Induction of natural killer cell activity in mice by injection of indomethacin

The natural killer (NK) cell system of mice in the peritoneal cavity is of very low to undetectable activity, and testing peritoneal NK cells is a useful model to study the influence of activating substances upon local injection. Injection of indomethacin at doses of 100-400 micrograms/mouse caused a marked activation of NK cell activity which was maximal at 3 days and lasted for a total of 6 days. A similar albeit less marked effect was observed with other cyclooxygenase inhibitors such as aspirin. Prostaglandin E2 reversed the activation of NK cells induced by injection of indomethacin. The cellular count of the peritoneal population was 2-fold elevated after indomethacin injection but the percentage of macrophages in the washed-out cell population was decreased from 60% (controls) to around 20%. The NK cell nature of the effector cells activated by indomethacin was substantiated by the finding that previous injection of anti-asialo GM1 antibody prevented activation. Interferon could not be detected in the peritoneal wash fluid after injection of indomethacin, suggesting interferon-independent activation. However, the possibility of small interferon quantities being locally produced could not be excluded. In further experiments we found after intraperitoneal injection of indomethacin not only cells that killed YAC-1 targets in a 4-hour assay but also killer cells that were insensitive to anti-asialo GM1 and killed P815 cells in an 18-hour assay. We assumed that these were macrophages and have done further experiments with in vitro grown bone-marrow-derived macrophages. These could be activated for killing of P815 targets by the addition of indomethacin, but (to a lesser degree) also for killing of YAC-1 lymphoma cells.     

Induction of tumor cytotoxic immune cells using a protein from the bitter melon (Momordica charantia)

The fruit and seeds of the bitter melon (Momordica charantia) have been reported to have anti-leukemic and antiviral activities. This anti-leukemic and antiviral action was associated with an activation of murine lymphocytes. A partially purified protein factor from the bitter melon caused an infiltration and activation of peritoneal exudate cells in C57B1/6J, C3H/HeJ, and C3H/HeN mice. When the extract was injected twice a week at 8 micrograms of protein per ip injection for 0-4 weeks, the peritoneal exudate cells from the treated mice were cytotoxic in a long-term (18-hr) 51Cr-release assay against a range of labeled targets: L1210, P388, and MOLT-4 tumor cells. Cytotoxicity was also observed against YAC-1 targets in a short-term (4-hr) assay. Fractionation of the cytotoxic immune cells implicated a nonadherent cell population which was capable of killing an NK-sensitive cell line in a 4-hr 51Cr-release assay. Unit gravity sedimentation studies indicated that the cytotoxicity was due to either a neutrophil or a large lymphocyte. Antibody depletion experiments using antibody to asialo GM1, an NK cell-specific antibody, depleted cytotoxicity observed in nonadherent, Ficoll/Hypaque-separated PEC. This suggests that at least part of the anti-leukemic activity of the bitter melon extract is due to the activation of NK cells in the host mouse.     

Origin and differentiation of natural killer cells. I. Characteristics of a transplantable NK cell precursor

To study the origin and differentiation of natural killer (NK) cells, we developed an assay for the transplantable precursor of NK(YAC-1) cells present in the bone marrow. Mice were depleted of endogenous NK(YAC-1) cells by injection of anti-asialo GM1 antibody, followed by lethal whole body irradiation. Normal syngeneic bone marrow cells were transplanted into such pretreated mice. Regeneration of NK(YAC-1) activity in the recipient mice was monitored by two different assays: the ability of spleen cells to lyse YAC-1 cells in vitro and the ability to clear i.v. injected, 125IUdR-labeled YAC-1 cells from the lungs. With both assays, a dose-response relationship between the number of bone marrow cells injected and the degree of NK(YAC-1) activity generated could be demonstrated. However, the lung clearance assay appeared superior because the NK regeneration could be detected earlier and with lower numbers of injected marrow cells. With this assay, several characteristics of the NK precursors and their differentiation could be defined. 1) The generation of mature, lytic NK cells from their transplantable precursor requires an intact "marrow microenvironment" in the recipient mice, because differentiation failed to occur in mice rendered osteopetrotic by estradiol treatment. 2) The NK(YAC-1) precursors lack the surface antigens (NK-2.1, asialo GM1, Qa-5, Thy-1) that are characteristically seen on mature NK cells. 3) The NK-precursors could be eliminated from the bone marrow with anti-Qa-2 or anti-H-2 antisera + complement, indicating that these two antigens are expressed on the precursors. The relationship between NK(YAC-1) precursors and multipotent myeloid stem cells (CFU-S) was investigated by utilizing W/Wv and Sl/Sld mutant mice. Bone marrow cells of W/Wv anemic mice, although markedly deficient in CFU-S, have a normal frequency of NK(YAC-1) precursors. Sl/Sld mice that lack a suitable microenvironment for the development of CFU-S allowed normal differentiation of NK(YAC-1) precursors when transplanted with normal bone marrow cells. Together, these data suggest that multipotent myeloid progenitor cells, as defined by the CFU-S assay, and the NK(YAC-1) precursors are not closely related.     

Suppression of in vitro maintenance and interferon-mediated augmentation of natural killer cell activity by adherent peritoneal cells from normal mice

The ability of adherent peritoneal cells (APC) to inhibit murine natural killer (NK) cell activity was examined. Nylon wool-nonadherent splenic effector cells were incubated overnight with or without different numbers of APC. NK activity was then measured against YAC-1 in a 4-hr 51Cr-release cytotoxicity assay. Proteose peptone-elicited or unstimulated resident APC from normal mice markedly suppressed NK activity of splenic effector cells in the presence or absence of exogenously added interferon. The suppression was dependent on the number of APC added with 10% APC, relative to the number of effector cells, resulting in a greater than 65% inhibition of cytotoxicity. The effector phase of cytotoxicity was not the target of the suppressor cells, because APC did not suppress NK activity when they were present only during the cytotoxicity assay. The addition of APC to alloimmune cytotoxic T cells under similar conditions resulted in no inhibition of cytotoxicity. Both syngeneic and allogeneic APC suppressed NK activity, but several murine macrophage-like cell lines lacked this property. In contrast to APC, incubation of effector cells with adherent spleen cells from normal mice resulted in no inhibition of NK activity. APC from mice injected with C. parvum were less inhibitory for NK activity than normal resident APC. In contrast, C. parvum APC suppressed concanavalin A-induced lymphoproliferation and were directly cytotoxic to tumor target cells in vitro, whereas normal APC lacked these properties. The results indicate that the peritoneum of untreated mice contains suppressor cells that can inhibit the in vitro maintenance and IFN-mediated augmentation of NK activity. In addition, these results indicate a broader spectrum of immune reactivities regulated by APC and suggest that, depending on their level of activation, APC can preferentially inhibit different immune functions.     

Interleukin-12 secreted by mature dendritic cells mediates activation of NK cell function

Dendritic cells (DCs) are known to modulate immune response by activating effector cells of both the innate and the adaptive immune system. In the present study, we demonstrate that co-culture of DCs with paraformaldehyde-fixed tumor cells augments the secretion of interleukin (IL)-12 by DCs and these activated DCs upon co-culture with naive NK cells enhance the cytolytic activity of NK cells against NK-sensitive target YAC-1. Similarly, DCs isolated from tumor-bearing animals also activated NK cells in vitro. For efficient activation of NK cells, the ratio of activated DCs to NK cells is crucial. Addition of anti-IL-12 antibody to the culture system completely abolished activation of NK cells by DCs, suggesting that IL-12 secreted by DCs is an essential factor in NK cell activation. Adoptive transfer of DCs isolated from tumor-bearing animals into normal rats also induced activation of NK cells in normal animals.     

Induction of nonspecific killer cells by delayed-type hypersensitivity against soluble protein antigens in murine peritoneal cavities

Summary We induced nonspecific killer cells in the local site of delayed-type hypersensitivity against keyhole limpet hemocyanin or ovalbumin. Delayed-type hypersensitivity was induced in the peritoneal cavities of mice, and peritoneal exudate cells (PEC) were collected. These PEC were found to have killer activity toward SP2 and YAC-1 cells (target cells susceptible to natural killer cells) by 4-h ⁵¹Cr-release assays. The induction of killer activity in PEC was observed in parallel with the eliciting of delayed-type hypersensitivity in the peritoneal cavity, in which the killer activity was maximum 24–48 h after the antigen challenge, but was not induced in nu/nu mice and was induced in an antigen-specific way. These killer cells did not adhere to nylon wool and had Thy1 and asialo-GM1 antigens on their surfaces. Their precursor cells were also asialo-GM1-positive. These findings indicate that the killer cells probably belong to the NK cell lineage. Results of tumor challenge experiments showed that these killer cells had an antitumor effect in vivo as well as in vitro.     

Trafficking and activation of murine natural killer cells: differing roles for IFN-gamma and IL-2

The repeated ip injection of highly purified recombinant IFN-gamma or IL-2 resulted in a local increase in peritoneal NK activity. This increase in lytic activity was paralleled by increases in the number of peritoneal leukocytes reacting with a rat monoclonal antibody directed against the NK cell-associated surface antigen LGL-1. LGL-1 reacts specifically with the majority of murine NK cells in BALB/c and C57BL/6 mice. A single injection of IFN-gamma induced more peritoneal NK activity at 24 hr than IL-2 on a protein basis. Both cytokines induced increases in the number of LGL-1+ peritoneal cells by 24 hr after injection. Simultaneous injection of suboptimal amounts of IFN-gamma (100 U) and IL-2 (10,000 U) resulted in a significant augmentation of peritoneal NK activity over that observed with either cytokine alone. Also, the peritoneal NK activity generated in response to ip injection of high doses of IL-2 (100,000 U) could be dramatically reduced by simultaneous injection of a neutralizing monoclonal antibody to IFN-gamma. Administration of IFN-gamma 1 day prior to IL-2 resulted in a significant augmentation of the NK activity above that observed with the individual cytokines. In contrast, injection of IL-2 prior to IFN-gamma did not enhance NK activity over that observed with the individual cytokines. Both cytokines must be injected ip for the complementary effects of IFN-gamma and IL-2 on peritoneal NK activity to occur. In contrast, in vitro incubation of peritoneal leukocytes with IFN-gamma resulted in neither a significant enhancement of NK lytic activity nor an increase in the number of LGL-1+ cells. In vitro treatment of peritoneal leukocytes with IL-2 always resulted in significant augmentation of NK lytic activity in the absence of any increase in the number of LGL-1+ cells. These data are consistent with the hypothesis that the local release of IFN-gamma increases peritoneal NK activity by promoting the influx of blood-borne LGL-1+ NK cells from other sites. In contrast, low doses of IL-2 augment the lytic activity of local resident NK cells, whereas high doses of this cytokine induce both an activation of local NK cells and emigration of LGL-1+ NK cells from other sites due to the endogenous generation of IFN-gamma within the peritoneal cavity. Therefore, the local release of IFN-gamma may play an important role in regulating NK cell infiltration in vivo.     

双歧杆菌及其表面分子的免疫增强作用

研究双歧杆菌及其脂磷壁酸、细胞壁肽聚糖、培养乏液对小鼠腹腔渗出细胞、脾细胞ＩＬ－１、ＩＬ－２、ＩＬ－６、ＴＮＦ、ＩＦＮ－γ活性和脾ＮＫ、ＬＡＫ细胞活性的影响。结果发现双歧杆菌全菌、脂磷壁酸、肽聚糖多次注入小鼠腹腔一段时间后,小鼠脾ＮＫ细胞、ＬＡＫ细胞活性和ＩＦＮ－γ活性增强,腹腔渗出细胞产生ＩＬ－１、ＩＬ－６、ＴＮＦ活性增强,其中以脂磷壁酸作用最强,肽聚糖次之,培养乏液也有一定作用。双歧杆菌及其表面分子对小鼠脾细胞、腹腔渗出细胞ＩＬ－２活性无显著影响。双歧杆菌的免疫增强作用在抗感染、抗肿瘤机理中占有十分重要的地位。     

Augmentation of mouse natural killer cell activity by LS 2616, a new immunomodulator

The quinoline-3-carboxamide LS 2616 administered to mice in drinking water increased spontaneous cytotoxicity against YAC-1 cells in a dose-dependent manner. The enhancement of spontaneous cytotoxicity was found to be mediated by NK cells, as judged by their lack of adherence to nylon wool columns, relative resistance to treatment with antibodies to Thy-1.2 and complement, and almost total abrogation after depletion of asialo-GM1+ cells. Enhancement of NK activity was evident after 2 days of treatment, was maximal after 4 days, and remained elevated during the 14-day exposure period studied. NK activity returned to control levels 4 days after cessation of treatment. NK activity was significantly increased in spleen, peripheral blood, lymph nodes, and bone marrow of LS 2616-treated mice, while activity in peritoneal exudate cells and thymus remained low. LS 2616 was able to elevate NK activity in several mouse strains studied, including mice homozygous for the beige gene. Serum interferon levels were not increased during treatment with LS 2616. Combined injection of the interferon inducer Poly I:C and LS 2616 did not increase NK activity above that of animals injected with Poly I:C alone. However, Poly I:C, in contrast to LS 2616, increased NK activity in peritoneal exudate cells. Studies at the single cell level revealed that LS 2616 increased NK activity by increasing the number of lytically active cells via recruitment of new target-binding cells and not by increasing the lytic activity of pre-existing binders.     

Characteristics of the killing mechanism of human natural killer cells against hepatocellular carcinoma cell lines HepG2 and Hep3B

Purpose Unlike normal hepatocytes, most hepatocellular carcinomas (HCCs) are quite resistant to death receptor-mediated apoptosis when the cell surface death receptor is cross linked with either agonistic antibodies or soluble death ligand proteins in vitro. The resistance might play an essential role in the escape from the host immune surveillance; however, it has not been directly demonstrated that HCCs are actually resistant to natural killer (NK) cell-mediated death. Therefore, this study investigated the molecular mechanism of NK cell-mediated cytotoxicity against the HCCs, HepG2, and Hep3B, using two distinct cytotoxic assays: a 4-h ⁵¹Cr-release assay and a 2-h [³H] thymidine release assay which selectively measures the extent of necrotic and apoptotic target cell death, respectively.Methods Most of the target cells exhibited marked morphologic changes when they were co-incubated with the NK cells, and the NK cytotoxicity against these HCCs was comparable to that against K562, a NK-sensitive leukemia cell line, when the cytotoxicity was assessed by a 4-h ⁵¹Cr release assay.Results The NK cells also induced significant apoptotic cell death in the Hep3B targets, but not in the HepG2 targets, when the cytotoxicity was assessed by a 2-h [³H]-thymidine release assay. In agreement with these results, procaspase-3 was activated in the Hep3B targets, but not in the HepG2 targets. Interestingly, mildly fixed NK cells had no detectable activity in the 4-h ⁵¹Cr release assay against both HepG2 and Hep3B targets, while they were similarly effective as the untreated NK cells in the 2-h [³H]-thymidine release assay, suggesting that the level of apoptotic cell death of the Hep3B targets is granule independent and might be primarily mediated by the death ligands of the NK cells.Conclusion This study found that a tumor necrosis factor (TNF)-related apoptosis-inducing ligand (TRAIL)/TRAIL receptor interaction is involved in the NK cell-mediated apoptotic death of the Hep3B targets, but a Fas/Fas ligand (FasL) interaction is not.     

Natural killer activity in the peritoneal exudates of mice infected with Listeria monocytogenes: characterization of the natural killer cells by using a monoclonal rat anti-murine macrophage antibody (M1/70)

Exudates induced by i.p. injection of five listeria monocytogenes (LM) constituted a rich source of CBA/J murine natural killer (NK) cells. Maximum expression of NK activity was seen from day 2 through day 6 after initial exposure to LM. When nylon wool nonadherent peritoneal exudate cells were examined by a single-cell cytotoxicity assay, the number of cells binding to YAC-1 target cells increased after infection as did their individual lytic capacity. A monoclonal rat anti-murine macrophage antibody (M1/70), previously shown by our group to recognize human NK cells, can also be used as a marker for murine NK cells. Utilizing M1/70 and the fluorescence-activated cell sorter, selection of M1/70-labeled mononuclear cells led to the enrichment of both NK and antibody-dependent cellular cytotoxicity. These M1/70-positive cells had a distinctive morphology and contained granules on Wright-Giemsa staining. They were not phagocytic, did not contain nonspecific esterase, and lacked surface I-Ak, IgM determinants, complement receptors, and high levels of Thy 1.2.     

双歧杆菌和乳杆菌在诱发抗肿瘤免疫中的作用

双歧杆菌和乳杆菌给封闭群昆明小鼠腹腔注射,在体内激活后,胸腺细胞和脾细胞对ＣｏｎＡ刺激的增殖反应,脾贴附性细胞对ＹＡＣ－１,Ｌ９２９的细胞毒作用,以及脾贴附性细胞产生对上述二株瘤细胞的肿瘤坏死因子（ＴＮＦ）的活性都比对照动物明显增强。结果提示短双歧杆菌和嗜酸性乳杆菌给小鼠腹腔注射后,通过激活脾脏淋巴细胞和贴附性细胞（巨噬细胞）所介导的免疫功能而明显地增强宿主的抗肿瘤活性。     

Leukemogenesis by methylnitrosourea in BDF1 mice. The origin of transplantable cells and the activity of the natural killer cells during the preleukemic period

BDF1 mice injected with methylnitrosourea (MNU, 50 mg/kg) developed T cell leukemias within 9-35 weeks (median induction time 18 weeks). Leukemic cells, determined by transplantation, were found 2-5 weeks before the death of the animals. Natural killer (NK) cell activity in the spleen and peritoneal exudate cells was studied using YAC-1 cells as targets. MNU-treated mice showed reduced lytic activity with or without stimulation by Corynebacterium parvum. NK activity was essentially the same in mice with and without transplantable leukemic cells. No correlation could be demonstrated between the degree of NK cell depression, as studied in the spleen after splenectomy, and the survival time of individual mice.     

Hyperthermia suppresses the cytotoxicity of NK cells via down-regulation of perforin/granzyme B expression

Hyperthermia, which is used as an adjunctive therapy for cancer, is known to modulate the activity of natural killer (NK) cells in vitro, but its effect in vivo is unclear. In the present study, we used a whole body hyperthermia (WBH) device heated by infrared rays to evaluate the effect of WBH on mice models. We demonstrate here that wild type C57BL/6J mice exposed to 42 degrees C for 60min had reduced NK cell cytolytic activity against YAC-1 target cells as determined by cytolytic assay. This result was confirmed using Rag-2 knockout mice, which possess functional NK but not cytolytic T or NK-T cells. Moreover, WBH decreased the mRNA expression of perforin and granzyme B in spleens of mice. But the expression of TNF cytokines (Fas ligand and TRAIL) was unchanged. These data suggest that the suppression of NK cell activity induced by WBH could be mediated through the perforin/granzyme pathway.     

Mycoplasma pulmonis infection augments natural killer cell activity in mice

The goal of this study was to determine if experimental Mycoplasma pulmonis infection augmented splenic natural killer (NK) cell activity in mice. A 4 hour 51Cr-release in vitro assay using YAC-1 tumor target cells was employed to measure splenic NK cell activity in C57BL/6J mice infected intraperitoneally with M. pulmonis and in uninfected controls. Transient augmentation of the NK cells was observed, peaking at day 3 postinoculation (PI) and gradually returning to normal levels by day 10 PI. Selective depletion studies showed that the cells responsible for killing target cells were NK cells. They were nonadherent to nylon wool, not susceptible to Thy-1.2 antibody and susceptible to asialo GM1 ganglioside antibody. Inadvertent augmentation of the NK cell system due to M. pulmonis infection may complicate the interpretation of research data, especially in immunology and cancer studies.     

Increased sensitivity to MHC-nonrestricted lysis of BL6 melanoma cells by transfection with class I H-2Kb gene

An H-2Kb- negative clone of BL6 melanoma (BL6-8) was transfected with neor, H-2Kb, or H-2IAk genes. In an 18-h cytotoxicity assay clones with high levels of H-2Kb Ag expression were found more sensitive to lysis by spleen cells of syngenic and allogeneic mice than H-2Kb low clones. NK cells were involved in the lysis of H-2Kb+ BL6 melanoma clones, with spleen cell cytotoxicity of mice increased after poly I:C stimulation or decreased after pretreatment with anti-asialo GM1 serum or NK1.1 mAb. Anti-TNF Ab were also able to reduce the cytotoxicity of normal spleen cells and completely abolished the cytotoxicity of the NK-depleted spleen cells suggesting involvement of NC cells in lysis of H-2Kb+ BL6 melanoma clones. Increase in sensitivity of H-2Kb+ BL6 cells to natural cell-mediated cytotoxicity was associated with the appearance of NK recognizable determinants as assessed by the cold target inhibition assay. All BL6 clones, irrespective of sensitivity to natural cell-mediated cytotoxicity, showed high sensitivity to lysis by LGL-derived granules. In contrast, all H-2Kb low BL6 clones were resistant and all H-2Kb highly positive clones were sensitive to lysis by TNF-alpha. When an H-2Kb highly positive clone was selected in vitro for resistance to TNF, it concomitantly showed increased resistance to cytotoxicity by spleen cells, confirming the importance of TNF in spleen cell cytotoxicity against H-2Kb+ melanoma cells. Taken together, the data indicate that class I H-2Kb but not class II H-2IAk gene product could increase the sensitivity of BL6 cells to lysis by NK and natural cytotoxic cells as well as TNF. We hypothesize that these effects could be due to pleiotropic effects of H-2Kb gene products on various biologic properties of BL6 melanoma cells some of which may be more directly involved in regulation of tumor cell sensitivity to lysis by NK and/or natural cytotoxic cells.     

High cytotoxic activity against herpes simplex virus type 1 infected targets found in murine peritoneum

Unelicited murine peritoneal cells (PC) were found to efficiently lyse the natural cytotoxic (NC) cell target, WEHI-164, as well as herpes simplex virus-type 1 (HSV-1)-infected WEHI-164 and 3T3 cells but not the natural killer (NK) target, YAC-1. Lysis by PC of HSV-1-infected WEHI-164 and 3T3 cells required longer culture times than splenic cell lysis of YAC-1 cells. The PCs which lysed these targets were found to be slightly adherent to nylon wool but non-phagocytic, and were not augmented by preincubation with interferon. Also, PC effectors lacked Qa-5 and asialo GM1 markers which are found on splenic NK cells which lysed YAC-1 targets. We found that there was no correlation between peritoneal NC activity and genetic resistance to HSV-1.     

Kinetics and location of bone marrow cell graft rejection by irradiated mice

Natural killer (NK) cells were eliminated with rabbit anti-Asialo GM1 (anti-ASGM1) serum to test the kinetics and location of bone marrow cell (BMC) rejection. Anti-ASGM1 serum was injected intravenously in mice at various times before or after irradiation (8.6 Gy) and transfer of parental-strain or allogeneic BMC. Growth of BMC was determined by measuring splenic 5-iodo-2'-deoxyuridine-125I incorporation 5 days after cell transfer. Anti-ASGM1 serum weakened hybrid resistance even if injected intravenously as late as 24 h post-BMC transfer and even in recipients injected with polyinosinic:polycytidylic acid so as to boost NK activity. If regenerating spleen cells (higher rate of cell cycling) were used as donor cells instead of BMC, the length of time required for rejection was unaffected. Anti-ASGM1 serum injected intravenously rapidly inhibited splenic NK activity and lung clearance of YAC-1 tumor cells, but when injected intratracheally, it only inhibited lung NK activity. Thus, BMC rejection occurs in the hematopoietic tissue and requires at least 24 h.     

Immunostimulatory Activities of the Sulfated Polysaccharide Ascophyllan from Ascophyllum nodosum in in Vivo and in Vitro Systems

Splenic natural killer (NK) cell activity against YAC-1 cells increased in mice intraperitoneally injected with ascophyllan. Ascophyllan enhanced the cytotoxicity of RAW264.7 cells toward YAC-1 cells in a concentration-dependent manner. The cytotoxicity of ascophyllan-stimulated RAW264.7 cells as to YAC-1 cells was suppressed with N(G)-nitro-L-arginine methyl ester hydrochloride (L-NAME), an inhibitor of nitric oxide (NO) synthase, suggesting the involvement of NO in the cytotoxicity of ascophyllan-stimulated RAW264.7 cells.