Microwaves (2,450 MHz) suppress murine natural killer cell activity

The effect of 2,450-MHz CW microwaves on natural killer (NK) cell activity and lymphocyte responsiveness to mitogen stimulation was studied in mice. Groups of mice were irradiated at power densities of 5, 15, or 30 mW/cm2 (SAR = 3.5, 10.5, and 21 W/kg respectively) for 1.5 h on 2 or 9 consecutive days. NK cell activity was determined using an in vitro 51Cr release cytotoxicity assay and an in vivo tumor-cell clearance assay. No consistent change was observed in the mitogen response of spleen cells from sham compared with irradiated mice. A significant suppression of NK cell activity measured in vitro was observed for mice irradiated at 30 mW/cm2, but not at 15 or 5 mW/cm2. A significant suppression of NK cell activity, as determined using the in vivo tumor clearance assay, was also observed at 30 mW/cm2. NK cell activity, as determined using the in vitro assay, returned to normal within 24 h following the last irradiation. Treatment of mice with hydrocortisone caused suppression of NK cell activity measured in vitro and in vivo. Paradoxically, peritoneal macrophage phagocytosis was enhanced following irradiation at 30 mW/cm2, the power density at which NK activity was suppressed. The possible role that microwave heating plays in producing these effects is discussed.     

Exercise stress and murine natural killer cell function

Male C3He mice were trained to run on a treadmill (final speed, slope, and duration of 30 m/min, 8 degrees, 30 min/day, 5 days/week, respectively) for 10 weeks or they remained sedentary. At the end of the training program, half of the mice were sacrificed and half were given a single bout of exercise to exhaustion (50% stepwise increases in final running speed for 2-min intervals). Splenic catecholamine concentrations, splenic natural killer cell cytolytic activity against YAC-1 tumor targets, and frequency of asialo GM1 (a murine natural killer cell surface glycolipid)-positive splenocytes were assessed. Exhaustive exercise in both trained and untrained mice reduced the in vitro killing of tumor targets by splenic natural killer cells relative to killing by splenocytes from mice which did not undergo the acute exercise bout (P less than 0.05). The frequency of asialo GM1-positive splenocytes was also reduced in the exhaustively exercised animals (P less than 0.05). Training alone, without the additional stress of exhaustive exercise, reduced the frequency of asialo GM1-positive splenocytes relative to a sedentary condition (P less than 0.05), but did not compromise natural killer cell cytolytic activity against the tumor targets. Splenic epinephrine concentrations in the exhaustively exercised animals were elevated 3- to 5-fold above the concentrations observed in trained and sedentary mice. These results suggest that a single, acute exercise bout reduces the capacity of splenic natural killer cells to kill tumor targets in vitro and that training enhances splenic natural killer cell cytolytic activity, on a per cell basis, against tumor targets.     

Renewal of natural killer cells in mice having elevated natural killer cell activity

The present study was designed to examined the dynamics of splenic natural killer (NK) cells under two conditions of enhanced NK cell activity: (1) CBA/J mice given polyinosinic-polycytidylic acid (poly-I:C), an NK-cell-enhancing agent, and 62) untreated athymic nude (nu/nu) mice. The 'total NK cell activity' of the spleen (percentage specific lysis corrected for changes in organ cellularity) increased 5-fold and 2.7-fold after poly-I:C treatment for 1 day and 4 days, respectively. An injection of hydroxyurea (HU), a cell-cycle-toxic drug, given together with either poly-I:C or saline to CBA/J mice resulted in both cases in a 25% reduction in total NK cell activity 1 day later. This suggests that the renewal rate of nondividing NK cells is similar in poly-I:C-treated and saline-injected mice, and that the NK-enhancing effect of poly-I:C is not due to a stimulation of proliferation among NK cell precursors. HU administered simultaneously with poly-I:C or saline for 4 days eliminated NK cell activity in both cases, indicating that spleen NK cell activity is mediated almost entirely by newly formed (less than or equal to 4 days) cells. In nude mice, NK cell activity was assayed at various intervals after an HU depletion period of 2 days. NK depletion was initially more rapid in nu/nu mice than in control (nu/+) mice, although equally profound, and the subsequent recovery of NK cell activity after cessation of HU was also more rapid than in control (nu/+) mice.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of surgical stress on murine natural killer cell cytotoxicity

Natural killer cell cytotoxicity (NKCC) against tumors may be important in preventing in vivo solid tumor dissemination. Multiple animal models demonstrate increased rates of tumor dissemination after surgical stress; previously, we have observed that surgical stress impairs murine NKCC. Because of the importance of surgery in the control of solid tumors, it appeared valuable to examine the mechanism underlying surgical stress impairment of NKCC. The results of this study demonstrate that postsurgical suppression of NKCC begins as early as 2 hr after murine hind limb amputation, reaches nadir at 4 days, and does not recover to control level until postoperative day 12. Anesthetic treatment alone does not cause comparable NKCC suppression. The suppression of NKCC accompanied changes in both splenic size and morphology. The immune suppression was observed in multiple compartments including peripheral blood, bone marrow, and spleen. Mixing experiments demonstrated that surgical stress per se generated a suppressor cell population affecting NKCC. The observed suppression apparently required cell-to-cell contact, because supernatants from 4 and 18 hr cultures of suppressor cells did not cause suppression. The observed suppression was prevented by perioperative treatment with the pyrimidinone analog 2-amino-5-bromo-6-phenyl-4-pyrimidinol. These preclinical observations point to the future prospect of NK-specific perioperative immunotherapy that may help prevent possible tumor dissemination from occurring at the time of surgery.     

Depression of murine natural killer cell cytotoxicity by isobutyl nitrite

Summary We have investigated the effect of isobutyl nitrite on murine NK-cell antitumor-directed cytotoxicity. This agent has been suggested as one of the factors underlying immunodeficiency syndrome (AIDS) in man. We demonstrated that two injections, each of 0.25 ml isobutyl nitrite, resulted in significant depression of endogenous splenic and peripheral blood natural killer (NK) cell cytotoxicity against T-cell lymphoma, YAC-1. In addition to endogenous NK cells, activity of pyrimidinol-activated NK cells was also substantially depressed by this agent. The latter observation is of the utmost importance, since it suggests that the attempt to augment NK-cell activity (to promote resistance to infections and malignancies) could fail in patients with AIDS who are isobutyl nitrite users. Isobutyl nitrite was NK-cell-suppressive not only after in vivo administration but, most importantly, also after inhalation. This indicates that isobutyl nitrite, via its NK-cell suppressive effect, could contribute to immunodeficiency in AIDS. Studies on the mechanism of NK-cell depression by isobutyl nitrite demonstrated that the NK-cell tumor-binding properties as well as NK-cell cytotoxic potential were substantially depressed. Mixing experiments failed to reveal any regulation by suppressor cell activities. The results of these studies clearly indicate that isobutyl nitrite is an immunosuppressive agent and that its use should be avoided. Abbreviations used: NK, natural killer; S-RPMI 1640, supplemented tissue culture medium 1640; HEPES, N-2-hydroxyethylpiperazine-N-2-ethanesulfonic acid; TBC, tumor-binding cells; C-TBC, cytotoxic tumor-binding cells; AIPP, 2-amino-5-iodo-6-phenyl-4 pyrimidinol; LU, lytic units; T:E, target-to-effector; AIDS, acquired immunodeficiency syndrome     

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.     

Increased natural killer cell activity in experimental American trypanosomiasis

When purified murine plasminogen was added to cultures of mouse spleen B cells, active plasmin progressively appeared in the supernatants. This reaction, resulting from the specific cleavage of the plasminogen by lymphocyte plasminogen activator (LPA), was measured in a fibrinolysis assay using 125I-fibrinogen. T cells were totally ineffective; under certain conditions, they could even antagonize the B cell action. Of the various B populations studied, i.e., obtained from spleen, lymph nodes, or blood of various mouse strains, all expressed the same property of plasminogen activation, which concerned mainly medium-sized B cells. Since only slight activities were detected in extracellular or intracellular compartments, a membrane-associated proteolytic enzyme may be responsible for plasminogen activation. Submitted to a series of group-specific antiproteases, the lymphocyte plasminogen activator essentially behaved as a serine-protease, with sensitivity to diisopropyl fluorophosphate, phenyl methyl sulfonyl fluoride, and nitro phenyl guanidino benzoate. The fast renewal of the enzyme in the membrane was also demonstrated by different techniques, using modifiers of cell physiology, like cycloheximide and dexamethasone, or following the reexpression of the enzyme by the cell kinetically.     

Characterization of natural killer cell activity in Macaca nemestrina

Natural killer (NK) cell activity was evaluated in three groups of Macaca nemestrina that varied with respect to SAIDS D retrovirus serotype 2 (SRV-2/W) and viremic status. Target cells used were Raji and K562 cells. No significant differences (ANOVA) in mean NK activity were detected among the three groups of animals studied. Using Raji targets, mean LU₃₀/10⁶ ± SEM was 6.3 ± 1.6 for seronegative (V-Ab−) animals, 7.3 ± 1.5 for seropositive (V-Ab+) animals, and 10.2 ± 3.5 for persistently viremic (V + Ab−) animals. Using K562 targets, mean LU₃₀/10⁶ was 7.6 ± 1.7 for seronegative (V-Ab−) animals, 6.5 ± 2.5 for seropositive (V-Ab+) animals, and 5.1 ± 1.9 for persistently viremic (V+Ab−) animals. Percentage blood CD16⁺ and CD8⁺cells also were not different in the three groups of animals. NK activity did not always correlate with percentage of CD16⁺ or CD8⁺ cells in peripheral blood at the time the assays were done. In persistently viremic animals, there was a strong positive correlation between percent CD16⁺ and CD8⁺ cells and NK activity using K562 cells but not Raji cells. Depletion experiments indicated that lysis was mediated by both CD8⁺ and CD16⁺ cells with both Raji and K562 cells. However, Raji targets were a better indicator of killing mediated by CD16⁺ cells. Our studies indicate that M. nemestrina may be classified as high or low responders with regard to NK activity, and there was no correlation with SRV-2/W viral or antibody status. Additionally, our results suggested that group housing of M. nemestrina was usually associated with increased NK activity. In conclusion, studies of NK activity in M. nemestrina should consider target cells used, phenotype of effectors, endogenous (high or low) levels of NK activity in individual animals, and housing conditions. © 1996 Wiley-Liss, Inc.     

Mechanism of cell contact-mediated inhibition of natural killer activity

Natural killer cell activity is inhibited by primary cultures of monolayer cells. In this study, we analyzed the mechanism of the inhibition. Inhibited NK cells showed unaltered binding capacity to NK sensitive K562 cells. The orientation of the effector cells' actin-containing microfilaments, an event known to occur during the programming for the lysis stage in lytic conjugates, was unaffected by the inhibition. In single cell cytotoxicity experiments, the number of killer cells among conjugate-forming cells was reduced. The capacity of the inactivated NK cells to secrete cytotoxic factors upon stimulation with Con A was also impaired. Both NK-resistant inactivating target cells and NK-sensitive K562 cells were sensitive to the toxic factors secreted by NK cells. Thus, the results indicate that the target cell-mediated inactivation of NK cell is based on a block in the lethal hit stage, possibly due to reduced release of toxic factor(s) from the effector cells. The capacity of inactivated effector cells to mediate antibody-dependent cellular cytotoxicity was unimpaired, suggesting that the contact-mediated inhibition of cytotoxicity selectively affects NK cells.     

Histone deacetylase inhibitors suppress natural killer cell cytolytic activity

Treatment of transformed cells from leukemia or solid tumors with histone deacetylase inhibitors (HDACi) was shown to increase their sensitivity to NK cell lysis. In this study, treatment of IL-2-activated NK cells with HDACi including suberoylanilide hydroxamic acid and valproic acid was studied. Both drugs at therapeutic concentrations inhibited NK cell cytotoxicity on human leukemic cells. This inhibition was associated with decreased expression and function of NK cell activating receptors NKp46 and NKp30 as well as impaired granule exocytosis. NFkappaB activation in IL-2-activated NK cells was inhibited by both HDACi. Pharmacologic inhibition of NFkappaB activity resulted in similar effects on NK cell activity like those observed for HDACi. These results demonstrate for the first time that HDACi prevent NK cytotoxicity by downregulation of NK cell activating receptors probably through the inhibition of NFkappaB activation.     

Acquisition of enhanced natural killer cell activity under anesthesia

An increase in natural killer (NK) cell activity can be conditioned with a one trial learning paradigm to demonstrate the interaction between the central nervous system (CNS) and the immune system. In order to demonstrate learning possibilities during ‘non-conscious’ state, mice were anesthetized with a ketamin/rompun mixture and underwent one trial learning with odor cue as the conditioned stimulus (CS) preceding the unconditioned stimulus (US). The results indicated that mice that were exposed to camphor odor cue under the influence of anesthesia can associate the signal with the poly I:C unconditioned stimulus and were able to recall the conditioned response upon reexposure to the CS. Secondly, the conditioned association made in a conscious state can be recalled by exposure to the same olfactory odor cue in a ‘non-conscious’ state. The increase in the conditioned change in NK cell activity of both situations was significantly higher than the control group. The results demonstrate that learning can take place and the learned response can be recalled under the reduced awareness caused by anesthesia. The findings we report are unusual and novel in that they demonstrate that the CNS can learn new associations under conditions where the host is apparently unaware of the signals being linked. Anesthesia combined with the long interstimulus interval indicates that certain neuronal pathways in the CNS are receptive to second signals (elicited by the US) even when the second signal is separated by one day. This means the conditioned learning of a physiological response can take place unconsciously at a separate level and under situations where the host is totally unaware of the events which the brain is processing and linking as incoming information.     

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.     

OK-432 stimulates primary production and activity of murine natural killer cells

Although many immunostimulants have been shown to increase the lytic activity of natural killer (NK) cells in the periphery, little is known about their effects on NK cells in the bone marrow, the primary site of NK production. In the experiments reported here, we tested OK-432, a pharmaceutical preparation of Streptococcus pyogenes, for its effects on both the primary production and lytic activity of NK cells in C57BL/6J mice. NK activity in bone marrow cells (BMC) and spleen cells (SC) was significantly increased following intravenous administration of OK-432, peaking on day 2 in BMC and on day 3 in SC. Concomitantly, there were marked changes in the cellularity in the two compartments. Bone marrow cellularity fell significantly on day 1 post-OK-432 and then gradually returned to normal, whereas spleen cellularity rose rapidly and remained elevated. As a consequence, the total NK activity (per femur or per spleen) was significantly increased at 48-96 h after administration of OK-432. The target specificity was unchanged. The phenotype of NK cells in BMC as determined by cytotoxic depletion was unchanged by OK-432, but splenic NK activity shifted to a 'less mature' phenotype, intermediate between that of normal BMC and SC. Cytokinetic studies using 3H-TdR revealed an increase in the production of NK cells in the bone marrow following administration of OK-432. Proliferating NK cells also appeared in the spleen. Whether these were recently produced NK cells from the bone marrow that still retained the ability to proliferate or mature NK cells that were stimulated into cell cycle cannot be determined from these experiments. These data are the first to directly demonstrate the modulation of the primary production of NK cells by an immunologically active drug.     

Stage-dependent gene expression profiles during natural killer cell development

Natural killer (NK) cells develop from hematopoietic stem cells (HSCs) in the bone marrow. To understand the molecular regulation of NK cell development, serial analysis of gene expression (SAGE) was applied to HSCs, NK precursor (pNK) cells, and mature NK cells (mNK) cultured without or with OP9 stromal cells. From 170,464 total individual tags from four SAGE libraries, 35,385 unique genes were identified. A set of genes was expressed in a stage-specific manner: 15 genes in HSCs, 30 genes in pNK cells, and 27 genes in mNK cells. Among them, lipoprotein lipase induced NK cell maturation and cytotoxic activity. Identification of genome-wide profiles of gene expression in different stages of NK cell development affords us a fundamental basis for defining the molecular network during NK cell development.     

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。     

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

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

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.