Augmentation of natural killer cytotoxicity by alpha or gamma natural and recombinant interferons and interferon inducers. Effect of monocytes

We investigated the effect of human peripheral blood monocytes on the augmentation of natural killer cytotoxicity by alpha or gamma natural and recombinant interferons (IFN) and certain interferon inducers. We observed that: (1) in the majority of the donors examined (75%) human peripheral blood monocytes do not affect natural killer cytotoxicity, determined by a 4-hour chromium-51 release assay, against target cells from hemopoietic human tumor cell lines. (2) Monocytes are not required and do not affect the augmentation of natural killer cytotoxicity by Escherichia coli-derived IFN-gamma, natural human IFN-gamma, E. Coli-derived IFN-alpha 2 or natural human IFN-alpha. E. Coli-derived IFN-gamma and natural human IFN-gamma have been reported to activate monocyte cytotoxicity determined in 72-hour assay. (3) Monocytes are not required for the augmentation of natural killer cytotoxicity against target cells from hemopoietic tumor cell lines by polyinosinic acid-polycytidylic acid or staphylococcal enterotoxin A.     

Interleukin 2 enhances natural killer cell activity through induction of gamma interferon

Highly purified interleukin 2 (IL 2), free of interferon activity, enhanced natural killer (NK) cell activity against tumor cells in mouse spleen cell cultures and in human peripheral lymphocyte cultures in a manner similar to that of interferon (IFN). We determined that IL 2 enhanced NK activity indirectly in a cascade manner by the induction of gamma IFN (IFN-gamma) in the cultures, which actually mediated the enhanced killing. Accordingly, lymphocyte cultures treated with IL 2 alone produced 10 to 100 U of IFN per ml in 6 to 24 h of culture. The IFN was typed as IFN-gamma by specific antibodies. Specific antibodies either to natural IFN-gamma or to a synthetic peptide corresponding to the human IFN-gamma N-terminal amino acids, when added to cultures treated with IL 2, completely blocked IL 2 enhancement of NK cell activity for both the mouse and human systems. IL 2-induced proliferation was not affected by the antibodies. Thus, the enhancement of NK cell activity by IL 2 is completely mediated by IL 2-induced IFN-gamma. The findings clearly indicate a cascade effect whereby one lymphokine (IL 2) induces the production of another. The latter lymphokine (IFN-gamma) then mediates an important biological effect (natural killing).     

Spontaneous production of gamma interferon and induced production of beta interferon by human T-lymphoblastoid cell lines.

Two human T-lymphoblastoid cell lines, CCRF/CEM and Molt 4, produced beta interferon (IFN-beta) upon infection with Sendai virus. Molt 4, but not CCRF/CEM, spontaneously produced up to 300 U of IFN-gamma per ml, apparently not contaminated with IFN-alpha or -beta. Phytohemagglutinin, a T-cell mitogen, did not stimulate IFN production in these lines. A third T-lymphoblastoid line, CCRF/HSB2, produced no IFN either spontaneously or after infection with Sendai virus or treatment with phytohemagglutinin. The Molt 4 cells contained an mRNA which could be translated by oocytes to give IFN-gamma. Molt 4 cells therefore provide a convenient source of human IFN-gamma and its mRNA for experimental purposes.     

Contact of lymphocytes with Helicobacter pylori augments natural killer cell activity and induces production of gamma interferon.

We studied the capacity of glutaraldehyde-fixed Helicobacter pylori to stimulate natural killer (NK) cell activity. Bacteria were incubated overnight with peripheral blood lymphocytes enriched for large granular lymphocytes (LGL), the mediators of non-major histocompatibility complex-restricted cellular cytotoxicity. Then, the cytolytic activity of LGL was tested against various tumor target cells. We observed that efficient cytolytic activity was generated against resistant and nonresistant tumor target cell lines. Nine local clinical isolates of H. pylori and the reference strain NCTC 11637 were tested, and they all were equally effective in inducing NK cell activity. However, flagellin antigen, glycine extract, urease, and lipopolysaccharide prepared from H. pylori NCTC 11637 all failed to induce significant NK cell activity. The supernatants which were collected after coincubation of bacteria with LGL contained a factor(s) which could activate resting LGL into efficient cytolytic activity. The supernatants were also analyzed for interferon (IFN) activity. We observed that high titers of IFN were produced and that IFN activity was neutralized with anti-gamma interferon (IFN-gamma) antiserum, but not with anti-IFN-alpha antiserum. Thus, contact of lymphocytes with H. pylori leads to efficient stimulation of NK cell activity and the production of IFN-gamma.     

Interferon-gamma is not an antiviral, but a growth-promoting factor for T lymphocytes

The effects of interferon (IFN)-gamma or IFN-alpha/beta on virus yield, (2'-5')oligo(A) synthetase activation, H-2 antigen expression and proliferation of T lymphocytes have been investigated. Under the culture conditions used, vesicular stomatitis virus or Semliki Forest virus replication in T cells was not impaired by the addition of IFN-gamma, whereas it was completely inhibited by the addition of IFN-alpha/beta. In contrast, B cell lines, macrophage-transformed cell lines and fibroblasts were fully protected by both IFN-gamma as well as IFN-alpha/beta following virus infection. The lack of sensitivity of T lymphocytes to the antiviral effects of IFN-gamma was not due to absence of specific membrane receptors, since in saturation binding experiments with 125I-labeled murine IFN-gamma most T cell lines displayed a number of binding sites and a degree of affinity comparable to those found on B cells, which are fully sensitive to IFN-gamma antiviral activity. Analysis of IFN-induced dsRNA-dependent (2'-5')oligo(A) synthetase activity, one of the biochemical markers for cellular responses to IFN, showed that it was not induced in T lymphocytes after IFN-gamma treatment, whereas IFN-alpha/beta induced high levels. Both IFN-gamma and IFN-alpha/beta enhanced H-2 antigen expression on T cells as well as on cells of different histological type. Moreover, when IFN-gamma was tested for its antiproliferative activity on T cells, it was found to consistently potentiate the response of these cells to mitogens or growth factors, rather than inhibit their proliferation. Taken as a whole these results suggest that on T lymphocytes IFN-gamma should not be regarded as an antiviral agent, but rather as a modulator of T cell growth and functional differentiation, transducing intracellular signals dissimilar to those observed with target cells of different origin.     

Natural killer cell activation and interferon production by peripheral blood lymphocytes after exposure to bacteria.

We have previously shown that peripheral blood natural killer (NK) cells have significant levels of cytotoxic activity against Shigella flexneri-infected HeLa cells. In this report, we show that NK cell activity against K562 tumor cells and Shigella flexneri-infected HeLa cells can be greatly enhanced by preincubating peripheral blood lymphocytes (PBL) for 18 h with kanamycin-treated Shigella flexneri or Salmonella typhimurium. Cell-free supernatants obtained from PBL-bacteria cultures contained high levels of interferon (IFN) activity, which was characterized as a mixture of IFN-gamma and IFN-alpha. Cytotoxic activity associated with PBL precultured with shigellae was associated with predominantly CD16+ (Leu-11+) and CD2+ (OKT-11+) cells. Further, IFN production was dependent upon the presence of CD16+ and CD2+ cells at culture initiation. Enhancement of cytotoxic activity associated with PBL-bacteria cultures did not, however, appear to be dependent upon IFN production, since low numbers of bacteria which failed to stimulate IFN production induced high levels of NK cell activity. Lipopolysaccharide appeared not to be involved in bacteria-induced IFN production or enhanced NK cell activity, since Salmonella lipopolysaccharide failed to induce IFN production or enhance NK cell activity. These results suggest that IFN production by NK cells and the killing of bacteria-infected cells play an important role in host defense against facultative intracellular bacterial infections.     

Major histocompatibility complex antigens in v-Ki-ras transformed cells: the different antigens are expressed and induced by interferons independently of one another and of the anti-viral state.

A series of cell lines, which differed in their expression of class I (H-2K) or II (I-A) major histocompatibility complex (MHC) antigens, was derived from a line of C3H/He (H-2k) mouse embryo fibroblasts transformed by the v-Ki-ras oncogene. These were prepared by fluorescence-activated cell sorting of cells stained for these antigens either without interferon (IFN) treatment or after induction of antigen expression by either IFN-alpha beta or IFN-gamma, selecting for low or high staining. Cells selected for low (undetectable) constitutive H-2Kk expression were still strongly inducible by either IFN; cells selected for high constitutive expression were induced by IFN to express still higher levels. In all cell lines induction of H-2Kk with one IFN type was paralleled by induction with the other. Expression of H-2Kk appeared largely independent of H-2Dk; in lines which were selected for low H-2Kk expression (constitutive or induced), H-2Dk expression was not much reduced, and lines selected for high H-2Kk expression showed only modest augmentation of H-2Dk. Varying inducibility of I-Ak by IFN-gamma was not closely paralleled by H-2K inducibility by either IFN-alpha beta or -gamma, with again only weak correlation of high and low expression of H2-Kk and I-Ak. On the other hand, expression of I-Ak seemed to be correlated with I-Ek. None of these variable effects could be attributed to differing sensitivity to IFN-alpha beta or -gamma since all the lines showed about the same sensitivity to the anti-viral effects of IFN.     

The effectors of killer activity induced by interferon-alpha and gamma in peripheral blood mononuclear cells

The nature of effectors of interferon (IFN)-alpha or IFN-gamma-induced killer cell activity remains unclear. The aim of this study was to examine killer cell activity induced by IFN-alpha alone, IFN-gamma alone or a combination of both in patients with renal cell carcinoma (RCC) and to determine the phenotypic patterns of these effectors. The study group included 14 patients (12 men and 2 women, median age 64 years, range 36-77) with confirmed RCC. Peripheral blood mononuclear cells (PBMC) from RCC patients or normal volunteers were cultured with IFN-alpha alone, IFN-gamma alone or a combination of both. Cytotoxic activity was assayed against ACHN cells. Subpopulations of effector cells in IFN-induced killer cell activity were characterized by cell sorting. The most effective type of IFN and the optimal concentration of IFN necessary to induce the maximal killer cell activity varied among RCC patients. The killer activity induced by a combination of IFN-alpha and IFN-gamma was significantly greater than that induced by IFN-alpha or IFN-gamma alone. The greatly increased killer activity induced by IFN-alpha and IFN-gamma was seen in the subpopulations CD3(-) CD16(+), CD3(-) CD56(+) and subpopulation CD3(+)CD4(-), CD3(-)CD16(+), CD3(-)CD56(+), CD57(+)CD16(-), respectively. An optimal type of IFN and optimal concentration of IFN seem to increase the effective rate of treatment of RCC. In addition, the role of IFN-alpha seems to be different from that of IFN-gamma in host defense against RCC. A combination treatment with IFN-alpha and IFN-gamma seems to be suitable to increase the effective rate if we could reduce the side effects of IFNs.     

Clinical model: interferons activate human monocytes to an eradicative tumor cell level in vitro.

Eradicative levels of antitumor activity by cytokines and leukocytes have not yet been reached experimentally and are needed clinically. Only a limited number of human cancers respond to therapy with interferon (IFN), other cytokines, or mononuclear leukocytes despite significant antitumor activity in vitro. We studied the IFN and monocytic cell conditions that would lead to an eradicative effect using human cells in vitro. Targets of the IFN-activated monocytic cells were either four human tumor cell lines (human osteosarcoma [HOS], LOX melanoma, A549 lung tumor, and SNB-19 glioblastoma) or two diploid cell lines (WI38 and MRC5). An average of 30-90 colony-forming tumor target cells were cultured overnight in 96-well tissue culture plates prior to treatment with serially diluted IFN with or without activated elutriation-purified monocytes or lymphocytes. The target cell colonies were treated for 3 days. The colonies were then stained with crystal violet to determine the levels of antitumor activity. IFN-activated human monocytes reached an eradicative level (95%-100%) against three of four tumor cell lines. The eradicative level (1) was induced best in human monocytes activated by combined type I and II IFNs, (2) was effective against tumor cells that were growing for 24 h, (3) was specific for human tumors, as diploid human cells were not inhibited, and (4) required contact between the macrophage and the tumor cells. Also, for the first time, the minimal effective concentration (MEC) of IFNs to activate monocytes can approach those needed for antiviral activity. To our knowledge, this is the first report of near total eradication of many tumor cells, but not diploid cells, by IFN-activated monocytes. Because of its potency and specificity, the IFN-activated monocyte arm of the innate immune system may be a candidate for therapy of established tumors.     

Regulation of Epstein-Barr virus infection by recombinant interferons. Selected sensitivity to interferon-gamma

Interferons (IFN) are antiviral proteins that may be important in mediating cellular defenses against Epstein-Barr virus (EBV) infection. However, the means by which IFN-alpha, -beta and -gamma modify EBV infectivity are not clear. We have evaluated the effects of purified recombinant preparations of all three classes of IFN on EBV-induced B lymphocyte proliferation and Ig secretion. When added early after EBV infection, all three recombinant IFN reduced B cell outgrowth and Ig secretion. IFN-gamma exerted a 7-10-fold more potent antiviral effect than IFN-alpha or -beta. All three types of IFN act directly on B cells. Monocytes and natural killer cells are not necessary for the anti-EBV activity. Of the three recombinant IFN, only IFN-gamma reduced EBV-induced proliferation and Ig secretion when added 3-4 days after virus infection; IFN-alpha/beta were only effective up to 24 h. B lymphoblastoid lines already transformed by EBV are insensitive to the anti-proliferative actions of all three types of IFN. On the basis of these findings, we propose three phases of regulation during EBV infection. In the early phase, EBV-infected cells can be regulated by all IFN. Subsequently, there is an intermediate period where only IFN-gamma is capable of directly affecting EBV-induced B cell responses. In the third phase, B lymphocytes become insensitive to direct actions of all IFN and are now subject to regulation only by cytotoxic cells.     

Induction of human hsp60 expression in monocytic cell lines.

Both bacterial and mammalian heat shock proteins (HSP) are recognized by some T cells, and hsp60 recognition has been implicated in rheumatoid arthritis. We have developed a model to study the induction of hsp60 in human monocytic cell lines. An anti-mycobacterial hsp65 mAb (ML30), cross-reacting with human hsp60 was used to screen 21 human tumor cell lines in Western blot analysis. All T cell and B cell lymphomas constitutively expressed hsp60 protein at moderate to high levels, while little or no hsp60 protein was detected in two monocytic leukemia lines. Moderate to high levels of hsp60 mRNA and protein could be induced in the THP-I monocytic leukemia cell line by heat shock, retinoic acid, interferon (IFN)-gamma or tumor necrosis factor (TNF)-alpha treatment, the highest levels obtained with a combination of IFN-gamma/TNF-alpha. This was also seen using two rabbit anti-hsp60 antisera directed against the N-terminal or C-terminal part of the human hsp60 protein. The determinants detected by the ML30 mAb or the two rabbit anti-hsp60 antisera were not cell surface expressed, as measured with immunofluorescence (FACS) analysis on control cultured or cytokine treated cell lines. This could be a useful model for studies related to the induction of hsp60 in human cells.     

Induction of Cytotoxic Capacity by Recombinant Gamma Interferon in Human Myelomonocytic Leukaemia Cell Lines

We have investigated the ability of human recombinant gamma interferon (IFN-gamma) to induce functional differentiation in three human myelomonocytic cell lines U937, RC2A, and ML-2. Treatment with IFN-gamma induced natural killer (NK) cell like cytotoxicity against K-562 cells in ML-2 and RC2A but not in U937. U937 and RC2A displayed a spontaneous antibody-dependent cell-mediated cytotoxicity (ADCC), which against nucleated target cells was significantly increased in U937 but not in RC2A after treatment with IFN-gamma. ML-2 did not display ADCC against nucleated targets either before or after IFN-gamma treatment, but lysed efficiently antibody-coated erythrocytes. All three cell lines displayed enhanced ADCC against erythrocytes after IFN-gamma treatment. Spontaneous phagocytosis of erythrocytes was seen in U937, and this was enhanced by IFN-gamma treatment, while ML-2 and RC2A were phagocytically inactive before and after treatment with IFN-gamma. The differentiated functions induced by IFN-gamma treatment in this panel of phenotypically closely related cell lines offers an interesting model for further studies on the IFN-gamma regulated gene expression. Moreover, the increased cytolytic capacity after exposure to IFN-gamma might have implications on the use of IFN-gamma for treatment of myelomonocytic malignancies. In such cases, IFN-gamma might even increase the aggressiveness of the tumour.     

Murine tumor cells expressing the gene for the human interferon alpha beta receptor elicit antibodies in syngeneic mice to the active form of the receptor

The cellular receptor for the human alpha and beta interferons (IFN) was expressed, by gene transfer, in a murine hepatoma-derived cell line, BTG 9A. Injected subcutaneously into the syngeneic mouse (C57BL/6), the parental and the transfected cells grew and formed tumors which later regressed. More than half the mice bearing tumors derived from cells expressing the receptor, developed IgG antibodies capable of blocking the activity, on human cells, of human recombinant IFN-alpha B, -alpha A, -alpha D and of natural human IFN-beta, but not of recombinant IFN-gamma. Cross-reactivity of human IFN-alpha on murine and bovine cells was unaffected by these antibodies. The binding of human IFN-alpha to solubilized receptors from human lymphoid cell lines was also blocked and complexes of radiolabeled recombinant IFN-alpha A or IFN-alpha B, chemically cross-linked to their human receptor could be immunoprecipitated by the antisera. IFN alpha beta receptor protein, purified by electrophoresis in sodium dodecylsulfate, was not recognized. We conclude that the antibodies are directed against the forms of the IFN alpha beta receptor actually expressed on the membrane.     

The role of interferon regulatory factor-1 and interferon regulatory factor-2 in IFN-gamma growth inhibition of human breast carcinoma cell lines.

Interferon (IFN) regulatory factor-1 (IRF-1) and IRF-2 play opposing roles in the regulation of many IFN-gamma-inducible genes. To investigate the signal transduction pathway in response to IFN-gamma in light of differences in growth effects, we selected four human breast carcinoma cell lines based on a spectrum of growth inhibition by IFN-gamma. MDA468 growth was markedly inhibited by IFN-gamma, and it showed substantial induction of IRF-1 mRNA but little IRF-2 induction. SKBR3 showed little growth inhibition and little induction of IRF-1 mRNA but significant induction of IRF-2 mRNA. HS578T and MDA436 growth inhibition and IRF-1/IRF-2 induction were intermediate. All four cell lines showed intact receptor at the cell surface and Stat1 translocation to the nucleus by immunostaining. By EMSA, there were marked differences in the induced ratio of IRF-1 and IRF-2 binding activity between the cell lines that correlated with growth inhibition. Finally, antisense oligonucleotides specific for IRF-1 attenuated IFN-gamma growth inhibition in MDA436 and MDA468, confirming the direct role of IRF-1 in IFN-gamma growth inhibition. Induction of IRF-1 causes growth inhibition in human breast cancer cell lines, and induction of IRF-2 can oppose this. The relative induction of IRF-1 to IRF-2 is a critical control point in IFN-gamma response.     

A new assay system for guinea pig interferon biological activity.

We have developed an assay system for guinea pig interferon (IFN) based on reduction of viral cytopathic effect (CPE) in various cell lines. CPE inhibition was detected optimally in the guinea pig fibroblast cell line 104C1 infected with encephalomyocarditis virus (EMCV). The amount of biologically active guinea pig IFN was quantified by estimating viable cell numbers colorimetrically by means of a tetrazolium compound, 2-(4-iodophenyl)-3-(4-nitrophenyl)-5-(2,4-disulfophenyl)-2H-tetrazolium monosodium salt (WST-1) and 1-methoxy-5-methylphenazinium methylsulfate (PMS). WST-1 color developed until stopped by the addition of sulfuric acid. This had no effect on the colorimetric assay, and the color was stable for at least 24 h. The acid also inactivated the EMCV and, thus, eliminated the viral hazard. Inhibition of CPE activity was highly correlated with the concentration of culture supernatants from BCG-vaccinated guinea pig splenocytes stimulated in vitro with tuberculin or an immunostimulatory oligoDNA. This assay detected guinea pig IFN and human IFN-alpha, but not IFN-gamma from human, mouse, rat, pig, or dog. This assay system has proved useful for the titration of guinea pig IFN, being easy to perform, free from viral hazard, relatively species specific, highly reproducible, and inexpensive.     

Localization of IFN-gamma-activated Stat1 and IFN regulatory factors 1 and 2 in breast cancer cells.

The aim of the present work was to evaluate the induction and localization of Stat1, interferon (IFN) regulatory factor-1 (IRF-1), and IRF-2 after IFN-gamma exposure of human breast cancer cell lines, SKBR3, MDA468, MCF7, and BT20. Results from growth assays, Western staining, electrophoretic mobility shift assay (EMSA), and immunohistochemical staining were collated to test our hypothesis that immunohistochemical analysis of Stat1, IRF-1, and IRF-2 would provide additional information about the functionality of the IFN-gamma signaling pathway in human tumor lines. EMSA results showed that in each of four cell lines, Stat1 expression was increased and demonstrated functional activity after IFN-gamma stimulation. Western and EMSA analysis showed upregulation of IRF-1 but not IRF-2 in each cell line. Confocal microscopy of cells stained for Stat1, IRF-1, and IRF-2 confirmed the results and also provided novel information about the intracellular localization of proteins and intercellular variations in responses. The proportion of cells with IRF-1 stimulation and translocation was positively correlated with the IFN-gamma growth suppression in vitro. In conclusion, using four independent assays, we have demonstrated that heterogeneity in IFN-gamma-mediated upregulation of signal transduction proteins can be detected in vitro and that these differences can explain distinct cellular growth effects.     

Gamma interferon induction in human thymocytes activated by lectins and B cell lines.

Human thymocytes in culture synthesized small quantities of interferon (IFN) when stimulated by the lectins concanavalin A or phytohemagglutinin. IFN production by lectin-activated thymocytes was enhanced in the presence of live B lymphoblastoid cells, irradiated B lymphoblastoid cells, or the conditioned medium from B lymphoblastoid cell cultures. The IFN synthesized in mixed cultures had characteristics of IFN-gamma, whereas the IFN synthesized by B lymphoblastoid cells alone could be identified as IFN-alpha on the basis of its neutralization with specific antisera and stability at pH 2. These findings indicate that human thymocytes in culture synthesize IFN-gamma and that B lymphoblastoid cells and their products considerably stimulate IFN-gamma synthesis by lectin-activated human thymocytes in culture. This stimulation was not diminished in the presence of antibodies to IFN-alpha, indicating that IFN-alpha production by B lymphoblastoid cells was not responsible for the stimulatory effect. Removal of adherent cells from thymocyte suspensions did not abrogate IFN-gamma production.