Modulation of natural killer and lymphokine-activated killer cell cytotoxicity by lactoferrin.

Natural killer (NK) and lymphokine-activated killer (LAK) cell cytotoxic functions can be strongly augmented by the iron-carrier protein lactoferrin (LF). LF significantly enhances NK and LAK activities when added at the beginning of NK or LAK cytotoxicity assays. LF is effective in augmenting cytotoxic activities at concentrations as low as 0.75 microgram/ml, and higher concentrations of LF induce greater augmentation of NK and LAK. Iron does not appear to be essential for LF to increase NK and LAK, as depleting iron from LF with the chelator deferoxamine does not affect the capacity of LF to increase cytotoxicity. LF is known to have RNase enzymatic activity, and LF enhancement of NK and LAK can be blocked by RNA. However, LFs from two different sources with over 100-fold difference in RNase activity are equally effective in enhancing NK and LAK. Furthermore, purified non-LF RNase does not modulate NK or LAK activity and DNA is as effective as RNA in blocking LF augmentation of NK or LAK cytotoxicity. Therefore, the RNase activity is unlikely to be responsible for LF enhancement of the cytotoxicities. Newborn infants are known to have low NK activity and NK and LAK cells have been implicated in host defense against microbial infections. Thus, maternal milk-derived LF may have a role in boosting antimicrobial immunity in the early stages of life. In adults, LF released from neutrophils may enhance NK and LAK functions in the inflammatory process induced by microbial infections.     

Triggering receptors involved in natural killer cell-mediated cytotoxicity against choriocarcinoma cell lines

The lack of classical HLA-class I molecules on trophoblast is necessary to prevent allorecognition by maternal CTL, but may induce activation of NK cells. A protective role against NK cells equipped of suitable inhibitory receptors has been proposed for nonclassical HLA-class I molecules including HLA-E and HLA-G. In the present study we show that the NK-mediated killing of two choriocarcinoma cell lines, JAR and JEG3, is induced upon engagement of natural cytotoxicity receptors (NCR) with their specific ligands. In particular, we show that NKp44, a triggering receptor expressed at the NK cell surface only after in vitro culture in the presence of IL-2, plays a central role in triggering NK cytotoxicity against trophoblast cells. Also NKp46 appear to contribute to this function by cooperating with NKp44. On the other hand, other triggering receptors such as NKp30, 2B4, and NKG2D are not involved in killing of choriocarcinoma. Our findings suggest that resistance of trophoblast to NK-mediated cytotoxicity is the result of insufficient activating interactions between the various triggering NK receptors and their target cell ligands. On the other hand, the interaction of nonclassical HLA class I molecules with inhibitory NK receptors appears to play only a marginal role in regulating the susceptibility of choriocarcinoma to NK mediated cytotoxicity.     

Lymphokine-activated killer cytotoxicity against pancreas adenocarcinoma cell lines and vascular endothelial cells

Eight pancreas carcinoma cell lines of duct cell origin (PCI-6, 10, 19, 24, 35, 43, 55, and 64) were established. Using one of these lines, PCI-24, human umbilical vein endothelial cells (HUVEC), and several recombinant cytokines, conditions and specificity of antl-PCI LAK induction were Investigated, with the focus on a search for lymphokine-activated killer (LAK) activity that differentiates neoplastic (PCI) from non-neoplastic (HUVEC) cells. Interferon-γ (IFN-γ), IFN-α, IL-4, 11–6, and IL-7, but not tumor necrosis factor-α (TNF-α) or IL-1β, induced a weak LAK activity against PCI-24, whereas IL-2-induced (1000U/mL) LAK exhibited a far more potent cytotoxicity. When these cytokines were added at the suboptimal dose IL-2 (100U/mL), no significant augmentation in LAK activity was induced. Staphylococcal protein A (SpA) induced LAK activity as potent as that seen with IL-2 (1000 U/mL). Both IL-2-induced and SpA-induced LAK had a potent, dose-dependent cytotoxicity against HUVEC. HUVEC inhibited both IL-2– and SpA-induced LAK cytotoxicity against PCI-24 to almost the same extent as seen with PCI-24. Thus, two potent LAK-inducers did not generate LAK activity that differentiates neoplastic from non-neoplastic cells. Thus, in vitro cytotoxicity of LAK agalnst non-neoplastic endothelial cells is unavoidable when handling cytokines in LAK induction.     

Histological evidence of natural killer cell aggregation against malignant melanoma induced by adoptive immunotherapy with lymphokine-activated killer cells

Adoptive immunotherapy with lymphokine-activated killer (LAK) cells and systemic administration of recombinant Interleukin-2 (RIL-2) was carried out in a case of malignant melanoma with lung metastases. Histological specimens from the lung showed a metastatic melanoma heavily invaded by atypical lymphoid cells with convoluted nuclei of varying size. Immunohistochemistry revealed that these cells had the characteristic exclusively of natural killer cell (Leu-7+). Nodules of these cells mimicked the appearance of non-Hodgkin's lymphoma of pleomorphic type. Molecular cytogenetic analysis, however, showed the absence of rearranged bands for the T-cell receptor beta-chain gene, indicating the absence of T-cell clones. At autopsy, 1 month after the LAK therapy, the heavy invasion of convoluted cells had disappeared. These findings clearly indicate that the LAK cell plus RIL-2 therapy induced Leu-7+ lymphoid cells, phenotypically suggestive of natural killer cell aggregation in the tumours.     

Resistance against natural killer cell cytotoxicity: analysis of mechanisms

Target cell resistance against natural killer (NK) cell-mediated cytotoxicity obstructs NK cell-based immunotherapy of leukaemia. Several mechanisms of resistance have been described. Because of lack of simple assays for analysing these mechanisms, their relative impact on a given effector-target pair is mostly unknown. We here analysed the combination of the Granzyme B (GrB) enzyme-linked immunospot assay (ELISPOT) for the assessment of NK cell reactivity and cytotoxicity assays to estimate target cell escape mechanisms. Target cell recognition failure leads to negative GrB ELISPOT results, whereas target cell resistance shows positive GrB ELISPOT results in the absence of cytotoxicity. We confronted NK cells with the sensitive target cell line K562, and with the resistant cell lines ML2, SupB15 and Raji. ML2 cells sufficiently activated GrB-release whilst being resistant against cytotoxic granules of NK cells. Partial resistance of Raji results from the interaction of HLA class I with inhibitory killer immunglobulin-like receptors (KIR) on the NK cells. Failure of target recognition by HLA class I-KIR interaction, lacking ligands to stimulatory NK cell receptors and partial resistance to cytotoxic granules all contributed to resistance of SupB15. In conclusion, revealing the mechanisms of resistance against NK cell-mediated cytotoxicity may allow improving the results of NK-based immunotherapy.     

Generation of natural killer cells and lymphokine-activated killer cells in human AB serum or fetal bovine serum

Interleukin 2 (IL-2) can induce or enhance the cytotoxic activity of natural killer (NK) cells and lymphokine-activated killer (LAK) cells. The effects of fetal bovine serum (FBS) and human AB serum (HABS) on the IL-2-induced NK cell and LAK cell activities of large granular lymphocytes (LGL) were measured, respectively, against the NK-sensitive cell line K562 and the LAK-sensitive cell line Daudi. FBS and HABS were essentially equivalent in their effects on IL-2-dependent NK activity with prolonged culture. However, with prolonged incubation from 1 to 5 days of PBMC in the presence of IL-2, there was considerably less generation of LAK cell activity in FBS (Day 3: 5.3 +/- 3.4 LU/10(7) cells) compared to HABS (Day 3: 44.6 +/- 4.2 LU/10(7) cells) (P less than 0.05). These differences in IL-2-dependent LAK cell generation did not appear to be due to the lot of the FBS or to activating factors present in individual samples of HABS. Similarly, the suppressive effects of FBS could not be reversed with increasing concentrations of IL-2 ranging from 10 to 100 U/ml. Importantly, the presence of FBS in the cultures resulted in more cell death (15.9 +/- 5.6%) at 4 days of culture compared to HABS (1.8 +/- 1.0%) (P less than 0.05). These results suggest that FBS may inhibit generation of LAK effector cells, but not NK cells in cultures containing IL-2 and that the use of HABS as a culture supplement is preferable to FBS in studies of human LAK cell function.     

Immune modulation of natural killer cell cytotoxicity against herpes infected target cells in pregnancy

Natural killer cell cytotoxicity (NKC) is a nonspecific, primary immunodefense system active against a variety of pathogens, including herpes simplex virus (HSV). Evidence suggests that during pregnancy, NKC is attenuated. The regulatory mechanisms for this immune attenuation have yet to be defined. We examined two cytokines (interleukin-2 [IL-2] and alpha interferon [IFN]) for their ability to alter NKC responsiveness during pregnancy, utilizing an HSV-infected target cell model. Peripheral mononuclear effector cells were isolated from 19 pregnant and 19 nonpregnant subjects by Ficoll-Paque separation. These cells were incubated with IFN, IL-2, or media alone, and analyzed for %NKC by an 18 h chromium release assay. The percentage of NKC was lower using the effector cells from the pregnant subjects as compared to nonpregnant controls. Incubation with either IFN or IL-2 resulted in a significant augmentation of NKC in both the pregnant and nonpregnant derived cells. There were no differences in IL-2 dose requirements or levels of cytotoxicity achieved (43.1 +/- 6.8% vs. 44.4 +/- 6.8%, respectively) between pregnant and nonpregnant derived cells. The IFN-mediated augmentation of NKC was somewhat blunted in pregnancy both in terms of absolute levels of cytotoxicity achieved (26.1 +/- 3.9% vs. 37.2 +/- 4.9%, respectively) and dose response curves generated. These results demonstrate that NKC against HSV infected cells is attenuated during pregnancy and can be immunoregulated with the use of either IFN and IL-2. The restoration of NKC responsiveness with IFN, however, remains incomplete during pregnancy, suggesting that this cytokine's mechanism of action differs from that of IL-2.     

扁桃体细胞的表型及其自然杀伤功能

目的比较腭扁桃体细胞 (PTC)与外周血单个核细胞 (PBMC)的表型 ,观察IL 2刺激前后PTC的杀伤活性,探讨扁桃体的免疫功能。方法用流式细胞仪分别检测扁桃体与PBMC表面CD3,CD4 ,CD8 ,CD20,PTA1及9.1C3的表达情况。用4h51Cr释放实验检测静止时及IL 2刺激后PTC中NK细胞杀伤K562活性的改变。结果PTC中CD20的表达率为71.2 % ,PBMC为15.5 % ,且PTC中的平均荧光强度 (MFI)明显高于PBMC。静止的扁桃体细胞杀伤功能非常低 ,经IL 2刺激后杀伤功能显著提高 ,效靶比为200∶1时达到61.5 %。CD3阳性率在PTC和PBMC中分别为32.8%和57.7% ;CD4/CD8的比值分别为6.97和1.11。两种新分子血小板T细胞活化抗原1(PTA1)和9.1C3在扁桃体中均有表达。结论扁桃体单个核细胞中B细胞占多数 ,而且CD20的表达密度明显高于外周血B细胞 ;在T细胞中以CD4 细胞为主 ;IL 2活化后PTC有较高的自然杀伤活性 ;与CTL和NK细胞相关的膜标记PTA1和9.1C3均有表达。     

Spontaneous human lymphocyte-mediated cytotoxicity against tumor target cells. IX. The quantitation of natural killer cell activity

On analysis ofin vitro assays of human natural killer (NK) cell function the inadequacy of commonly used methods of expressing lytic activity was apparent. A comparison was made of the data obtained using modifications of two equations—the simple exponential fit and the von Krogh equations. Both of these equations were found to satisfy the following essential criteria for use in these assays. First, the majority of the results obtained in the chromium-release assay could be used in data reduction; second, the resultant dose-response curve was reduced to linearity; and third, a single numerical expression was obtained which was directly proportional to the cytotoxic activity. Of the two methods the more conventional exponential fit was found to be the simpler to use. The closeness of fit of the experimentally derived data to the ideal curves did not support the possibility that normal lymphocyte preparations contain suppressor cells capable of inhibiting NK activity. Data have also been presented showing that NK-sensitive targets could be categorized with respect to their susceptibility by comparing the slopes of the target cell survival curves obtained using the exponential fit equation. These observations are relevant to the accurate assessment of NK activity in patient populations and to the determination of the effects of disease and its treatment on this activity.     

Selective cross-talk among natural cytotoxicity receptors in human natural killer cells

The cytolytic activity of human natural killer cells is induced by several triggering cell surface receptors upon interaction with specific cellular ligands. These receptors include NKp46, NKp30 and NKp44, collectively termed natural cytotoxicity receptors (NCR). Co-operation among NCR has been shown to occur for optimal recognition and killing of most tumor target cells. In this study, we show that the mAb-mediated engagement and clustering of one or another NCR results in the activation of an identical set of tyrosine kinases. These kinases are included in the signaling cascade leading to tyrosine phosphorylation of different receptor-associated signal transducing molecules i.e. CD3 zeta (associated with NKp46 and NKp30) and KARAP/DAP12 (associated with NKp44). In line with the notion that the engagement of inhibitory receptors prevents NCR-mediated responses, we show that the engagement of CD94/NKG2A virtually abrogates the tyrosine phosphorylation of the NCR-associated signaling molecules, i.e. it acts at the very early steps of the signaling cascade. Importantly, the engagement of a single NCR resulted in the activation of the signaling cascades associated with the other NCR. This "cross-talk" is confined to NKp46, NKp30 and NKp44 since neither CD16-nor KIR2DS4-associated signaling polypeptides were phosphorylated following the NCR engagement. These results suggest that a functional cross-talk specifically occurs among different NCR, possibly resulting in the amplification of the activating signals.     

Combinational IL-2/IL-15 induction does not further enhance IL-15-induced lymphokine-activated killer cell cytotoxicity against human leukemia/lymphoma cells

In vitro comparisons of induction of perforin (PFP), granzyme B (GRB), production of cytokines, and cell-mediated cytotoxicity by interleukin-2 (IL-2), interleukin-15 (IL-15), or combinational IL-2/IL-15-induced lymphokine-activated killer cells were studied in this study. Whereas IL-2-induction was associated with a decrease in cultured cell population over a 7-day period, IL-15 alone or in combination with IL-2 resulted in significant increase including cytotoxic T lymphocytes and subsets of CD56+ lymphocytes, particularly cytokine-induced killer and cytolytic natural killer-T lymphocytes. The overall PFP, GRB, and tumor necrosis factor-alpha expression in different subtypes were also significantly higher with IL-15 alone or in combination with IL-2 induction with resultant superior cytotoxicity compared to IL-2 treatment. There was no significant advantage of addition of IL-2 over IL-15 induction. These results offer further information on the cytotoxic potency of these cytokines and their mechanisms of action implicating potential use of IL-15 as part of cytokine adoptive immunotherapy.     

Ultrastructural characteristics of lymphokine-activated killer cells of the rat in comparison with natural killer cells

Lymphokine-activated killer (LAK) cells with a broad spectrum of tumor cell killing have been reported to be related to natural killer (NK) cells morphologically and phenotypically. We here examine the ultrastructural characteristics of LAK cells of the rat, comparing them to those of normal and OK-432-activated NK cells. Results show that, five days after the culturing of spleen lymphocytes with human recombinant interleukin-2, there were induced LAK cells, which were large granular lymphocytes and had a cytotoxic capacity against NK-resistant P-815 tumor cells. They were larger in size than NK cells and richer in cell organelles such as ribosomes, rough endoplasmic reticulum, a Golgi apparatus, granules and vesicles. The granules of LAK cells were shown to be related to multivesicular bodies as those of NK cells; they included multivesicular bodies, fully dense granules and intermediate forms between them. The average numbers and sizes of the granules and the proportion of multivesicular bodies and intermediate forms among the total granules were greater in LAK cells than in NK cells. The density of the small vesicles packed in multivesicular bodies and intermediate forms was much higher in LAK cells. At the contacting surface of the LAK cells bound to the target cells, exocytosis of multivesicular bodies was shown to occur. We recognized here two populations of LAK cells with different types of vesicles, one containing rod-cored vesicles and the other a new type of vesicles termed "demilune-cored vesicles". The latter vesicles were the same in size as the rod-cored ones and contained a dense core located eccentrically. Between these two populations of LAK cells, there was no difference concerning the profile of the dense granules. The present study indicates that, although LAK and NK cells share several ultrastructural features, the former show markedly enriched cell organelles, which indicate an accelerated metabolism of the cell for continuous proliferation.     

An immunopharmacological analysis of adrenaline-induced suppression of human natural killer cell cytotoxicity

The circulating catecholamine adrenaline effectively suppressed human natural killer cell cytotoxicity (NKCC) when added to mixtures of effector lymphocytes and 51Cr-labelled target cells in a 4-hour 51Cr release assay in vitro. The effect was mimicked by the beta 2-receptor agonist terbutaline but not by the beta 1-receptor agonist prenalterol or the alpha 1/alpha 2-receptor agonist clonidine. Adrenaline-induced NKCC suppression was completely and potently antagonized by the mixed beta 1/beta 2-receptor antagonist propranolol and the selective beta 2-receptor antagonist ICI 118,551 but not by the beta 1-selective antagonist metoprolol. By comparing the adrenaline sensitivity of high-density (HD) and low-density (LD) lymphocytes, fractionated by Percoll density gradient centrifugation, we found that HD cells appeared more sensitive to adrenaline-induced suppression than LD cells. In both types of effector cells, adrenaline significantly suppressed NKCC at a final concentration of 10(-11) M. Pretreatment of LD effector cells with IFN-alpha reduced the NKCC suppression by subsequent adrenaline treatment. Pretreatment with recombinant IL-2 virtually abolished the response to adrenaline. This effect was noted also when IL-2 and adrenaline were incubated simultaneously during the 4-hour 51Cr release assay. Our data suggest a role for adrenaline, via lymphocyte beta 2-receptor activation, in the regulation of natural killer cells.     

Cellular cytotoxicity against canine endothelial cells

A method is described which permits culture of both arterial and venous canine endothelial cells. Cell-mediated cytotoxicity against cultured endothelial cells has been studied. A 51Cr-release assay was used to detect CTL generated in MLC. Both arterial and venous endothelial cells are lysed by CTL specifically. Cold target inhibition experiments have been performed to analyse the CTL-recognized antigens on arterial and venous endothelial cells. Different antigens are recognized by CTL on venous endothelial cells and PHA-blasts; it is possible that CTL recognize venous endothelial cells through class II antigens or E-M antigens. Arterial endothelial cells and PHA-blasts share CTL-recognized antigens.     

Virus-infected colostral cell cytokine stimulation of human leukocyte natural killer cytotoxicity.

Natural killer cytotoxicity is an important antiviral defense mechanism. Human peripheral blood mononuclear cells cultured with herpes simplex virus (HSV)-infected cells produced a cytokine. This substance stimulated adult natural killer cytotoxicity from 53.0 +/- 10.5% to 79.8% (P less than 0.01) against HSV-infected target cells. These data resulted in a calculated cytokine-dependent cellular cytotoxicity (CDCC) value of 65.8%. Cytokine production was not stimulated by uninfected cells and was independent of the presence or absence of antibodies to HSV in sera of donors and mononuclear cells. Cells from human colostrum also produced an HSV-stimulated cytokine which mediated CDCC by using both adult (19.8 +/- 3.9%) and neonatal (18.6 +/- 3.4%) mononuclear effectors cells. Colostral cell cytokine production was also independent of donor HSV serology. Not all colostral cultures produced the cytokine, and in general colostrum-stimulated CDCC was lower than peripheral blood leukocyte-stimulated CDCC. Colostral cell cytokine stimulation of neonatal natural killer cytotoxicity may account in part for the increased nonspecific resistance of breast-fed infants to viral infection.     

Interleukin-2 can induce suppression of human natural killer cell cytotoxicity.

By interaction with monocytes, interleukin-2 (IL-2) suppressed natural killer (NK) cell cytotoxicity (NKCC) of human, Percoll-fractionated, low-density mononuclear cells. The NK-suppressive effect of IL-2 was independent of de novo formation of prostaglandins or protein since it was unaffected by treatment with indomethacin and cycloheximide, respectively. A monoclonal antibody to the p55 (beta) moiety of the IL-2 receptor (anti-Tac/anti-CD25) blocked IL-2-induced NKCC suppression but did not affect the NK-enhancing effect of the lymphokine. We conclude that IL-2 exerts a monocyte-dependent, IL-2 beta-receptor mediated suppressive influence on human NK cells.     

Synergistic activation of human natural killer cell cytotoxicity by histamine and interleukin-2

Interleukin-2 (IL-2) is recognized as a major activating signal for human natural killer (NK) cells. The presence of monocytes alters NK cell responsiveness to IL-2. Thus, while IL-2 effectively augments NK cell cytotoxicity (NKCC) in monocyte-depleted NK effector cells, it is relatively ineffective or even suppressive for NK cells in monocyte-containing, NK-cell-enriched mononuclear cell fractions. Here we report that concomitant treatment with IL-2 and the biogenic amine histamine synergistically augmented NKCC against K562 and Daudi target cells of CD3-/CD16+ human NK cells in the presence but not in the absence of monocytes. Addition of peripheral-blood monocytes, recovered by countercurrent centrifugal elutriation, to purified NK cells abrogated IL-2 induced NK cell activation, reconstituted the synergistic, NK-activating effects of histamine and IL-2, and strongly reduced baseline NKCC. The effects of histamine on baseline NKCC and on NK cell responsiveness to IL-2 were related to counteraction of monocyte-mediated NK cell suppression. By contrast, histamine did not affect baseline or IL-2-induced NKCC in mixtures of NK cells and monocytes when the latter cells were recovered after adherence. The effect of histamine on NK cell responsiveness to IL-2 was mediated by H2-type histamine receptors, as judged by mimicry exerted by the specific H2 receptor agonist dimaprit, but not by an H2-receptor-inactive derivative of this compound, N-methyldimaprit, and blocking by the H2 receptor antagonist ranitidine. Experiments in which monocytes and nonadherent NK cells were separately pretreated with ranitidine prior to histamine treatment suggested that NK-regulatory effects of histamine were mediated by H2 receptors on monocytes. Our data suggest that histamine may provide an important signal in the regulation of NK cell responsiveness to IL-2.     

Biological response modifier enhances the activity of natural killer cell against human cytomegalovirus-infected cells

Peripheral blood lymphocytes (PBL) from two human cytomegalovirus (CMV)-seronegative donors and eight CMV-seropositive donors were cultured for 3 days with or without the biological response modifier OK-432 and examined for lysis of K562 cells and CMV-infected MRC-5 cells. OK-432-stimulated PBL exhibited significantly greater natural killer (NK) activity than did unstimulated PBL. There was no difference in activity of NK cells in PBL prepared from CMV-seronegative and -seropositive donors. Antibody-complement depletion studies suggested that OK-432-stimulated NK activity was associated with Leu-7-positive cells. The ability of OK-432 to sustain the NK activity in PBL was decreased when the CD4-positive population of lymphocytes was eliminated by antibody-complement depletion prior to OK-432 stimulation. The ability of OK-432 to sustain the NK activity of PBL was also significantly decreased in the presence of monoclonal antibody against recombinant human interleukin-2. The results suggest that the activity of human NK cells against K562 and CMV-infected MRC-5 target cells can be sustained in vitro by OK-432-stimulated T-helper cells and that the effect of the T-helper cells is mediated, at least in part, by interleukin-2.     

Role of antibody-dependent cellular cytotoxicity and lymphokine-activated killer cells in AIDS and related diseases

This overview summarizes current knowledge on the overall efficacy and potential contribution of antibody-dependent cellular cytotoxicity (ADCC) and lymphokine-activated killer cell (LAK) activities in evoking non-major histocompatibility complex (non-MHC) cytolytic responses to human immunodeficiency virus-1 (HIV-1)-infected targets. High titers of ADCC antibodies to the HIV-1 virion are present in HIV-1-seropositive populations at all stages of disease. These antibodies are broadly reactive with a large number of HIV-1 strains and are predominantly directed against envelope determinants spanning both gp120 and gp41. However, the relative ability of natural killer (NK) effectors, derived from HIV-seropositive individuals, to evoke ADCC responses becomes increasingly impaired with disease progression. HIV-1-seropositive individuals also show marked decreases in both production of and responsiveness to interleukin-2 (IL-2). HIV-1-seropositive individuals generally have the ability to generate ex vivo propagated LAK cells; however, these cytolytic effectors are less effective than their counterparts derived from healthy controls. Increased understanding and control of non-MHC-restricted cytotoxic-responses to HIV, and their induction by lymphokines, may lead to improved treatment strategies for the management of AIDS and related diseases.