Leukoregulin up-regulation of tumor cell sensitivity to natural killer and lymphokine-activated killer cell cytotoxicity

The present investigation demonstrates that leukoregulin, a cytokine secreted by natural killer (NK) lymphocytes up-regulates the sensitivity of tumor cells to lymphokine-activated killer (LAK) cell cytotoxicity. It has been previously established that leukoregulin increases the sensitivity of sarcoma, carcinoma and leukemia cells to natural killer (NK) cell cytotoxicity. Tumor cells were treated with leukoregulin for 1 h at 37 degrees C and tested for sensitivity to NK and LAK cytotoxicity in a 4-h chromium-release assay. NK-resistant Daudi, QGU and C4-1 human cervical carcinoma cells became sensitive to NK cytotoxicity after leukoregulin treatment, and their sensitivity to LAK was increased two- to sixfold. Y-79 retinoblastoma cells, which are moderately sensitive to NK and very sensitive to LAK, became increasingly sensitive (two- to four-fold) to both NK and LAK cell cytotoxicity. Recombinant granulocyte-macrophage colony-stimulating factor (GM-CSF), recombinant interleukin-1 (alpha and beta), recombinant interferon gamma, recombinant tumor necrosis factor or combinations of the latter two failed to up-regulate tumor cell sensitivity to NK and LAK cell cytotoxicity. However, treatment with recombinant interferon gamma for 16-18 h, GM-CSF and interleukin-1 beta for 1 h induced a state of target cell resistance to both NK and LAK cell cytotoxicity. Leukoregulin may have an important physiological function in modulating NK and LAK cell cytotoxicity by increasing the sensitivity of target cells to these natural cellular immunocytotoxicity mechanisms.     

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.     

H-2Kb antigen expression has no effect on natural killer susceptibility and tumorigenicity of a murine hepatoma

Recent reports suggested a correlation between decreased expression of tumor cell MHC class I Ag and increased susceptibility to NK cells. These studies led to the hypothesis that tumor cells displaying reduced levels of MHC class I Ag have reduced tumorigenicity in vivo because they are eliminated from the host by endogenous NK cells. The present studies use the murine hepatoma BW7756 and a spontaneous H-2Kb loss variant, Hepa-1, to test this hypothesis. The parental BW7756 tumor is highly malignant in syngeneic C57L/J hosts while Hepa-1 cells do not give rise to tumors, suggesting that the loss of H-2Kb Ag expression correlates with decreased tumorigenicity and NK susceptibility. Hepa-1 cells were therefore transfected with an H-2Kb gene to generate H-2Kb Ag expressing clones. The resulting clones were tested for tumorigenicity. Syngeneic or NK-deficient C57BL/6-beige/beige mice challenged with Hepa-1 or the H-2Kb transfectants rejected the cells, suggesting that reexpression of H-2Kb Ag does not restore tumorigenicity and that NK cells are not involved in Hepa-1 rejection. In vitro H-2Kb Ag-negative and -positive Hepa-1 cells are equally susceptible to tilorone-boosted NK cells, indicating that MHC class I Ag expression also does not affect in vitro NK susceptibility. Tumor challenged athymic nude and sublethally irradiated syngeneic mice develop tumors demonstrating that T cells are probably responsible for rejection of the Hepa-1 tumor, and that H-2Kb Ag expression has no effect on rejection. Inasmuch as the expression of H-2Kb Ag on Hepa-1 cells does not effect tumorigenicity or in vitro NK susceptibility, the previously reported association between reduced MHC class I Ag levels and increased NK susceptibility is not universally applicable.     

Overexpression of Hsp25 in K1735 murine melanoma cells enhances susceptibility to natural killer cytotoxicity

In the present study we used a murine melanoma model to investigate the effect of the 25-kDa heat shock protein (Hsp25) on natural killer (NK) cytotoxicity. The melanoma lines K1735-C123 (low metastatic potential) and K1735-M2 (high metastatic potential) were transfected with hsp25 and a control plasmid. Highly purified interleukin (IL)-2-stimulated DX-5+ NK cells showed enhanced lysis of Hsp25-overexpressing K1735-C123 targets in comparison with controls. In contrast, there was no difference in susceptibility to lysis by purified IL-2-stimulated DX-5+ NK cells between Hsp25-overexpressing and control-transfected K1735-M2 targets. Fluorescence-activated cell sorter analysis revealed that Hsp25 is displayed on the cell surface independently of Hsp25 overexpression and metastatic phenotype. Thus, surface localization of Hsp25 does not correlate with the target cell susceptibility to killing. To sum up, a cytoplasmic overexpression of Hsp25 is associated with an increased susceptibility to lysis by DX-5+ NK cells in the low-metastatic murine melanoma model investigated.     

High expression of the c-myc oncogene renders melanoma cells prone to lysis by natural killer cells

NK cells kill a wide variety of tumor cells, but usually leave normal cells intact. It was earlier reported that low class I HLA expression can be one of the factors that render target cells relatively susceptible to NK lysis. In this contribution, we show that in human melanomas the class I HLA expression is down-modulated by high expression of transfected c-myc oncogenes. The extent of down-modulation depended on the level of c-myc expression in a dose-dependent way. Taken together, these data suggested to us that one of the results of high c-myc expression could be the induction of a NK susceptible phenotype in melanoma cells. Therefore, we analyzed the effect of c-myc on NK susceptibility. We have found that high expression of transfected c-myc genes indeed converts the melanoma cell lines from poor into good targets for NK cells. IFN-gamma was used to restore the class I HLA expression of the c-myc transfectants, and the resulting cells showed a decreased NK susceptibility. These results suggest the possibility that the c-myc-induced NK susceptibility is mediated by the reduction of class I HLA expression.     

Reversal of lovastatin-mediated inhibition of natural killer cell cytotoxicity by interleukin 2

The activation of human natural killer (NK) cell cytotoxicity by interleukin 2 (IL-2) is well established, although the biochemical mechanisms of this stimulation have not yet been fully delineated. Earlier, we reported that treatment of NK cells with an inhibitor of 3-hydroxy-3-methylglutaryl coenzyme A (HMG CoA) reductase such as compactin or lovastatin significantly abrogates the in vitro killing of a susceptible human erythroleukemic cell line and that this inhibition can be completely reversed by 2 hr of exposure to mevalonate (J. Cell. Physiology 139:550-557, 1989). We report here that 24 hr of treatment with IL-2 also reverses lovastatin inhibition of NK cell function. In addition to natural cytotoxicity, IL-2 also restores chemotactic and antibody dependent cellular cytotoxicity functions to lovastatin-treated cells. IL-2 does not stimulate proliferation of these cells during this time period, nor does it affect the phenotypic composition of the NK cell preparations. Although IL-2 was able to reverse the lovastatin-mediated inhibition of every cell function we examined, it had no effect on the inhibition of cholesterol biosynthesis as measured by [3H]acetate incorporation into non-saponifiable lipids, nor did it stimulate HMG CoA reductase activity. These findings support the hypothesis that there is a non-sterol isoprenoid product which is required for NK cell cytotoxicity and chemotaxis. In addition, the data suggest that IL-2 stimulation of NK cells proceeds by an isoprenoid-independent pathway.     

Antibody-dependent cellular cytotoxicity and natural killer cytotoxicity of peritoneal cells from nude mice to herpes simplex virus-infected cells

Nude BALB/c mice (athymic) were more susceptible to fatal herpes simplex virus (HSV) than normal BALB/c mice (P = 0.002). The peritoneal cells of nude mice mediated levels of antibody-dependent cellular cytotoxicity (ADCC) of equal or greater magnitude than cells from normal BALB/c, heterozygote nu/+, or C57BL/6 mice. Unstimulated natural killer cytotoxicity of peritoneal cells from nude mice was higher (P less than 0.05) than that mediated by cells from C57BL/6 mice. Nude mice failed to make anti-HSV ADCC antibody 6 to 14 days post HSV inoculation, at times when nu/+, BALB/c, and C57BL/6 mice produced antibody. Passive reconstitution of nude mice with high titer intraperitoneal anti-HSV immune globulin provided circulating anti-HSV ADCC antibody and significant protection against lethal HSV infection.     

Human choriocarcinoma cell resistance to natural killer lysis due to defective triggering of natural killer cells

The trophoblast, the outermost layer of the human placenta, lacks expression of the classical human leukocyte antigen (HLA) class I molecules. This prevents allorecognition by T cells but raises the question of what protects the trophoblast from natural killer (NK) cells. In a previous study, we have shown that choriocarcinoma cell (CC) resistance to NK lysis was mainly independent of HLA class I molecules. In the present study, we postulated that CC may prevent activation of NK cells by failing to stimulate their triggering receptors (TR). To test this hypothesis, we evaluated the lysis of JAR and JEG-3 CC after effective cross-linking and activation of NK cells by means of lectins or antibodies. Our results show that NK-resistant CC were sensitive to lysis by unstimulated peripheral blood lymphocytes in the presence of phytohemagglutin (PHA), to antibody-dependent cell cytotoxicity in presence of anti-Tja antibodies, and to monoclonal antibody redirected killing using anti-TR antibodies anti-CD16 and anti-CD244/2B4. Finally, CC fail to express CD48, the ligand for CD244/2B4. These results indicate that the resistance of CC to lysis results primarily from defective NK cell activation, at least partially due to the lack of expression of ligands, such as CD48, involved in the triggering of NK cells.     

IFN increases class I MHC antigen expression on adenovirus-infected human cells without inducing resistance to natural killer cell killing.

It has been previously shown that unstimulated NK cells cannot preferentially lyse adenovirus serotypes 2 and 5-infected human cells. In this study, the ability of IFN to promote the selective NK cell-mediated lysis of adenovirus-infected human cells was determined. The relationship between target cell susceptibility to NK cell-mediated killing and class I Ag expression was also analyzed through the use of adenovirus serotype 2 and 5 mutants that do not make the adenovirus early region 3 19-kDa class I binding protein. IFN induced the selective lysis of adenovirus serotype 2 and 5-infected human cells by activating NK cells (IFN-alpha) and protecting uninfected, but not adenovirus-infected cells, from NK cell-mediated lysis (IFN-gamma). IFN-gamma increased the expression of class I Ag on the surface of cells infected with the adenovirus early region 3 deletion mutants, dl327 or dl801, to a level equal to or greater than that expressed on uninfected cells. Despite the increased expression of class I Ag, IFN-gamma could not protect these adenovirus-infected cells from NK cell-mediated lysis. Thus, dl327 or dl801 infection prevented IFN-gamma's induction of cytolytic resistance to NK cell-mediated killing but left IFN-gamma's induction of class I Ag intact. Surface class I Ag levels were substantially higher on IFN-gamma-treated, dl327-, and dl801-infected cells in comparison to cells infected with wild type adenovirus serotype 5. Again, higher target cell levels of class I Ag did not correlate with increased resistance to NK cell-mediated lysis because there was equivalent NK cell-mediated killing of IFN-gamma-treated adenovirus serotype 5-, dl327-, or dl801-infected cells. Thus, IFN-gamma only protects uninfected cells from NK cell-mediated killing, irrespective of target class I Ag levels, and thereby concentrates NK lytic activity on just adenovirus-infected cells. These data demonstrate that IFN-gamma's ability to protect target cells from NK cell-mediated cytolysis is unrelated to IFN-gamma's induction of surface class I MHC Ag.     

Mutated HLA-G3 localizes to the cell surface but does not inhibit cytotoxicity of natural killer cells

HLA-G plays an important role in the induction of immune tolerance. Various attempts to produce good manufacturing practice levels of HLA-G as a therapeutic molecule have failed to date partly due to the complicated structure of full-length HLA-G1. Truncated HLA-G3 is simpler and easier to produce than HLA-G1 and contains the expected functional epitope in its only α1 monomorphic domain. In this study, we engineered the ER retrieval and retention signal on HLA-G3’s cytoplasmic tail by replacing its RKKSSD motif with RAASSD. We observed that mutated HLA-G3 was highly expressed on the cell surface of transduced K562 cells but did not inhibit cytotoxicity of natural killer cells.     

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     

乙酰胆碱对自然杀伤细胞活性的影响

目的:观察乙酰胆碱(ACh)对自然杀伤(NK)细胞活性的影响,并初步探讨其作用的受体机制.方法:根据不同的实验目的,选择ACh、胆碱能受体激动剂和拮抗剂分别作用于NK细胞,以乳酸脱氢酶(lactate dehydrogenase,LDH)自然释放法检测不同实验条件下NK细胞杀伤肿瘤靶细胞(Yac)的活性.结果:ACh、M受体激动剂毛果芸香碱和N受体激动剂烟碱在10-10～10-6mol/L浓度范围内都能显著抑制NK细胞杀伤肿瘤细胞的活性.M受体拮抗剂阿托品(10-8和10-7mol/L)能完全阻断同浓度ACh抑制NK细胞活性的作用;但N受体拮抗剂筒箭毒碱(10-8和10-7mol/L)不能阻断同浓度ACh抑制NK细胞活性的作用.结论:ACh可抑制NK细胞对肿瘤细胞的杀伤作用,此作用主要由淋巴细胞上的M受体和N1受体介导.     

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.     

Multiple splenic lymphoid cell subpopulations regulate H-2 antigen expression on teratocarcinoma cells in vivo

Undifferentiated murine 402AX teratocarcinoma cells do not express MHC antigens when passaged in vitro or in vivo in genetically susceptible host mice. When passaged in vivo in genetically resistant mice, however, the tumor cells become H-2b antigen positive regardless of the H-2 haplotype of the resistant host mouse. The present studies use monoclonal anti-H-2b antibodies to corroborate these earlier findings, which were performed with conventional antisera. Previous studies have established that host bone marrow plus lymphoid cells from resistant primed donors regulate tumor cell H-2b antigen expression. Using bone marrow and mature lymphoid cell reconstitution techniques, the present studies indicate that splenic Ig- cells from genetically resistant host mice are the most efficient lymphoid cell subpopulation in tumor cell H-2b antigen induction. Ig+ spleen cells also reconstitute the capacity to induce teratocarcinoma cell H-2 antigens but are less effective than Ig- spleen cells. Tumor cell H-2 antigen induction in C57BL/6 beige mice is impaired compared to C57BL/6 hosts, which suggests that host NK cells may also be involved in tumor cell H-2 antigen induction. Reconstitution of lethally irradiated resistant hosts for teratocarcinoma cell H-2 antigen expression requires bone marrow plus resistant primed lymphoid cell subpopulations; bone marrow alone is insufficient. These results indicate that multiple splenic lymphoid cell subpopulations requiring a radiosensitive host environment and/or factor for differentiation regulate teratocarcinoma 402AX H-2b antigen expression in vivo in genetically resistant mice.     

Effect of interleukin 1 on the expression of interleukin 2 receptor (Tac antigen) on human natural killer cells and natural killer-like cell line (YT cells)

The effect of interleukin 1 (IL 1) on the expression of interleukin 2 receptor (IL 2R/Tac antigen) on human natural killer (NK) cells and the NK-like cell line, YT was studied with the use of a fluoresceinated anti-IL 2R monoclonal antibody and a Spectrum III flow cytofluorometer. IL 2R was expressed on approximately 10% of NK cells. The expression of IL 2R on NK cells was increased to approximately 25% by the in vitro culture with monocytes or IL 1 and to a less extent by the culture with IL 2 or interferon-gamma (IFN-gamma). IL 2R was expressed on approximately 50% of YT cells without any stimulations. The expression of IL 2R on YT cells was increased up to almost 100% by the culture with IL 1 or monocytes, but not with IL 2, IFN-alpha, IFN-beta, IFN-gamma, or lectins such as concanavalin A and phytohemagglutinin-P. IL 1 absorbed with YT cells or murine thymocytes lost both IL 1 activity detected by the stimulation of murine thymocyte proliferative response and enhancing activity of IL 2R expression on YT cells, suggesting that IL 1 has both activities. However, the assay system of the expression of IL 2R on YT cells is much more sensitive than the stimulation of murine thymocyte proliferative response. By the kinetic study, the enhancement of IL 2R expression was induced by only a 2-hr incubation of YT cells with IL 1. This enhancement did not proceed at 4 degrees C or by the treatment of YT cells with actinomycin D or cycloheximide, suggesting that this enhancement is energy dependent and requires the synthesis of RNA and protein but not DNA. Thus IL 1 plays an important role for the regulation of the expression of IL 2R on NK cells, and IL 1-dependent IL 2R expression on YT cells may give us a good model for the study of the molecular mechanism of the regulation of IL 2R expression.     

Fractalkine expression induces endothelial progenitor cell lysis by natural killer cells

Background

Circulating CD34⁺ cells, a population that includes endothelial progenitors, participate in the maintenance of endothelial integrity. Better understanding of the mechanisms that regulate their survival is crucial to improve their regenerative activity in cardiovascular and renal diseases. Chemokine-receptor cross talk is critical in regulating cell homeostasis. We hypothesized that cell surface expression of the chemokine fractalkine (FKN) could target progenitor cell injury by Natural Killer (NK) cells, thereby limiting their availability for vascular repair.

Methodology/Principal Findings

We show that CD34⁺-derived Endothelial Colony Forming Cells (ECFC) can express FKN in response to TNF-α and IFN-γ inflammatory cytokines and that FKN expression by ECFC stimulates NK cell adhesion, NK cell-mediated ECFC lysis and microparticles release in vitro. The specific involvement of membrane FKN in these processes was demonstrated using FKN-transfected ECFC and anti-FKN blocking antibody. FKN expression was also evidenced on circulating CD34⁺ progenitor cells and was detected at higher frequency in kidney transplant recipients, when compared to healthy controls. The proportion of CD34⁺ cells expressing FKN was identified as an independent variable inversely correlated to CD34⁺ progenitor cell count. We further showed that treatment of CD34⁺ circulating cells isolated from adult blood donors with transplant serum or TNF-α/IFN-γ can induce FKN expression.

Conclusions

Our data highlights a novel mechanism by which FKN expression on CD34⁺ progenitor cells may target their NK cell mediated killing and participate to their immune depletion in transplant recipients. Considering the numerous diseased contexts shown to promote FKN expression, our data identify FKN as a hallmark of altered progenitor cell homeostasis with potential implications in better evaluation of vascular repair in patients.     

H-2 class I antigen expression on mouse teratocarcinoma cell lines

Immunity against PCC3 teratocarcinoma cells (129, H-2 ^b) was induced in allogeneic (C3H, H-2 ^k) mice by preimmunization with L cells (C3H, H-2 ^k) expressing cosmid-introduced K ^b or D ^b genes, but not with nontransfected L cells. In addition, the growth of PCC3 cells in sublethally irradiated (C3H × B6-H-2 ^bm1)F₁ and (C3H × B6-H-2 ^bm13 )F₁ mice bearing the K ^bm1 and D ^bm13 mutations, respectively, was either prevented, stopped, or delayed in comparison with the (C3H × B6)F₁ (k × b) mice, which failed to reject the PCC3 cells. The teratocarcinoma line OC15S was exceptional because it reacted specifically with K^b- and D^b-specific (but not I^b-specific) alloantisera, and because K^b- and D^b-specific antibodies could be absorbed by OC15S cells. The subpopulation of OC15S cells bearing the ECMA-7 antigen characteristic for embryonic carcinoma (EC) cells was isolated by the fluorescence-activated cell sorter and was shown to react specifically with K^b- and D^b-specific antisera. These experiments show that teratocarcinoma cells express antigens similar or identical to the K-and D-region products of differentiated cells. The lack of expression of class I antigens is thus neither a condition nor a consequence of the pluripotentiality of the EC cells. The exact nature of the major histocompatibility complex antigens on EC cells has yet to be established using the methods of molecular biology and biochemistry.