An interferon inhibitor in regulating the activity of human natural killer cells]

The action of mouse serum interferon--alpha/beta (IFN) at the dose of 100 U/ml, of its inhibitor (I) at the dose of 8 U/ml as well as of their combination with the above doses on sensitivities of mouse target cells (TC) of sensitive to IFN line L 929 and resistant to the one line MCB in natural cytotoxic reaction was studied. Cytotoxic activity of human natural killer cells was detected in 14 hrs cytotoxic test using 3H-uridine for labelling of TC. IFN, I, and IFN+I were added to cell cultures for 24 hrs at 37 degrees C with following removing of preparations. It has been shown that I abolished protective effect of IFN on TC L 929 whereas the one possessed the protective action on TC MCB in natural cytotoxic reaction. These data confirmed a suggestion about immunoregulatory properties of I which displayed in abolition or realization of protective effect on TC in natural cytotoxic reaction in dependence on initial sensitivity of TC to antiviral IFN action.     

Recombinant gamma interferon enhances natural killer cell activity similar to natural gamma interferon

The enhancement of human natural killing activity by recombinant human gamma interferon (IFNγ) and natural human IFNγ were similar over a wide concentration range. Enhancement of natural killing activity by both interferons was neutralizable by antibody to natural IFNγ, as well as by antibody to a synthetic peptide representing the first 20 N-terminal amino acids of IFNγ provide conclusive evidence that IFNγ is responsible for the enhanced natural killing activity seen in IFNγ preparations.     

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.     

Pulmonary compartmentalization of interferon and natural killer cell activity

Studies were performed to determine if natural killer (NK) activity in the mononuclear cells harvested from infected lungs was dependent on local or systemic factors. Mice were inoculated by intratracheal (it), intraperitoneal (ip), or intravenous (iv) routes with (a LD50 dose of) influenza virus A PR/8/34. At various days postinoculation cells from lungs, spleens, and peripheral blood were assayed for NK activity, and lung wash, lung homogenates, and serum were assayed for interferon. After it inoculation there was three- to fourfold increase of NK activity in the lung with little or no increase in NK activity in spleens or peripheral blood. The local augmentation of NK activity in the lung correlated with an increase in interferon (IFN) titer in the lung wash and lung homogenate of PR8 inoculated mice. The virus failed to induce IFN or augment NK activity when it was inoculated systemically. The observed local augmentation of NK activity and local induction of interferon production following it inoculation suggests that the NK population in the lung is capable of responding to locally derived regulatory factors.     

Enhancement by interferon of natural killer cell activity in mice.

Injection of mice with several interferon inducers, Newcastle Disease virus, polyinosinic-polycytidylic acid and tilorone resulted in an increase in spleen cell cytotoxicity for ⁵¹chromium-labeled mouse YAC tumor target cells in 4-hr in vitro assays. This increase in spleen cell cytotoxicity was abrogated by injection of mice with potent anti-mouse interferon globulin. Inoculation of mice with mouse interferon (but not human leucocyte or mock interferon preparations) also resulted in a marked enhancement of spleen cell cytotoxicity. The extent of enhancement of spleen cell cytotoxicity was directly proportional to the amount of interferon injected and a significant increase was observed after inoculation of as little as 10³ to 10⁴ units of interferon. An effect could be detected as soon as 1 hr after injection of interferon. The increase of spleen cell cytotoxicity after inoculation of an interferon inducer was not due to a localization and accumulation of cytotoxic cells in the spleen but reflected a general increase in cytotoxic cell activity in various lymphoid tissues (except the thymus). The splenic cytotoxic cells from interferon or interferon-inducer-injected mice had the characteristics of natural killer (NK) cells since (i) interferon enhanced spleen cell cytotoxicity in athymic (nu/nu) nude mice, (ii) classical spleen cell fractionation procedures by nylon wool columns, anti-Thy 1.2 serum plus complement, anti-Ig columns, and depletion of FcR+ rosette-forming cells, failed to remove the effector cells generated in vivo or in vitro. Therefore like NK cells, interferon-induced cytotoxic cells lack the surface markers of mature T and B lymphocytes, are not adherent, and are devoid of avid Fc receptors. Furthermore like NK cells, the spleen cells from interferon-treated mice lysed various target cells (known for their sensitivity to NK cells) without H-2 or species restriction. Incubation in vitro of normal spleen cells with interferon also resulted in an increase in cytotoxicity for YAC tumor cells. We conclude that interferon acts directly on NK cells and enhances the inherent cytotoxic activity of these cells.     

Augmentation of mouse natural killer cell activity by interferon and interferon inducers.

Interferon (IF), in addition to its anti-viral capacity, is increasingly being found to be a regulator of cell division, cell surface antigens, and cell function. To determine whether IF also plays a role in the regulation of natural killer (NK) cell activity in mice, the in vivo and in vitro effects of IF and IF inducers on NK activity were studied. We observed that pyran, lipopolysaccharide, and polyinosinicopolycytidylic acid (poly I:C) as well as crude and purified IF preparations significantly elevated splenic NK levels in normal mice within 3 to 24 hr of i.p. administration. Normal spleen cells treated with poly I:C or IF in vitro also had augmented NK activity. Poly I:C and IF were themselves not cytotoxic and their presence was not required during the lytic process, indicating that IF acts on lymphocytes to activate NK function. The addition of anti-IF in the incubation medium completely blocked the boosting of NK activity by poly I:C or IF. The characteristics of the effector cells activated by IF were consistent with those of NK cells rather than macrophages, since the boosted effector cells were not retained by a rayon column or removed by carbonyl iron. Moreover, they were resistant to treatment with anti-Thy 1.2 serum plus complement, which eliminated mature T cells.     

Genetic mechanisms for the regulation of natural killer cell activity

The problems on genetic mechanisms of regulation of natural killer cells, participation of major histocompatibility complex in these processes are considered. The examples of mutations and hereditary diseases accompanied by disfunction of the natural killer activity are presented. It is supposed that genetic predisposition of natural killer activity depression can promote an increase in the risk of malignant and autoimmune diseases.     

NK细胞和NKT细胞发育的转录调控

自然杀伤（natural killer,NK）细胞和自然杀伤T（natural killer T,NKT）细胞是参与机体抗病毒免疫和肿瘤免疫的两群淋巴细胞亚群,是介导先天性免疫（innate immunity）应答和调节适应性免疫（adaptive immunity）应答的重要效应细胞。近年来,随着对NK细胞和NKT细胞及其转录调控因子研究的不断深入,NK细胞和NKT细胞的发育机制逐步被阐明,这将为提高NK细胞和NKT细胞的抗病毒和肿瘤免疫疗效提供新的策略。     

Role of serotonin in the regulation of human natural killer cell cytotoxicity

Addition of serotonin to mixtures of target cells and natural killer (NK)-enriched human mononuclear cells (MNC) in a 4-hr 51Cr-release assay strongly augmented NK cell cytotoxicity (NKCC) vs K562, Chang, or Molt-4 target cells. The effect was dose dependent at serotonin concentrations of 10(-4) to 10(-7) M, expressed at several effector to target cell ratios, and required the presence of accessory monocytes. A 5-HT1-specific receptor agonist, 8-OH-DPAT, mimicked the enhancing properties of serotonin with similar potency. Equimolar concentrations of the mixed 5-HT1/5-HT2 receptor antagonist cyproheptadine, but not the 5-HT2-specific antagonist ketanserin, completely blocked the serotonin-induced NKCC enhancement. Monocyte/NK cell mixtures incubated with serotonin for 1 hr produced a soluble factor that could enhance the cytotoxicity of autologous, NK-enriched cells depleted of monocytes, which did not respond to serotonin alone. The factor displayed no IFN or IL 2 activity as judged by the lack of antiviral activity and inability to support the growth of an IL 2-dependent cell line. In the presence of monocytes, serotonin (10(-5) M) was considerably more effective than human IFN-alpha or IFN-gamma at optimal concentrations and was about equally effective as IL 2 at a final concentration of 50 U/ml in a short-term NK assay. The potency and efficacy for serotonin were similar to that earlier reported for histamine in monocyte-containing effector cells. The NKCC-enhancing effect of serotonin was additive to that induced by IFN-alpha, IFN-gamma, or IL 2, but not to histamine. The presented data suggest an earlier unrecognized, serotonin receptor-mediated regulation of human NK cells.     

Role of interferon in human natural killer activity against target cells infected with HSV-1

Human natural killer (NK) cells show high cytotoxic activity against target cells infected with herpes simplex virus type 1 (HSV-1). Substantial amounts of interferon (IFN) were generated in co-cultures of NK effector cells and infected target cells; however, the cytotoxic activity seen against a specific infected cell target did not correlate with the amount of IFN induced. The production of IFN increased steadily from 4 to 18 hr of co-culture, as did NK activity; however, IFN production peaked 4 hr later than NK activity. Pretreatment of NK effector cells with exogenous IFN increased cytotoxic activity against all targets tested, but the differential pattern of reactivity against cells infected with wild type and mutant viruses was unaltered. When effector cells were treated with the RNA synthesis inhibitor actinomycin D before co-culture with virus-infected targets, IFN production was markedly reduced, without a concomitant reduction in cytotoxicity. Similarly, the addition of anti-IFN antiserum to co-cultures greatly decreased the available IFN present, but had no effect on NK activity. We conclude that the induction of cytotoxic activity in co-cultures of NK effector cells and HSV-1-infected target cells is independent of the induction of IFN.     

Autologous enhancement by interferon of natural killer activity of human peripheral blood lymphocytes

The in vitro action of interferon (IFN)-alpha and IFN-gamma from six healthy donors and ten patients with multiple sclerosis (MS) on natural killer (INK) activity of peripheral blood lymphocytes (PBL) was studied in an autologous system. The NK activity of PBL was detected by a cytotoxic test using (3)H-uridine human erythromyeloblast K562 cells. Autologous IFN-alpha and IFN-gamma did not augment NK activity of PBL from healthy donors in vitro, whereas in samples from MS patients the IFNs strongly stimulated NK cell cytotoxic function. This stimulation suggests the existence of an inhibitor of regulatory IFN action, that is produced in healthy donors simultaneously with IFN in response to IFN induction, but which is lacking in commercial IFN preparations. The factor-containing supernatants from healthy donors reduced the stimulatory action of autologous IFNs in patients with MS almost until complete blockade. Because this inhibitor was absent in patients with MS, deficiency of an inhibitor of IFN regulatory action in MS could open the way to treatment of this compartment of the immune system.     

Lymphokine-activated and natural killer cell activity in human intestinal mucosa

The activity of natural effector (NE) cells was studied in lamina propria lymphocytes (LPL) obtained from 61 histologically normal specimens of human intestine, which included 45 resected for colon carcinoma and 16 resected for nonmalignant conditions. The mean spontaneous natural killer (NK) cell activity in LPL (1.7 X 10(2) cytotoxic units (C.U.)/10(5) cells) was very low in contrast to that found in peripheral blood mononuclear cells (PBMC) (38.5 X 10(2) C.U./10(5) cells). Significant NK activity was detected in only 16 (47%) of the tissues resected for carcinoma, and in five (38%) of those removed for nonmalignant conditions. Exposure to human leucocyte interferon resulted in only minimal increases in cytotoxicity for K562 target cells. Consistent with these findings, large granular lymphocytes represented less than 0.5% of freshly isolated LPL. Cultures of LPL from both carcinoma and nonmalignant conditions in MLA144-conditioned medium (CM), a source of interleukin 2 (IL 2), generated marked increases in cytotoxicity to levels comparable with or exceeding those found in PBMC. (Mean cytotoxicities were 90.4 X 10(2) and 49 X 10(2) C.U./10(5) cells, respectively.) Cytotoxicity induced by culture in MLA144-CM could be blocked by pretreatment of LPL with the monoclonal antibody anti-Tac directed against the IL 2 receptor. In addition, LPL cultured in recombinant human IL 2 were induced to levels of cytotoxicity that were similar to those induced by MLA144-CM. These data indicate that IL 2 is the factor in MLA144-CM responsible for generating lymphokine-activated killer (LAK) cells in LPL. The IL 2-activated LPL killer cells were OKT11+, OKT3-, Leu-7-, Leu-11b-, as determined by antibody and complement-mediated lysis, and the precursor cells in the lamina propria necessary for generation of killer cells by IL 2 were also OKT11+, OKT3-, Leu-7-, Leu-11b-. These studies indicate that LAK cells may be an important potential source of nonspecific cytotoxicity in the intestinal mucosa.     

Impaired local natural killer cell activity in human colorectal carcinomas

Summary The present study was undertaken to study natural killer (NK) cell activity in patients with colorectal cancer at peripheral and local levels. Mononuclear cells were isolated from uninvolved colorectal mucosa, tumor tissue and peripheral blood, and tested against the colon carcinoma cell line CaCo-2 and the erythroleukemia cell line K-562. Peripheral blood NK cell activity from the patients showed similar levels compared with healthy controls, whereas, mononuclear cells of tumor tissue were found to have a significantly decreased NK cell activity compared to the normal intestinal mucosa (P<0.01). No relation was found between the NK cell activity and the advancement of the disease according to the Duke's stage. Interferon- (IFN-) stimulated the NK cell activity of the mononuclear cells from blood, mucosa and tumor. However, the increase of NK cell activity after IFN- stimulation was lower in the tumor compared to the mucosa (P<0.02). The lectin, phytohaemagglutinin, increased the cytotoxicity of mononuclear cells from blood, mucosa and tumor to a similar level. These results suggest that patients with colorectal tumors exhibit a normal NK cell activity in peripheral blood and intestinal mucosa; however, a diminished NK cell activity exists at the tumor level. Although mononuclear cells isolated from the tumor have a normal response to lectin stimulation they show hyporesponsiveness to IFN- stimulation with regard to their NK cell activity.     

Generation of long-term human cytolytic cell lines with persistent natural killer activity

Human cell lines maintained by in vitro stimulation with the HLA-A, B-negative, DR-positive, Epstein Barr virus-transformed, lymphoblastoid cell line Daudi in the presence of conditioned medium demonstrated significant NK activity for over 6 wk in continuous culture. These cells lyse K562 and a broad panel of lymphoblastoid cell lines but do not lyse normal peripheral blood lymphocytes or pokeweed mitogen blasts. They possess the sheep red blood cell receptor but lack other T cell markers (Lyt-3+, OKT3-). Natural killer activity correlated with the presence of a Mac 1-positive subpopulation of cells present in these long-term lines.     

Analysis of natural killer activity and natural killer cell subsets in patients with bladder cancer

Summary In order to analyze the state of the natural resistance system of bladder cancer patients in vivo, we measured natural killer (NK) activity and NK cell subsets of peripheral blood lymphocytes (PBL) from 46 patients with bladder cancer and 25 age- and sex-matched healthy volunteers. The mean NK activity in patients with lowstage bladder cancer was similar to that in the controls, while NK activity in patients with high-stage bladder cancer was significantly depressed. The mean proportions of Leu7⁺ cells in patients with both low-stage and highstage bladder cancer were significantly higher than that in the controls. The mean proportion of Leu11a⁺ cells in patients with low-stage bladder cancer was similar to that in the controls, while in patients with high-stage bladder cancer it was significantly higher. This study demonstrates the abnormal immunological state of bladder cancer patients; namely, abnormalities exist not only in NK activity but also in the proportions of circulating NK cell subsets.     

Genetic control of the natural killer cell activity in SJL and other strains of mice

Murine natural killer (NK) cell activity against lymphoma targets can be classified into three major functional phenotypes, i.e., low, inducible, and high, according to the levels of endogeneous activity and the extent of augmentation by interferon (IFN) or IFN inducers, as previously described. The prototype strains identifying these three phenotypes are SJL, A.SW, and B10.S, respectively, all bearing the H-2s haplotype. In the present study, the genetic basis of the low phenotype of SJL mice was examined further. F1 hybrid offspring of crosses between SJL and a strain with the high NK phenotype (B10.S, B10.D2, B10, C3H/HeN, or D1.LP) invariably expressed the high NK phenotype, indicating recessiveness of the low phenotype. Crosses between SJL and another low NK strain, such as A/J, A/HeN, or I/St, resulted in offspring of either the inducible or the high NK phenotype. Such genetic complementation between the low NK pairs indicates that the low phenotype of SJL and that of the other strains have different genetic bases. F1 hybrid mice between SJL and an inducible strain, A/WySn, were inducible, but those between SJL and the second inducible strain, A.SW, had the high NK phenotype. Thus, the congenic A/WySn and A.SW have distinct genotypes resulting in the same inducible phenotype. According to analyses of the segregating offspring from backcrosses of (SJL X B10.S)F1 mice to SJL, a single gene difference is responsible for the low endogenous level of NK activity in SJL as opposed to the high endogenous level in B10.S, and that the difference in three genes accounts for the poor responsiveness of NK cells to IFN in SJL mice. Studies of the two congenic lines of SJL, i.e., SJL-Igha and SJL-nu, indicated that the Igh locus is irrelevant for the low NK phenotype of SJL, but the nu locus clearly is relevant; SJL mice homozygous for the nu allele were phenotypically inducible in contrast to the nu/+ or +/+ mice which are low. The nu gene homozygosity rendered SJL mice responsive to IFN, not only in NK activity against lymphomas but also in ADCC activity against antibody-coated lymphoma cells.     

Evaluation of natural killer cell activity

Natural killer (NK) cells are being appreciated not only for their ability to recognize and lyse tumor cells and virus-infected cells but also for their immunoregulatory properties. NK cells provide a first line of defense against invading pathogens with a two pronged attack, lysis of infected cells and secretion of cytokines and chemokines with potent antipathogen effects. This article describes the standard chromium release assay, which measures the ability of NK cells derived from the peripheral blood to lyse appropriate target cells.     

Modulation of human natural killer cell activity by recombinant human interleukin 2

Recombinant human IL-2, secreted by yeast harboring a plasmid containing a synthetic IL-2 gene, is biologically active in augmenting human natural killer (NK) cell activity. A dose-dependent linear stimulation of NK activity was obtained against the chronic myelogenous leukemia cell line K562 over the range 3 to 300 units/ml of IL-2. Enhancement of NK activity was similarly demonstrable against the less NK-sensitive carcinoma cell lines LoVo and SKOSC. IL-2 could also be demonstrated to augment antibody-dependent cellular cytotoxicity (ADCC) against SKOSC targets. IL-2 responsiveness segregated with a non-E-rosetting fraction comprising 11% of postfractionation lymphocytes and containing 94% of the recoverable NK activity, suggesting that IL-2 might operate directly upon the NK cell rather than through an accessory cell. This is believed to be the first demonstration of NK stimulatory activity by the product of a totally synthetic human IL-2 gene. The availability, purity, and NK-enhancing properties of the recombinant IL-2 make it a potentially important agent for clinical trial.