Divergent effects of thyroid HLA-antigens on T and natural killer (NK) cell cytotoxicity.

We have used non-autoimmune non-neoplastic human thyroid cells to explore the role of surface class I and DR antigens on these cells' sensitivity towards T and Natural Killer (NK) cell cytotoxicity. Non-treated thyrocytes expressed class I but no DR antigens. Following incubation with gamma-interferon (gamma-IFN) class I antigens were markedly elevated and DR expression was induced. Whereas non-treated thyrocytes were minimally lysed by sensitized T cells, they served as appropriate targets for NK cells. Following incubation with gamma-IFN, the thyroid cells became highly sensitive to T cell lysis, with no significant reduction in their vulnerability to NK cell killing. The addition of monoclonal anti class I or DR antigens, or brief acid treatment which specifically eliminates class I molecules, inhibited T cell cytotoxicity but enhanced the sensitivity to lysis by NK cells. Thus, the presence of HLA antigens on the same thyroid cells have an opposite effect on two major cytotoxi mechanisms. Our findings are relevant within the context of recent suggestions of intervening with target HLA antigens for the management of autoimmune and malignant diseases.     

Natural killer (NK) cell cytotoxicity in athymic (nude) rats

The in vitro and in vivo natural killer (NK) cell activity of congenitally athymic, nude (ATH) rats and of normal, euthymic (EUTH) rats was compared. We found: a) a higher level of in vitro NK cell activity in blood, spleen and lymph nodes of ATH rats compared with their heterozygous littermates, b) in the spleen the number of NK lytic units per organ was not higher in ATH compared with EUTH whereas it was significantly higher in lymph nodes, c) a lack of age-dependence of in vitro NK cell activity tested in culture with heat inactivated fetal calf serum, d) a higher rate of in vivo elimination of target tumor cells in 4-week ATH rats compared with EUTH rats, e) an age-dependent decrease in the rate of in vivo target cell elimination in both groups, and finally, f) an age-dependent increase in the inhibitory effect of autologous serum on NK cell activity in vitro in both groups. These findings show that the blood and lymphoid organs of athymic rats contain a substantially higher proportion of NK cells, active both in vitro and in vivo against K562 tumor cells, than their euthymic littermates. In the spleen this increased proportion can be attributed to the lack of T cells, whereas in the ATH rat lymph nodes there is an absolute increase in NK cell activity, and that the decrease of cytotoxicity in vivo with age reflects the increasing inhibitory properties of autologous serum both in nude and in normal rats.     

Studies of the mechanism of natural killer (NK) degranulation and cytotoxicity

Exocytosis of cytotoxic granule contents towards bound target cells is thought to be of central importance in natural killer (NK) cell-mediated killing. Although cellular cytotoxicity involving degranulation is thought to be calcium-dependent, the biochemical mechanisms that mediate this granule mobilization are unknown. Inositol-1,4,5-tris-phosphate (IP3), which acts to elevate internal calcium levels, and 1,2-diacylglycerol (DAG), which activates protein kinase C, are potent second messengers that have been shown to synergistically mediate secretion in other cell types. Production of these products of inositol phospholipid metabolism has previously been demonstrated in a rat NK cell line RNK upon exposure to susceptible tumor targets. We therefore investigated the role of IP3 and DAG in NK-mediated cytotoxicity, specifically at the level of degranulation. Pretreatment of RNK cells with neomycin, a drug that interferes with the hydrolysis of inositol phospholipids and thus inhibits the formation of second messengers, inhibited RNK cytotoxicity against a susceptible tumor target and also inhibited RNK production of DAG in response to a similar target. Natural killing exhibited by normal rat nylon wool-nonadherent splenocytes was also inhibited by neomycin. Phorbol-12-myristate, 13-acetate (PMA), a phorbol ester that acts like DAG to activate protein kinase C, markedly enhanced lysis of a susceptible target cell by RNK. We evaluated whether modulation of lysis by these drugs was associated with effects on RNK degranulation by assaying the release of a granule-specific serine esterase (BLTE) in response to PMA and the calcium ionophore A23187. These agents synergized to promote the release of BLTE, and the extent of release was dependent on the concentrations of both agents. D2O and cytochalasin B, which enhance secretion in other cells, both enhanced BLTE release from RNK cells, indicating that we were detecting BLTE released via granule secretion and not due to nonspecific causes such as cell lysis. Our findings lead us to propose that NK cells form IP3 and DAG in response to susceptible target cells and that a major function of these second messengers is to mediate the exocytosis of cytotoxic granules towards the bound target cells.     

Laminin inhibits the recognition of tumor target cells by murine natural killer (NK) and natural cytotoxic (NC) lymphocytes.

Tumor cells sensitive to lysis by murine natural killer (NK) or natural cytotoxic (NC) cells were shown to bind laminin. They bound 125I-labeled laminin in a time- and concentration-dependent manner, and binding of the radioactive laminin was inhibited by excess cold laminin. In the presence of laminin, cell-cell aggregation occurred. Murine tumor cells not sensitive to NK/NC-mediated killing bound much less laminin, and laminin did not induce aggregation of these cells. The addition of exogenous laminin to NK or NC cytotoxicity assays reduced target lysis in a dose-related manner. Reduction of lysis was due to an inability of NK/NC cells to bind to the targets. Target cells pretreated with laminin were reduced in their ability to cold-target compete for NK-mediated lysis of untreated target cells. These effects were unique to laminin. The control proteins (fibronectin and thyroglobulin) had no effect on NK activity. Finally, inhibition of cytolytic activity by laminin appeared to be specific for NK/NC cells. Laminin had no effect on cytolysis mediated by alloimmune cytotoxic T lymphocytes regardless of whether the targets did or did not bind laminin.     

Natural cytotoxicity in the guinea-pig: the natural killer (NK) cell activity of the Kurloff cell.

Natural killer (NK) cell activity was found in the various lymphoid compartments of the normal guinea-pig, prominent in the spleen and absent in the thymus. Oestrogen treatment, which increased the Kurloff cell population in blood, spleen and thymus, did not alter NK cell activity in blood and spleen but markedly augmented the lytic capacity of the thymus. Rosetting reactions and selective depletion studies in normal and oestrogen-treated animals revealed the NK cells to belong to a small population of E+ Kurloff cells, some of which were Fc+ and others apparently Fc-. Some of these natural killer cells in the spleen also had receptors for C3 and carried Ig (probably cytophilic). In the lymph nodes, however, the NK cells were found to be E+ lymphocytes, again some of which were Fc+ and others Fc-.     

Alterations of rat natural killer (NK) cell cytotoxicity and cytokine production by 3-methylcholanthrene (3-MC)

The carcinogen 3-methylcholanthrene (3-MC) was found to exert immunosuppressive effects both in vitro and in vivo in this study. Spleen cells from 8-week-old male, Sprague-Dawley (S-D) rats exposed to 1, 10 or 100 micrograms/ml 3-MC in vitro for 18 h exhibited a dose-dependent decrease in natural killer (NK) cell cytotoxicity against the YAC-1 tumor target cells in a 4 h 51Cr-release assay. Peritoneal macrophage production of prostaglandin E2 (PGE2) was significantly decreased at all three 3-MC concentrations following a 24 h exposure in vitro. No effect of 3-MC on splenic interleukin-2 (IL-2) production was observed. A separate group of rats was inoculated with a single subcutaneous dose of 5 or 10 mg 3-MC and cytotoxic activity of spleen NK cells was examined at 1, 2, 3, 7, 14, 21, 28, 60, 120 and 180 days after the 3-MC injection. Natural killer cell cytotoxicity was suppressed as early as 24 h after 3-MC injection and persisted up to 21 days. This decrease in NK activity was accompanied by a decreased production of splenic interferon and elevated production of PGE2 by peritoneal macrophages. Natural killer cell cytotoxicity was elevated in the 3-MC-treated rats at 28 and 60 days post-treatment. At 120 and 180 days post-3-MC treatment, when the rats were bearing palpable chemically-induced tumors, NK activity was again significantly depressed. In addition, 3-MC-induced tumors were surgically removed and cultured in vitro. Supernatants from these tumor cell lines were shown to markedly inhibit NK cytotoxicity when tested in vitro. Preliminary results indicate that this inhibition may be mediated by prostaglandins.     

Tetrabromobisphenol A decreases cell-surface proteins involved in human natural killer (NK) cell-dependent target cell lysis

Human natural killer (NK) lymphocytes are able to destroy tumor cells and virally-infected cells. Interference with their function can leave an individual with increased susceptibility to cancer development and/or viral infection. We have shown that the tumor-destroying (lytic) function of NK cells can be dramatically decreased by exposure to the environmental contaminant tetrabromobisphenol A (TBBPA). TBBPA is a flame retardant used in a variety of materials including circuit boards, carpeting, and upholstery and has been found in human blood samples. TBBPA interferes with NK cell lytic function, in part, by decreasing the ability of NK cells to bind to target cells. This study examines the effects of exposures to concentrations of TBBPA (i.e., that were able to decrease the binding capacity of NK cells) on the expression of cell-surface proteins (CD2, CD11a, CD16, CD18, and CD56) that are needed for NK cells to bind target cells. NK cells were exposed to TBBPA for 24?h, 48?h, and 6 days or for 1 h followed by 24 h, 48 h, and 6 days in TBBPA-free media. Twenty-four-hour exposures to 5 μM TBBPA caused decreases in four of the cell-surface proteins examined. CD16 was decreased by >35%. The decreases in cell-surface proteins after a 48-h exposure were similar to those seen after 24?h. The results indicate that TBBPA exposures that decrease the binding function of human NK cells do so by decreasing the expression of cell-surface proteins needed for attachment of NK cells to targets cells.     

Regulation of CR3 (CD11b/CD18)-dependent natural killer (NK) cell cytotoxicity by tumour target cell MHC class I molecules

Phagocyte and NK cell CR3 functions as both an adhesion molecule and an iC3b receptor mediating cytotoxic responses to microorganisms. Cytotoxic activation of iC3b receptor function requires ligation of both a CD11b I-domain site for iC3b and a lectin site located in the C-terminus of CD11b. Because tumours lack the CR3-binding polysaccharides of bacteria and fungi, iC3b-opsonized tumours do not stimulate CR3-dependent cytotoxicity. Previous studies showed that NK cells could be induced to kill iC3b-opsonized tumours with small soluble β-glucans that bound with high affinity to CR3, bypassing the absence of similar polysaccharides on tumour membranes. Because CR3 signalling requires several tyrosine phosphorylation events, it appeared possible that CR3-dependent killing of autologous tumour cells might be suppressed by NK cell inhibitory receptors for MHC class I (KIR and CD94/NKG2) whose action involves recruitment of SHP-1 and SHP-2 tyrosine phosphatases. In the current study, Epstein–Barr virus (EBV)-transformed B cells were used as targets following opsonization with iC3b. Soluble β-glucan primed CR3 for killing of iC3b-coated B cells, but autologous class I-bearing targets were 84% more resistant than class I-deficient Daudi cells. Blockade of target cell class I with a MoAb specific for a domain recognized by both KIR and CD94/NKG2 resulted in comparable killing of class I⁺ B cells. By contrast, another MoAb to class II had no effect on cytotoxicity. These data suggest that NK cell recognition of class I suppresses CR3/tyrosine kinase-dependent cytotoxicity in the same way as it suppresses cytotoxicity mediated by other tyrosine kinase-linked receptors such as FcγRIIIA (CD16).     

Natural killer (NK) cell subsets and NK cell cytotoxicity in women with histories of recurrent spontaneous abortions

PROBLEM: Natural Killer (NK) cell measurement and NK cytotoxicity are two measurements for assessing the cellular immune response. Both of the techniques have been reported to be prognostic for women with recurrent spontaneous abortion (RSA), We evaluated the two methods to determine the relationship of the two assays. Because both methods portend to evaluate the same process, the previous clinical data suggested that the methods evaluate the same phenomena. We undertook these studies to determine whether simple NK cell counts may be sufficient in the evaluation of NK activity in RSA. METHOD OF STUDY: The NK cell cytotoxicity at effector-to-target ratios of 50:1 and 25:1 was determined using a flow cytometric NK cell cytotoxicity assay. These values were then correlated with the percentages and absolute counts of three peripheral blood NK cell subsets. RESULTS: The data indicate that the flow cytometric assay is reproducible and precise and can be successfully used to evaluate patient samples. Linear regression analysis indicated a lack of correlation between peripheral blood NK cell cytotoxicity and percentages or absolute counts of ***CD56+CD16+, CD56+CD16 — or CD3+CD56+ lymphocyte subsets (range of correlation coefficients, 0.1–0.3). CONCLUSIONS: NK cell cytotoxicity and peripheral blood NK cell values measure different aspects of NK cells and do not correlate. These data indicate that simple enumeration of NK cells may not be sufficient in the evaluation of NK cells in RSA.     

Regulation in vitro of human natural killer (NK) cell activity

The natural killer cell activity of PBL from epidemic polyarthritis patients was depressed early after onset of symptoms but returned to normal as the patient recovered. This study found that the in vitro culture of Ross River virus, the agent responsible for epidemic polyarthritis, with PBL resulted inenhanced rather than depressed NK cell activity. Evidence was also obtained that NK cell activity could be suppressed by suppressor-T lymphocytes generated by culture of PBL with high concentrations of Concanavalin A. This suppressive activity was not due to release of a soluble mediator(s) by the suppressor T cells.     

Surface Ly-5 Glycoprotein in Murine Natural Killer (NK) Cell Development,Target Binding and Cytotoxicity

The role of surface Ly-5 glycoprotein expression in the binding and lysis of susceptible tumor targets by natural killer cells was studied using NK cell-enriched splenocytes from 6–8 week old C57BL/6 mice which were reacted with anti-Ly-5 serum in the presence or absence of a source of complement. A conjugate assay was used to demonstrate that abrogation of tumor cell lysis by anti-Ly-5 serum involved the inhibition of NK cell binding to susceptible YAC-1 targets. Additionally, reconstituted membrane vesicles from NK cell-enriched splenocyte populations blocked binding of effector cells to YAC-1 lymphoma targets, a phenomenon which was abrogated by pretreatment of vesicles with anti-Ly-5 serum. Indirect immunofluorescent labeling and cell sorting were used in the physical separation of Ly-5⁺ and Ly-5^? cells to examine the effect of interferon and interleukin preparations on Ly-5 expression and NK activity. Three hour treatment of sorted Ly-5^? cells with murine α + β interferon resulted in conversion of 22% of the cells to an Ly-5⁺ phenotype, as well as a significant increase in the percent specific lysis of NK-susceptible YAC-1 targets when compared to freshly sorted Ly-5^? cells (29.5 ± 1.9 vs 2.6 ± 4.0; p < .001). In vitro proliferation of sorted Ly-5^? cells was induced by three week culture in an interferon- and interleukin-containing supernatant from ConA stimulated BALB/c splenocytes (CM), followed by repeat analysis of Ly-5 expression and cytotoxic activity. Cell sorter purified Ly-5^? cells cultured in CM acquired substantial surface Ly-5 with concomitant high levels of cytotoxic activity that remained partially susceptible to inhibition by anti-Ly-5 serum. The data presented suggest that surface Ly-5 glycoprotein expression is important for binding of freshly isolated NK cells to YAC-1 targets. In addition, Ly-5^? precursors of NK cells are present in murine splenic tissues and can be induced by CM to become highly active effector cells with increased surface Ly-5 expression. The persistent susceptibility of a subset of these cells to inhibition of cytotoxic activity by anti-Ly-5 serum provides additional evidence of an important role for the Ly-5 glycoprotein in the natural killer cell cytolytic mechanism against certain targets.     

CD56bright natural killer (NK) cells: an important NK cell subset

Human natural killer (NK) cells can be subdivided into different populations based on the relative expression of the surface markers CD16 and CD56. The two major subsets are CD56^bright CD16^dim/− and CD56^dim CD16⁺, respectively. In this review, we will focus on the CD56^bright NK cell subset. These cells are numerically in the minority in peripheral blood but constitute the majority of NK cells in secondary lymphoid tissues. They are abundant cytokine producers but are only weakly cytotoxic before activation. Recent data suggest that under certain conditions, they have immunoregulatory properties, and that they are probably immediate precursors of CD56^dim NK cells. CD56^bright NK cell percentages are expanded or reduced in a certain number of diseases, but the significance of these variations is not yet clear.     

Characterization of natural killer (NK) cells and killer (K) cells in human blood: discrimination between NK and K cell activities.

Cell suspensions enriched and depleted for rosette-forming cells with sheep red blood cells (E-RFC) and depleted for RFC with antibody complexes were prepared. The isolated fractions were characterized by cell surface marker analysis and tested for their natural killer (NK) and killer (K) cell activity against K-562 cells and IgG-coated P-815 cells, growing in suspension, and against a number of monolayer tumor cell lines. It was found that the NK cells most likely belong to the T cell lymphocyte subpopulation. Furthermore, this study indicates that several subpopulations exist, e.g. NK cells that have no IgG Fc receptor (FcR) on their surface and NK cells that bear IgG FcR, indicating that for a proportion of NK cells the IgG FcR is not involved in the NK lytic process and hence antibody-independent. Moreover, monocytes and B lymphocytes appear not to be directly involved in the NK cell lytic process. Furthermore, cell separation procedures were used to obtain cell suspensions either bearing IgG FcR or lacking IgG FcR. Cells bearing IgG FcR were isolated in such a way that they lost their IgG FcR by shedding, as a result of the separation procedure. Again, all fractions were simultaneously characterized by cell surface marker analysis and tested for their NK and K cell lytic activity. The effect of immune complexes on the NK and K cell lytic activities was investigated. The data indicate that the IgG FcR is not involved in the NK lytic mechanism, although this receptor may be present on the NK cell. Moreover, prolonged culturing of lymphocytes increases and/or induces NK cell lytic activity.     

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.     

Vav-1 regulates NK T cell development and NK cell cytotoxicity

The hematopoietic-specific Rho-family GTP exchange factor Vav-1 is a regulator of lymphocyte antigen receptor signaling and mediates normal maturation and activation of B and T cells.Recent findings suggest that Vav-1 also forms part of signaling pathways required for natural and antibody dependent cellular cytotoxicity (ADCC) of human NK cells. In this study, we show that Vav-1 is also expressed in murine NK cells. Vav-1(-/-) mice had normal numbers of splenic NK cells, and these displayed a similar expression profile of NK cell receptors as wild-type mice. Unexpectedly, IL-2-activated Vav-1(-/-) NK cells retained normal ADCC. Fc-receptor mediated activation of ERK, JNK, and p38 was also normal. In contrast, Vav-1(-/-) NK cells exhibited reduced natural cytotoxicity against EL4, C4.4.25, RMA and RMA/S. Together, the results demonstrate that Vav-1 is dispensable for mainstream NK cell development, but is required for NK natural cytotoxicity. Unlike the findings for NK cells, NK T cells were dramatically diminished in Vav-1(-/-) mice and splenocytes from Vav-1 mutant mice failed to produce IL-4 in response to in vivo CD3 stimulation. These data highlight the important role of Vav-1 in NK T cell development and NK cell function.     

Self-tolerance, dendritic cell (DC)-mediated activation and tissue distribution of natural killer (NK) cells

Natural killer (NK) cells are lymphocytes of the innate immune system that exert a potent function against infected and tumor cells. Although NK cells were originally defined by their capacity to lyse target cells and produce interferon (IFN)-gamma without prior activation, more recent studies found that NK cells display also a potent regulatory function. Following engagement of surface receptors by other cells or signalling by soluble molecules, NK cells release cytokines able to influence the outcome of an immune response. Since their discovery in the 1970s, the biology of NK cells has been deeply investigated; nevertheless some aspects of their maturation process, activation mechanisms, and tissue distribution remain still obscure. These review will focus on three major issues regarding NK cell regulation. In particular we aim to discuss: (i) how NK cells become tolerant to self-tissues during their maturation; (ii) how NK cells become activated, with a particular attention to dendritic cell (DC)-mediated mechanisms of NK cell priming; (iii) where NK cells play their functions and how NK cell tissue distribution can favour their capacity to skew T cell responses.     

Target-effector interaction in the natural killer (NK) cell system. VI. The influence of age and genotype on NK binding characteristics.

Four independent assays were used to compare target-cell binding by NK cells in different populations. First, detergent solubilized and reduced proteins from the surface of Moloney lymphoma cells (YAC) were electrophoresed in SDS-polyacrylamide gels. The glycoproteins recognized by NK cells (NK-TS) were eluted from the gels and used in semi-quantitative absorption studies or were used to inhibit the formation of target-effector conjugates as an estimate of relative avidity. These findings were supported by a comparative analysis of cold target competition curves and saturation studies in which 51Cr-labelled target cells were carefully titrated. The results suggest that NK cells 'mature' during ontogeny to higher avidity binding whereas the decline in NK function during senescence can solely be attributed to a decrease in population size. A comparison of high (CBA) and low (A/Sn) NK reactive strains revealed that in low responder (i) absolute NK frequency was decreased, (ii) relative NK-TS absorption per NK cells was low, and (iii) relative avidity of NK cells was identical to that in the high responder strain. These results suggest that the putative NK receptor to YAC may be of restricted heterogeneity.     

The role of natural killer (NK) and NK T cells in the loss of tolerance in murine primary biliary cirrhosis

One of the major obstacles in dissecting the mechanism of pathology in human primary biliary cirrhosis (PBC) has been the absence of animal models. Our laboratory has focused on a model in which mice, following immunization with a xenobiotic chemical mimic of the immunodominant autoepitope of the E2 component of pyruvate dehydrogenase complex (PDC-E2), develop autoimmune cholangitis. In particular, following immunization with 2-octynoic acid (a synthetic chemical mimic of lipoic acid-lysine located within the inner domain of PDC-E2) coupled to bovine serum albumin (BSA), several strains of mice develop typical anti-mitochondrial autoantibodies and portal inflammation. The role of innate immune effector cells, such as natural killer (NK) cells and that NK T cells, was studied in this model based on the hypothesis that early events during immunization play an important role in the breakdown of tolerance. We report herein that, following in-vivo depletion of NK and NK T cells, there is a marked suppression of anti-mitochondrial autoantibodies and cytokine production from autoreactive T cells. However, there was no change in the clinical pathology of portal inflammation compared to controls. These data support the hypothesis that there are probably multiple steps in the natural history of PBC, including a role of NK and NK T cells in initiating the breakdown of tolerance. However, the data suggest that adaptive autoimmune effector mechanisms are required for the progression of clinical disease.