cells positive for monocyte markers were highly cytotoxic against TU5, whereas negative cells were not. B73.1+ or HNK1+ cells had little or no activity. Cytotoxicity of cells positive for monocyte markers (Mo2, UCHM1, B44.1) was augmented by in vitro exposure to lymphokines or less frequently to interferon (IFN). However, cells negative for these monocytes markers were also stimulated to kill TU5 by lymphokine or IFN to an extent similar or greater than that of positive ones. IFN or lymphokines induced killing of TU5 by monocyte-depleted, B73.1-positive, lymphoid cells. These observations demonstrate that human monocytes do kill tumor cells, either in the absence of deliberate stimulation or after exposure to agents such as lymphokines. However, the possible contribution to "monocyte" cytotoxicity of minor NK cell contaminants must be taken into account particularly when agents such as IFN and lymphokines are applied, even when a relatively NK-cell-resistant target such as TU5 is used.     

Effects of interleukin-18 on natural killer cells: costimulation of activation through Fc receptors for immunoglobulin

The antitumor activity of monoclonal antibodies is mediated by effector cells, such as natural killer (NK) cells, that express Fc receptors for immunoglobulin. Efficacy of monoclonal antibodies, including the CD20 antibody rituximab, could be improved by agents that augment the function of NK cells. Interleukin (IL)-18 is an immunostimulatory cytokine that has antitumor activity in preclinical models. The effects of IL-18 on NK cell function mediated through Fcγ receptors were examined. Human NK cells stimulated with immobilized IgG in vitro secreted IFN-γ as expected; such IFN-γ production was partially inhibited by blocking CD16 with monoclonal antibodies. IL-18 augmented IFN-γ production by NK cells stimulated with immobilized IgG or CD16 antibodies. NK cell IFN-γ production in response to immobilized IgG and/or IL-18 was inhibited by chemical inhibitors of Syk and several other kinases involved in CD16 signaling pathways. IL-18 augmented antibody-dependent cellular cytotoxicity (ADCC) of human NK cells against rituximab-coated Raji cells in vitro. IL-18 and rituximab acted synergistically to promote regression of human lymphoma xenografts in SCID mice. Inasmuch as IL-18 costimulates IFN-γ production and ADCC of NK cells activated through Fc receptors in vitro and augments antitumor activity of rituximab in vivo, it is an attractive cytokine to combine with monoclonal antibodies for treatment of human cancer.     

Natural killing target antigens as inducers of interferon: studies with an immunoselected, natural killing-resistant human T lymphoblastoid cell line

The human T lymphoblastoid cell line CEM was subjected to immunoselection by co-culture with peripheral blood mononuclear cells (PBMC) for resistance to natural killer (NK) cell-mediated lysis. The NK susceptibility of the resulting subline, CEM.NKR, was 8.4 to 20.6% of that of CEM when PBMC or adherent cell-depleted PBMC were used as effector cells, and -7.1 to 12.1% of that of CEM when Percoll gradient-enriched large granular lymphocytes (LGL) were used. However, CEM and CEM.NKR exhibited comparable sensitivity to antibody-dependent cellular cytotoxicity. Unlabeled CEM was eight- to 32-fold more effective than unlabeled CEM.NKR in inhibiting the NK lysis of labeled CEM target cells, and CEM bound 1.9 to 3.9-fold more Percoll gradient-enriched LGL than CEM.NKR in single cell-binding assays, suggesting that the NK-resistant variant has lost the expression of NK target antigens. However, CEM.NKR was comparable to CEM in its ability to induce interferon (IFN)-alpha production by PBMC in vitro, and the NK-resistant variant maintained its susceptibility to the antiproliferative effects of IFN-alpha, indicating that these phenomena may be mediated by molecules other than NK target structures. Comparison of CEM and CEM.NKR by indirect immunofluorescence with monoclonal antibodies specific for leukocyte antigens and the transferrin receptor, and by microcytotoxicity typing for HLA-A and B specificities, revealed no major differences.     

Interferon and natural killing of human lymphoma cell lines after induction of the Epstein Barr viral cycle by superinfection

Interferon (IFN) production during natural killer (NK) cell assays with Raji, an EBV-carrying human lymphoma-derived cell line, was studied to determine whether IFN generated by effectors in vitro acted in target cell lysis. In 4-hr tests, Raji is insensitive to NK but becomes susceptible after superinfection with the P3HR-1 strain of EBV. IFN was not detectable by bioassay in supernatants from 4-hr assays, and the addition of antibody to IFN did not prevent the lysis of the superinfected Raji cells. In 18-hr tests the NK sensitivity of the superinfected Raji cells was markedly elevated, and a percent of the normal Raji cells was also killed. IFN alpha was found in supernatants from 18-hr tests. Antibody to IFN alpha markedly reduced the killing of superinfected Raji and slightly reduced cytotoxicity against control Raji in 18-hr tests. Taken together these results indicate that what is referred to as natural killing has IFN-related and IFN-nonrelated components.     

Histamine H2-receptor-mediated regulation of human natural killer cell activity

We have investigated effects of histamine on the spontaneous cytotoxic activity of human natural killer (NK) cells in vitro. Addition of histamine (10(-3) to 10(-7) M) to assay cultures of Percoll-fractionated mononuclear cells (MNC) and erythroleukemic K 562 target cells resulted in a strong enhancement of the cytotoxicity of low-density MNC, enriched for NK cell cytotoxicity (NKCC). No enhancing or suppressing effects of histamine could be detected after removal of monocytes/adherent cells from the effector cell suspensions. When unfractionated MNC were used as NK effectors, similar results were obtained, i.e., dose-dependent enhancement of NKCC by histamine in the presence of monocytes and lack of effect in nonadherent effector cells. Freshly isolated monocytes displayed low spontaneous cytotoxicity against K 562 targets and were not induced by histamine. The histamine-induced enhancement was mimicked by dimaprit, a specific histamine H2-receptor agonist, but not by N-methyldimaprit, a chemical control for H2-receptor agonist activity of dimaprit. Furthermore, the enhancement was completely antagonized by the specific histamine H2-receptor antagonists cimetidine and ranitidine. The effect of histamine could not be ascribed to endogenous interferon (IFN) production, since no IFN activity could be detected in histamine-treated MNC effectors. Also, the enhancing effects of histamine and human leukocyte IFN-alpha were clearly additive. On the basis of these findings, we suggest that histamine, via specific activation of H2 receptors, may be an important regulator of human NK cell activity.     

Lysis of human cytomegalovirus infected fibroblasts by natural killer cells: demonstration of an interferon-independent component requiring expression of early viral proteins and characterization of effector cells

We investigated the susceptibility of cells infected with human cytomegalovirus (HCMV) to lysis by human natural killer (NK) cells, examining in particular its relationship to sequential viral protein expression, interferon (IFN), and the nature of the effector cells. HCMV-infected fibroblasts were lysed by peripheral blood mononuclear cells from normal seronegative individuals. The effector cells were large granular lymphocytes of Leu-7+, Leu-11+, and to a lesser extent Leu-7- phenotype. Depletion studies suggested they were the same population of NK cells that lyse uninfected fibroblasts, but a subset of NK cells that lyse K562 cells. HCMV-infected cells treated with phosphonoformate and cells infected for 16 hr that only express the nonstructural HCMV immediate early and early proteins and not the late (structural) proteins were susceptible to lysis by IFN-pretreated effector cells, whereas cells expressing immediate early antigens alone were not. This enhanced susceptibility to lysis was associated with increased effector:target binding in target cell binding assays, and was competitively inhibited by uninfected fibroblasts in cold target competition assays. It was independent of IFN release from the infected target cells or effector cells. These results suggest that the increased susceptibility to lysis by NK cells produced by a human herpes virus HCMV i) is manifest when early viral proteins are expressed, ii) is related to enhanced expression of a target structure likely to be present on uninfected fibroblasts, and iii) has a major component that is independent of IFN.     

Tumor necrosis factor-alpha enhances cytolytic activity of human natural killer cells

The effect of recombinant tumor necrosis factor-alpha (rTNF alpha) on human natural killer (NK) function was examined. Lysis of both the NK-sensitive K562 erythroleukemia line and the relatively insensitive renal carcinoma line Cur by nonadherent peripheral blood lymphocytes was significantly enhanced as a result of an 18-hr preincubation with either rTNF alpha or recombinant interleukin 2 (rIL 2). When cells were preincubated with rTNF alpha and low doses of rIL 2 (1 to 10 U/ml), marked additional augmentation of lysis of both targets was noted which was greater than that caused by either cytokine alone. Similar results were observed when responses of CD16+ large granular lymphocytes selected with the fluorescence-activated cell sorter after staining with the NK-specific monoclonal antibody Leu-11 were examined, indicating that the action of the cytokines was directly on the cytotoxic cells. Augmentation of tumor cell lysis could not be ascribed to a cytolytic activity of rTNF alpha on the targets, because no combination of rIL 2, rTNF alpha, or interferon-gamma caused lysis of K562 or Cur. By flow cytometric analysis, it was found that expression of IL 2 receptors was induced on purified CD16+ large granular lymphocytes by rTNF alpha alone and to an even greater degree by the combination of rTNF alpha and rIL 2. Additional analysis of the expression of surface antigens and blocking studies with monoclonal antibodies showed that enhanced tumor cell lysis was not caused by the augmentation of leukocyte function-associated antigen-1-mediated effector/target interactions. These data indicate that rTNF alpha alone, or in combination with rIL 2, directly augments NK cytotoxic activity.     

Suppressor T cell activation by human leukocyte interferon

Murine fibroblast interferon (IFN beta) activates murine suppressor T lymphocytes in vitro, which suppress plaque-forming cell responses by spleen cells. Suppression of human in vitro immune responses by IFN was investigated to determine whether human IFN also activates suppressor T cells. Human leukocyte IFN (IFN alpha) suppressed pokeweed mitogen-induced polyclonal immunoglobulin production by human peripheral blood mononuclear cells (PBMC) by 80 to 90% at doses of 200 to 350 U/ml. Responses by IFN alpha-treated PBMC were suppressed in a dose-dependent manner; control cultures had maximal responses on day 7. PBMC incubated with 10,000 U/ml of IFN alpha contained activated suppressor cells that decreased pokeweed mitogen-stimulated, polyclonal immunoglobulin production by autologous cells by 70 to 80%. Suppression mediated by these cells was prevented by catalase, ascorbic acid, and 2-mercaptoethanol (2-ME). In murine systems, these reagents interfere with expression of suppressor T cell activity by preventing activation of soluble immune response suppressor. Selection procedures with monoclonal antibodies identified the suppressor cell as an OKT8+ (suppressor/cytotoxic) T lymphocyte. Selected OKT8+ cells required less IFN alpha (1000 U/ml) for activation and were effective in smaller numbers than unfractionated activated PBMC. IFN alpha-activated suppressor cells also inhibited proliferation in mixed lymphocyte and mitogen-stimulated PBMC cultures; again, catalase and 2-ME blocked suppression. These results indicate that IFN alpha activates suppressor T cells in human PBMC cultures; the ability of catalase, 2-ME, and ascorbic acid to block suppression suggests that these suppressor T cells have certain similarities to IFN beta or to concanavalin A-activated murine suppressor T cells.     

Expression of markers shared between human natural killer cells and neuroblastoma lines

Summary Neuroblastoma is a tumor of neuroectodermal origin arising most commonly from the adrenal medulla. We have examined the ability of several monoclonal antibodies which recognize markers predominantly expressed on human natural killer (NK) cells to react with neuroblastoma cell lines in vivo derived sections of tumor. HNK-1 (Leu 7) is a monoclonal IgM antibody which recognizes a carbohydrate epitope on NK cells and a wide range of tumor cell types. We have shown that HNK-1 recognizes the human neuroblastoma lines SMS-KCNR, SMS-KAN, NMB/N7, and IMR/5. Expression of this antigen on cell lines can be slightly increased by retinoic acid-induced differentiation of the cells. N901 (NKH1), a monoclonal antibody raised against interleukin 2-dependent human NK cell lines also recognizes all human neuroblastoma cell lines examined. This expression is independent of differentiation induction and levels remain unaltered following retinoic acid treatment of the cell lines. Lastly, with monoclonal antibody 49H.8, it has been found that reactivity of the lines is weak until induction of differentiation, after which highly significant increases of reactivity are seen. 49H.8 recognizes several cryptic carbohydrate antigens with varying affinities, shown to identify mouse and rat NK cells. In contrast to other NK markers, human neuroblastoma cell lines did not express significant reactivity with B73.1, Leu 11b, or Leu 18. Immunohistochemical staining of sections of human neuroblastoma tumors correlated with the in vitro findings; however, staining with N901 and 49H.8 was only seen on frozen sections, not paraffin-embedded. The significance of shared NK cell-neuroblastoma/neuron antigens is currently under investigation.     

Membrane interactions involved in the induction of acid labile interferon alpha

Human normal peripheral blood mononuclear cells (PBMC) produce acid-labile interferon (IFN) alpha when stimulated in vitro with HIV-infected cells fixed with glutaraldehyde. The cells responsible for IFN production are mainly B lymphocytes. The present study was aimed to further elucidate the cellular source of this IFN and to analyze the membrane interactions involved in the induction process. To this purpose PBMC were stimulated with inducers of acid labile IFN alpha in the presence or absence of a panel of monoclonal antibodies (MoAbs) against antigens of the lymphocyte membrane, namely HLA Class I and II and CD4. The results indicate that both HLA Class II and CD4 antigens are involved in the induction process. Conversely B cell lines seem capable of producing conventional alpha IFN but they fail to produce acid labile IFN alpha even in the presence of cooperating CD4 positive T cell lines. Furthermore PBMC cultured for more than 20 hours prior to stimulation lose the ability to produce acid labile IFN alpha, while remaining fully capable of producing conventional IFN alpha and gamma. It remains to be established whether this phenomenon reflects the disappearance of some membrane structure necessary for acid labile IFN alpha induction, or whether it is due to some early appearing functional alteration of B cells.