Natural cytotoxic cells against solid tumors in mice: blocking of cytotoxicity by D-mannose

Sweet regulation - The emerging immunoregulatory roles of hexoses

BACKGROUND

It is widely acknowledged that dietary habits have profound impacts on human health and diseases. As the most important sweeteners and energy sources in human diets, hexoses take part in a broad range of physiopathological processes. In recent years, emerging evidence has uncovered the crucial roles of hexoses, such as glucose, fructose, mannose, and galactose, in controlling the differentiation or function of immune cells.

AIM OF REVIEW

Herein, we reviewed the latest research progresses in the hexose-mediated modulation of immune responses, provided in-depth analyses of the underlying mechanisms, and discussed the unresolved issues in this field.

KEY SCIENTIFIC CONCEPTS OF REVIEW

Owing to their immunoregulatory effects, hexoses affect the onset and progression of various types of immune disorders, including inflammatory diseases, autoimmune diseases, and tumor immune evasion. Thus, targeting hexose metabolism is becoming a promising strategy for reversing immune abnormalities in diseases.

D-mannose-Coating of Maghemite Nanoparticles Improved Labeling of Neural Stem Cells and Allowed Their Visualization by ex vivo MRI after Transplantation in the Mouse Brain

Magnetic resonance imaging (MRI) of superparamagnetic iron oxide-labeled cells can be used as a non-invasive technique to track stem cells after transplantation. The aim of this study was to (1) evaluate labeling efficiency of D-mannose-coated maghemite nanoparticles (D-mannose(γ-Fe2O3)) in neural stem cells (NSCs) in comparison to the uncoated nanoparticles, (2) assess nanoparticle utilization as MRI contrast agent to visualize NSCs transplanted into the mouse brain, and (3) test nanoparticle biocompatibility. D-mannose(γ-Fe2O3) labeled the NSCs better than the uncoated nanoparticles. The labeled cells were visualized by ex vivo MRI and their localization subsequently confirmed on histological sections. Although the progenitor properties and differentiation of the NSCs were not affected by labeling, subtle effects on stem cells could be detected depending on dose increase, including changes in cell proliferation, viability, and neurosphere diameter. D-mannose coating of maghemite nanoparticles improved NSC labeling and allowed for NSC tracking by ex vivo MRI in the mouse brain, but further analysis of the eventual side effects might be necessary before translation to the clinic.

Liver injury due to sequential activation of natural killer cells and natural killer T cells by carrageenan

BACKGROUND/AIMS

Carrageenan is a high molecular weight polysaccharide and is widely used as a food additive for the solidification of plant oils and the thickening of many beverages. It is known that acute toxicity of carrageenan is possibly induced by the activation of phagocytic cells. We investigated other effects of carrageenan on lymphocytes in this study.

METHODS

Carrageenan was intraperitoneally injected once into mice and phenotypic and functional characterizations were conducted in various immune organs.

RESULTS

Natural killer (NK) cells were prominently activated in the liver, lungs, and spleen. A time-kinetic study showed sequential activation of NK and natural killer T (NKT) cells in the liver on days 3-10 after the injection. In parallel with the activation of NK and NKT cells in number, NK and NKT cytotoxicities were augmented. At this time, liver injury was induced, accompanied by massive hepatic necrosis and the elevation of transaminases. The in vivo elimination of NK cells reduced the liver injury induced by carrageenan. Direct binding of carrageenan onto NK cells was also demonstrated. Such a binding then induced a subsequent production of IFN gamma. Perforin molecules of NK cells were responsible for this liver injury.

CONCLUSIONS

These results suggest that not only phagocytic cells but also primitive lymphocyte (mainly NK cells) subsets might be important targets for the acute toxicity of carrageenan.

The effects of carcinogenic methylcholanthrene on carbohydrate residues of NK cells

The present study examines the effect of methylcholanthrene (MCA), a a carcinogenic polycyclic hydrocarbon, on the carbohydrate receptor determinants (RD) on natural killer (NK) cell surface using the bead-coupled lectin assay. Murine NK cells exhibited different degrees of preferential binding to the specific lectins tested. Of the ten lectins tested, five exhibited a positive binding affinity while the remaining five exhibited no or insignificant binding. NK cells bind to beads derivatized with mannose specific lectins: Concanavalin A (Con A), Lens culinaris, and Pisum sativum. NK cells also bind to other lectin beads such as Triticum vulgaris (GalNac) and Vicia villosa (D-GlcNAc). All these lectin beads exhibited greater than 90% adhesion. The underivatized control beads exhibited no NK binding. The NK cells that were exposed to MCA for 2 h demonstrated a significant decrease in lectin bead-cell coupling in a dose dependent manner. MCA (10 micrograms/mL) caused a 17.8%, 40% and 4.7% decrease in binding affinity when introduced to the mannose specific lectins; Con A, L. culinaris and P. sativum beads, respectively. The binding of T. vulgaris and V. villosa to NK cells was inhibited (23.4% and 28%) by MCA treatment. An increase in the dose to 20 micrograms/mL resulted in a greater inhibition in binding affinity towards lectin beads. Con A, 35.3%, L. culinaris, 62.6%, P. sativum, 30.9%, T. vulgaris, 44.2% and V. villosa, 46.2%. The effect of MCA activation and cytotoxic response. Hydrolysis of PI metabolites (PIP and PIP2) cause generation of secondary messenger: inositol-1,4,5-triphosphate and diacylglycerol, both of which elicit an immune response through their products (Ca2+ and PKC) respectively. Identification of the relationship between receptor level, induction of second messenger and cytotoxic activity may resolve the molecular basis of suppression of NK cytotoxicity by MCA and other PAH compounds.

Guinea pig Kurloff (NK-like) cells mediate TNF-dependent cytotoxic activity: analogy with NC effector cells

Kurloff cells are mononuclear cells possessing a large cytoplasmic inclusion body specific to the guinea pig. In this report, we present strong evidence that Kurloff cells can mediate NC activity against tumor cells in addition to their previously reported NK activity. Using an 18 h 51Cr-release assay we have shown that Kurloff cells were highly effective in killing the TNF-sensitive WEHI 164 target cell line. Lower but significant cytotoxic activity was also observed after only 4 h. However, our results suggest a different mechanism of lysis in the 4 h and 18 h assay. Lysis of WEHI 164 target cells by Kurloff cells in the 4 h assay could be strongly increased in the presence of TPA alone or in combination with ionomycin whereas ionomycin alone was uneffective. In contrast, stimulation of Kurloff cells for 18 h with ionomycin alone or in combination with TPA could induce the release of TNF-like factor(s) as observed by the TNF bioassay using L-929 TNF-sensitive target cells. Release of TNF-like factor(s) could also be induced by stimulation with WEHI 164 target cells. Supernatants of Kurloff cells stimulated for 18 h with TPA + ionomycin were also highly cytotoxic against WEHI 164 target cells, but not against the TNF-resistant P815 target cell line. Pretreatment of these supernatants with antimurine TNF alpha antibodies could almost completely inhibit their cytotoxic activity against WEHI 164 target cells. In contrast, supernatants of Kurloff cells stimulated for only 4 h did not show any TNF-like activity against the L-929 target cell line and were not cytotoxic against WEHI 164 target cells even after 18 h. Taken together, these results suggest that Kurloff cells can mediate NC activity against tumor cells in addition to their previously reported NK activity. By using multiple lytic pathways, these cells may play a crucial role in anti-tumor surveillance and defenses.

The presence of concanavalin-A(Con-A)-like molecules on natural-killer (NK)-sensitive target cells: their possible role in swainsonine-augmented human NK cytotoxicity

In the present study we examined the expression of concanavalin-A(Con-A)-like molecules on natural-killer (NK)-sensitive target cells and investigated their possible role in the human NK-cell phenomenon. The incubation of either peripheral-blood lymphocytes (PBL) or large granular lymphocytes (LGL) with swainsonine (SW), an inhibitor of mannosidase II, resulted in the augmentation of cytotoxicity against K562 leukemia cells. The enhanced cytotoxicity was associated with increased binding of fluorescein isothiocyanate-conjugated Con-A to SW-treated effector cells, and immunofluorescence staining of the target K562 cells using goat anti-Con-A antibody (Ab) showed a significant positive shift in the flow cytometric pattern. Electrophoretic separation and immunoblotting analysis revealed that 4 components with a molecular weight of approximately 95, 80, 60 and 50 kDa were recognized by anti-Con-A Ab from the detergent-extract of K562 cells. The addition of Con-A during the antibody incubation step of the Western blotting abolished their expression, thus excluding non-specific binding of the antibody. The addition of Con-A also strongly inhibited the cytotoxicity of SW-treated effector cells (PBL or LGL) against K562 cells, and this inhibition was abolished by 40 mM alpha-methyl-mannopyranoside (alpha-MM), which binds to Con-A. Furthermore, Con-A increased the binding frequency of SW-treated LGL to K562, in spite of the inhibited cytotoxicity, and this effect could be neutralized by the further addition of alpha-MM. Our results suggest that Con A-like molecules might play an important role in cell-cell interactions between SW-treated effector cells and NK target cells.

Dependence of mouse thymocyte-erythrocyte rosette formation on complete identity at class-I-MHC

Mouse thymocytes and erythrocytes form rosettes when incubated together at 4 degrees C. The frequency is much higher when the thymocytes and erythrocytes are MHC-identical. If the indolizidine alkaloid swainsonine (SW) is present during rosette formation at concentrations of 1 microgram/ml (5.7 microM) or greater, rosette formation between MHC-identical pairs is inhibited to levels comparable to those observed for MHC-different pairs; rosette formation by MHC-different pairs is not affected. This was confirmed by examining 17 different MHC-identical combinations (9 completely syngeneic and 8 differing in non-MHC genes) and 13 MHC-different combinations (3 of these identical everywhere except at MHC). A SW-inhibitable component of rosette formation was observed only when thymocyte and erythrocyte were completely identical at MHC. Thus F1-parent pairs behaved as if allogeneic, although both F1-F1 and parent-parent had a SW-inhibitable rosetting component. Similarly, inbred strains only partially MHC-identical (B10.BR-B10.A, B10.D2-B10.A) behaved as if allogeneic. The SW-inhibitable component of rosetting could be partially but significantly blocked by including monoclonal antibodies against Thy-1, and anti-CD4 plus anti-CD8 (together but not separately); anti-class-I-MHC produced some inhibition of marginal significance. Monoclonal antibodies against class-I-MHC, LFA-1, and CD3 did not block. Pretreatment of erythrocytes with neuraminidase, greatly reduced the SW-inhibitable component of rosetting. The SW effect would appear to be due to a direct interaction of SW with a cell surface structure involved in syngeneic rosette formation rather than the known ability of SW to block the processing of N-linked sugar structures. The results are consistent with cell surface lectins and cell surface sugars playing a role in rosette formation.

A lectin-binding soluble factor released by CD8+CD57+ lymphocytes from AIDS patients inhibits T cell cytotoxicity

CD8+CD57+ T cells, expanded in peripheral blood lymphocytes of AIDS patients, inhibit the effector phase of HLA-specific cytotoxic T lymphocytes, natural killer and lymphocyte-activated killer cells in a 4-h chromium-release assay. This inhibitory activity present in supernatants of purified sorted CD8+CD57+ cells is mediated by a non-antigen-specific inhibitory factor which is distinct from prostaglandin E2, T cell growth factor (TGF)-beta, latent-TGF-beta, tumor necrosis factor (TNF)-alpha and TNF-beta. Partial biochemical characterization demonstrates that the CD8+CD57+ inhibitory activity (a) is heat, trypsin and acid resistant, (b) binds to concanavalin A columns, indicating its glycosylation state and (c) is mediated by a 20-30-kDa soluble molecule.

Recognition of N-glycosidic carbohydrates on esophageal carcinoma cells by macrophage cell line THP-1

Cell-to-cell contact between macrophages and tumor cells is an important initial reaction in a host defense mechanism against tumor cells. The authors have studied cell surface components of human esophageal carcinoma cells recognized by macrophages. Superoxide release from THP-1 cells, a human macrophage cell line, was analyzed in their interaction with a battery of human squamous cell carcinoma cell lines (TE) originated from esophageal cancer patients. The macrophage-triggering ability of TE 1 cell line, a high stimulant, was reduced after treatment with trypsin or tunicamycin, an inhibitor of N-glycosidic glycosylation. Addition of monosaccharides was efficient in competitive inhibition of these cellular interaction. Moreover, con-A-resistant mutation of TE 1 cells was found to reduce their macrophage-triggering ability, associated with increase of L-PHA-binding capacity, suggesting substitution to the GlcNAc beta(1----6)-linked lactosamine antenna in N-glycosidic carbohydrates. These findings suggest that terminal residues of N-glycosidic carbohydrates on some esophageal carcinoma cells may contribute to the recognition sites of macrophages.

Reduced expression of mannose-specific receptors on murine peripheral blood polymorphonuclear leukocytes following prolonged anaesthesia with different inhalation agents

Inhalation anaesthetic agents are known to depress phagocytic functions such as mobilization, attachment, chemotactic motility, engulfment and intracellular killing. Mannose-specific sugar receptors on the surface of leukocytes are involved in a series of phagocytosis-related activities. To investigate the effect of anaesthesia on the expression of this type of sugar receptor, mice were anaesthetized with halothane, enflurane and isoflurane. The presence of mannose-binding receptors on peripheral blood polymorphonuclear leukocytes was examined glycocytochemically using the biotinylated neoglycoprotein mannosylated bovine serum albumin. Prolonged administration of inhalation anaesthetic agents, especially halothane, markedly depressed expression of mannose-specific receptors. This reduction may possibly contribute to postoperative immunodepression, resulting from the impaired cellular interaction which is involved in the phagocytic function of granulocytes.

Swainsonine: a new antineoplastic immunomodulator

Swainsonine, an indolizidine alkaloid with immunomodulatory activity, has been found to be effective in inhibiting metastatic dissemination and growth of primary tumors of both murine and human origins. The unique ability of swainsonine to exhibit antimetastatic, anti-proliferative, and immunomodulatory activity imparts this drug a promising future in cancer therapy.

Liver sinusoidal blood containing natural killer-like cells

Rat liver sinusoidal washout cells were examined. These cells, which are marginated in sinusoids, could be washed out by simple flushing of the vasculature with culture media without enzymes and under physiological portal pressure. They revealed, in comparison to peripheral blood mononuclear cells, high cytotoxic activity commonly attributed to the natural killer (NK) and natural cytotoxic (NC) cells, and were found to be anti-asialo-GM1-negative. Liver sinusoidal cytotoxic cell (LSCC) activity has been found to be associated with the large granular lymphocytes in low-density cells in OX8-positive as well as in OX8-negative populations. The mononuclear cells washed out from the liver microvasculature could be stimulated with NK-sensitive targets to release soluble factors which selectively lyse YAC-1 tumour cells and inhibit growth of normal haematopoietic granulocyte-macrophage colony-forming cells in vitro. The cytotoxic cell population in the liver turned out to be blood-borne in origin and not resident. Our findings suggest that liver sinusoidal cytotoxic cells represent an NK population with a predilection for marginating in the liver and may be important in eliminating tumour or virus infected cells passing through the liver from the circulation. The mechanism of their accumulation in liver sinusoids remains unclear.

Candida cell wall mannan: a polysaccharide with diverse immunologic properties

It is clear that mannan has the potential to influence multiple biologic functions in vivo and in vitro, including both mannan-specific and mannan-nonspecific activities. Based on in vitro studies, various mechanisms have been proposed for the regulatory activities observed, ranging from interference with normal PMNL and monocyte function to the induction of T suppressor cells. It may well be, in fact, that different mechanisms function at different levels depending upon the specific phenomenon being influenced. Approaches to determining the mechanisms involved in these regulatory phenomena, however, have been complicated by the fact that many studies were performed with mannan extracted in the laboratory by traditional methods and used as such without further purification. Most laboratory-acquired mannans appear to be heterogeneous mixtures containing polymers of differing size and charge. When such mixtures have been separated on the basis of size or charge, it has been shown that biologic function can be correlated with individual fractions, and that a single bulk preparation of mannan can contain components with opposing biologic activities. Resolution of the specific mechanisms involved in the regulatory phenomena described, therefore, will not be complete until homogeneous preparations of mannan are employed to investigate the mechanisms.

Increased susceptibility of periodate-treated tumour cells to human but not to mouse or rat natural killer cells

Treatment of intact cells in the cold with low concentrations (1 mM) of sodium meta periodate (PI) selectively oxidizes the surface-exposed sialic acid residues to the corresponding aldehydes. Such treated tumour cells show greatly enhanced sensitivity to lysis by fresh human NK cells but not to mouse or rat NK cells. Reduction of the PI-treated cells with sodium borohydride (NaBH4) reduced their NK sensitivity to that of untreated cells. In target conjugate formation assays PI-treated tumour cells displayed a higher binding capacity than control cells or PI+NaBH4-treated cells to both mouse and human effector cells. Neuraminidase treatment of K562 and Molt-4 increased target susceptibility to human NK cells but not to mouse, whereas the susceptibility of Yac-1 cells was left unchanged using both human and mouse effector cells. The same pattern of reactivity is shown in the target binding assay. These findings indicate that subtle molecular changes in the surface-exposed carbohydrates of target cells might have a fundamental impact on their sensitivity to lysis by NK cells from certain species, and that in cross species effector-target combinations a higher binding capacity is not sufficient for increased lysis to occur.

Changes in glycoprotein fucosylation in a concanavalin A-resistant variant of a human leukemia cell line (K562)

Previous studies from this and other laboratories have shown that variants of tumor cell lines can be selected for resistance to the lytic action of natural killer (NK) cells. One of these (K562-Clone I), when made resistant to the toxic effects of Concanavalin A (Con A-R1), regained its sensitivity to NK. Comparing the plasma membranes of Clone I and Con A-R1, we observed 1) a very similar electrophoretic pattern of membrane glycoproteins identified by binding to the lectins Con A, WGA, PNA, and SBA; 2) an increase in binding of Ulex europaeus lectin to a group of glycoproteins from Con A-R1 that were sensitive to treatment with fucosidase and N-glycanase and that had a diffuse mobility ranging in apparent molecular weight from 30 to 200 kDa; and 3) a marked decrease in binding of an antibody reactive with the lactoneofucopentaose III antigen (Lewis x). This constellation of changes is an unusual pattern to follow Con A resistance and may point to a pathway of glycosylation that a leukemic cell might use to modify its recognition by the NK mechanism.

Tumorigenic human squamous lung cancer cells have defined cell surface carbohydrates that are absent from nontumorigenic cells

Cells of cloned lines derived from human squamous lung carcinomas spontaneously become heterogeneous with respect to several tumor-associated cell surface carbohydrates such as the sialosyl-Lea oligosaccharide antigen or the recently described oligosaccharide recognized by monoclonal antibody 43-9F. Subclones derived from these cultures are initially homogeneous with respect to the presence or absence of a specific cell surface carbohydrate but gradually revert back to a heterogeneous population. Cells of homogeneous subclones having both the sialosyl-LEa and 43-9F cell surface antigens and other subclones lacking them were injected subcutaneously in nude mice. All clones expressing these tumor-associated cell surface carbohydrates were found to be highly tumorigenic, whereas those lacking them were nontumorigenic or, at most, weakly tumorigenic. Clones having the tumor-associated cell surface carbohydrates were more resistant to cytotoxic attack by purified mouse natural killer cells than those clones lacking these carbohydrates, suggesting that the tumorigenicity of the former clones may be influenced by immunoprotective effects of these novel carbohydrates.

Suppression of cytolytic T-lymphocyte responses through inactivation of non-T accessory cells

The suppressive properties of nonspecific cytotoxic T lymphocyte (CTL) populations, derived from murine fetal calf serum (FCS)-precultured cells expanded in interleukin 2 (operationally defined as FCS-CM-expanded cells), were investigated on CTL responses generated by syngeneic alloreactive lymphoid cells. Our results suggest that the addition of FCS-CM-expanded cell populations can inhibit the CTL response by elimination of the bone marrow-derived macrophage (BM M phi) population used as non-T accessory cells. Indeed, in the culture conditions used, removal of IL-2 by the FCS-CM-expanded cells as well as a direct inactivating effect on the CTL precursors (CTL-P) could be excluded as a reason for inhibition. On the other hand, we were able to show that the BM M phi population was very sensitive to the cytolytic activity exhibited by the inhibiting cells in a 3 h 51Cr-release assay and that the suppressor effect observed could be partially circumvented by a second addition of BM M phi on the second day after the initiation of the culture.

Carbohydrate interference of complement-dependent cell lysis

The antibody-mediated cytotoxicity of three autoreactive sera, an allogeneic hyperimmune serum and a xenogeneic hyperimmune serum was abrogated by the presence of either glucosamine, galactosamine, lactulose or lactose. This inhibition could be overcome in a dose-dependent fashion by increasing the amount of complement in the cytotoxicity assay, but not by increasing the amount of antibody. Furthermore, the inhibition was specific for these sugars in that isomers and N-acetylated derivatives were not inhibitory. The results suggest that these sugars directly blocked events of the complement cascade.

The effect of tunicamycin on target cell susceptibility to natural killer cell cytotoxicity

Several sets of data indicate the possibility that carbohydrate moieties on the target cell are important structures in natural killer (NK) cell-mediated lysis. Striking changes in the NK susceptibility of targets can be induced in several systems involving in vitro differentiation of tumour cell lines. The effect on target cells of the glycosylation inhibitor tunicamycin, which acts by blocking the dolichol-dependent asparagine-linked glycosylation pathway was investigated. Using several different tumour cell lines we can conclude that: asparagine-linked carbohydrate chains do not contribute directly to NK susceptibility, induced differentiation may or may not be linked with a change in NK susceptibility, and secondary changes caused by tunicamycin treatment may lead to alterations in the gangliosides, a finding that is positively correlated with decreased NK susceptibility.

Specific inhibition of human natural killer cell-mediated cytotoxicity by sialic acid and sialo-oligosaccharides

We have tried to identify carbohydrate structures involved in recognition and/or lysis of K562 target cells by human natural killer (NK) cells. Inhibition studies were performed with mono-, di- and trisaccharides, and with glycopeptides and glycoproteins of known carbohydrate composition. When tested with various monosaccharides, lysis of K562 cells was inhibited only by N-acetylneuraminic acid (NeuAc). Di- and trisaccharides and glycopeptides containing NeuAc or N-glycolylneuraminic acid (NeuGc) all inhibited NK cell-mediated lysis. Among the non-sialylated carbohydrates tested, only Gal beta(1----3)GalNAcol was effective. The inhibitory capacity of sialylated compounds appeared to be dependent on the linkage type of the sialic acid residue; carbohydrates containing alpha(2----6)-linked sialic acids were more potent inhibitors than their alpha(2----3) isomers. Also the sugar to which the sialic acid residue was attached was of importance, NeuAc alpha(2----6)GalNAcol being more effective than NeuAc alpha(2----6)Gal beta 1----R (where R = glucose or oligosaccharide-peptide). Sialylated compounds and free sialic acid had minor or no effects on cell-mediated cytotoxicity by allo-sensitized cytotoxic T lymphocytes. The conjugation of target cells and NK effector cells was not inhibited by carbohydrates that effectively blocked the cytolytic response. These results may indicate that cell-surface carbohydrates containing alpha(2----6)-linked sialic acid are crucial structures in a post-binding event in NK-cell-mediated lysis.

Transferrin receptors on tumor and bone marrow cells: lack of involvement as target structure for natural killer cells

Two different experimental approaches based on the specificity of monoclonal antibodies (mAbs) have been taken to verify the hypothesis that the transferrin receptor (TfR) on proliferating cells serves as a common target structure for natural killer (NK) cells. Thus, by the lysostrip technique the TfR was removed from the surface of K562 and Molt4 tumor cells by incubation with two different anti-TfR mAbs. The effect of removal of the TfR was controlled by uptake of radiolabeled transferrin, and by binding of non-cross-reacting monoclonal anti-TfR receptor antibodies. Though the modulation of TfR on the membrane of viable cells was nearly complete, the cells remained fully susceptible to NK lysis. The second approach consisted in removal of TfR-bearing cells from bone marrow cell suspensions by an indirect rosetting technique. Using mAbs bound to ox erythrocytes the rosetted TfR-bearing cells could be removed from bone marrow cell suspension by density centrifugation with an efficiency of greater than 99%. It could be shown that both fractions, TfR+ and TfR- cells, could be lysed to the same degree by NK cells. Thus, the evidence obtained speaks against a role of TfR as a recognition structure for NK cells.

Natural killer susceptibility of human cells may be regulated by genes in the HLA region on chromosome 6

Natural killer (NK) cells exist in each individual in the absence of any intentional immunization. They are able to kill a wide range of targets from tumoral as well as from normal origin. However, their exact physiologic role is not clearly understood. In this study we report results about a human Epstein-Barr virus-transformed B-cell line from which variants perturbed in the expression of HLA molecules have been derived. Our results indicate that in these cell lines an inverse relationship exists between expression of HLA antigens and susceptibility to NK lysis. The original cell line is highly resistant to NK lysis. On the contrary, the variant perturbed in class I antigen expression is highly susceptible. Variant perturbed in class II antigen expression is intermediate in susceptibility. Interferon, which induces HLA class I expression and NK resistance in the unrelated classical K-562 target cells, does not change either HLA expression or NK susceptibility in the variant cell lines. The difference between the original cell line and the variants does not reside in the ability to be bound by NK effectors. Our results suggest a different role for HLA molecules. By some unknown mechanism discussed here, the presence of HLA molecules at the surface of a cell would prevent this cell from being killed by NK cells. The loss of this "good health" signal would lead to the elimination of the cell through NK lysis.

Human natural killer cell lysis of virus-infected cells. Relationship to expression of the transferrin receptor

Natural killer (NK) cells lyse tumor and virus-infected cells yet the nature of the target structure they recognize is unknown. A normal host cell glycoprotein, the transferrin receptor (TfR), has been proposed as a target structure on tumor cells. We therefore investigated whether changes in the number or physiological recycling of the TfR, consequent on virus infection, were related to the differential susceptibility of virus-infected cells to NK lysis. There was a direct correlation between TfR expression, susceptibility to NK lysis and ability to act as cold target competitors, for human fibroblasts infected with RNA and DNA viruses (cytomegalovirus, herpes simplex, polio, vaccinia and Semliki Forest virus). The NK lysis of human cytomegalovirus-infected fibroblasts was studied in more detail. NK lysis was increased coincident with human cytomegalovirus early antigen expression and this susceptibility to lysis was associated with increased total and recycling TfR but only a slight increase in surface TfR expression. In addition, susceptibility of uninfected human fibroblasts to NK lysis directly correlated with TfR number. However, we were unable to inhibit NK lysis by either excess iron-saturated Tf or affinity-purified TfR. We conclude that there is a direct correlation between total TfR expression and susceptibility to NK lysis of human virus-infected cells; however, the NK target structure on virus-infected cells is probably not the TfR itself.

Low molecular weight immunosuppressive factors found in elevated amounts in cancer ascitic fluids of mice. 1. Isolation, identification and immunosuppressive effects of uric acid and uracil

A definite increase in two low molecular weight factors, G10-2 and G10-3 was found in Ehrlich ascitic fluids, parallel to tumor growth. The isolation and identification of the two factors were attempted through gel filtration and reversed phase column chromatography, using ascitic fluids obtained 13 days after intraperitoneal implantation of Ehrlich tumor cells. As a result, two highly purified factors were observed upon examination by high performance liquid chromatography. Additional analytical data, collected by UV spectrum, NMR spectrum and mass analysis, allowed us to identify G10-2 as uric acid and G10-3 as uracil. Detailed immunological analysis of uric acid and uracil revealed that the augmenting activities of mouse and human NK cells by mouse IFN alpha/beta or human rIFN alpha A/D were impaired in the presence of either compound at concentrations of 0.07 mM, the concentration detectable in the ascitic fluid of tumor bearing mice.

Effect of intravenous immune globulin on natural killer cell activity: possible association with autoimmune neutropenia and idiopathic thrombocytopenia

Natural killer cell (NK) activity was assessed in patients before and after treatment with intravenously administered immune globulin (IVIG). In eight patients with hypogammaglobulinemia or agammaglobulinemia receiving 300 mg/kg/dose IVIG every 4 weeks, NK activity was significantly lower after therapy than before. In two patients, one with idiopathic thrombocytopenic purpura and one with autoimmune neutropenia, receiving high doses (2 gm/kg) of IVIG, NK activity was unusually high before therapy. After treatment, NK activity decreased in correlation with the clinical response and elevation of peripheral cell counts. These data show that IVIG diminishes NK activity in vivo and that reduction of NK activity may be associated with clinical improvement in idiopathic thrombocytopenic purpura and autoimmune neutropenia. NK activity of lymphocytes obtained from healthy volunteers was reduced by the same concentrations of maltose or sucrose present in Gamimune or Sandoglobulin, respectively; IVIG preparations, however, were more inhibitory. The diminution of NK activity therefore may be related to two components of IVIG preparations, monomeric IgG and maltose or sucrose.

Effect of host immune status on the spontaneous metastasis of cloned cell lines of the 13762NF rat mammary adenocarcinoma

The importance of host immune status on the spontaneous metastasis of cloned cell lines of the 13762NF rat mammary adenocarcinoma was examined. Cell lines MTLn3 (high metastatic potential), MTF7 and MTLn2 (intermediate metastatic potential) and MTC (low metastatic potential) were subjected to a series of in vivo assays designed to assess how manipulation of the immune system in the syngeneic F344 host would affect the ability of these cells to metastasise. Treatment of tumour bearing rats with the immunosuppressive agents cyclosporin A or cyclophosphamide had little influence on metastasis in this system. Growth of tumours in congenitally athymic nude rats resulted in reduction of observed metastases. In addition, humoral immune response was not detectable during a 23-day period of tumour growth in F344 rats. Excision of the tumour growing in situ reduced the number of metastases when the tumours were resected early (less than 10 days), but at later times tumour resection did not influence the incidence of metastasis. The importance of initial lymphatic rather than haematogenous routes of dissemination was confirmed in experiments where the draining inguinal and axillary lymph nodes were removed at different times either before, or after, subcutaneous mammary fat pad injection of metastatic tumour cells.

Modulation of in vitro natural cell-mediated activity against enteropathogenic bacteria by simple sugars

Lymphoid cells from mouse Peyer's patches and spleens were tested in a 2-h in vitro assay for their natural activity against the enteropathogenic bacteria Salmonella typhimurium, Salmonella enteritidis, Salmonella tel aviv, and Shigella sp. X16. The antibacterial activity expressed by normal cells was detected against all the bacterial strains tested with the exception of Peyer's patch lymphocytes against S. tel aviv and splenocytes against Shigella sp. X16. To determine whether the different expression of natural antibacterial activity might be due to lectin-like proteins interacting with the saccharidic moieties of the bacterial wall, 11 simple sugars were preincubated with the effector cells before the in vitro assays. We found that some of them could block the natural antibacterial activity as well as induce antibacterial activity when this was not spontaneously expressed. Interestingly, a different panel of sugars among those employed was observed to affect the antibacterial activities for each of the above-mentioned bacterial targets and each effector cell. However, the same panel of sugars was able to block or stimulate the lymphocyte activity when bacteria with the same somatic antigens as two substrains of S. typhimurium and one strain of Salmonella schottmuelleri were employed. To further investigate the interaction between effector cells and bacteria, effector cells or Shigella sp. X16 targets were treated with proteolytic, glycolytic, and lipolytic enzymes before the in vitro assays. Furthermore, EDTA was used to analyze the role of divalent cations in this experimental system. The results obtained suggest that lectin-like proteins playing a role in this interaction are present not only on lymphocytes but also on bacteria and that divalent cations are essential for the expression of in vitro antibacterial activity.

Carbohydrate structure in tumor immunity

Researchers have endeavored to define surface alterations associated with neoplasia for at least 25 years. In comparisons of normal tissues with animal and human tumors, cultured cells before and after transformation with oncogenic agents, tumorigenic and nontumorigenic transformed cells, metastatic and nonmetastatic tumor cells, high- and low-metastatic variants, and tumor cells before and after induction of differentiation to a less malignant phenotype, a consistent finding has been some form of alteration in surface carbohydrate structures. These changes in glycolipids, glycoproteins and glycosaminoglycans are reviewed, and their structures are illustrated. Both nucleotide sugar biosynthesis and glycosyltransferase changes have been associated with these alterations. In some cases, alterations in transformed cells were related to growth, rather than transformation. In others, the altered glycoconjugates are truly tumor-associated. There is evidence that cell surface glycoconjugates may function in growth control. Altered carbohydrate structures could also serve as receptors for growth promoting factors and be directly responsible for altered growth control. Recent studies with monoclonal antibodies indicate that the vast majority of antibodies recognizing tumor-associated antigens are detecting altered carbohydrate structures. Mechanisms by which the immune system can recognize these carbohydrate structures are considered, and immune recognition of tumor-associated carbohydrate structural alterations is explored. A number of these hypotheses relating to alterations in glycosylation, growth control, and tumor immunity deserve further investigation.

Studies of human natural killer cytotoxic factor (NKCF): characterization and analysis of its mode of action

Soluble natural killer cytotoxic factors (NKCF) have been detected in the supernatant of normal mouse, rat, and human lymphocytes stimulated in vitro for 1 to 3 days in serum-free medium. Stimulation of large granular lymphocytes (LGL) with NK-sensitive targets or mitogens has resulted in high levels of NKCF production. Previous studies in the mouse and human systems have analyzed the cells responsible for production, specificity, and general characteristics of NKCF. In the present study, using human NKCF as a model for cytolysis by LGL, we have analyzed a variety of agents previously demonstrated to inhibit NK activity. These have included: (i) phosphorylated sugars; (ii) protease inhibitors; (iii) antibodies to rat LGL granules; (iv) Ca++, and Mg++; (v) lipomodulin; (vi) nucleotides; (vii) prostaglandins; and (viii) inhibitors of lysosomal enzymes. All inhibitors were tested for their effects on production of NKCF after target cell interaction, binding of NKCF to target cells, and target cell lysis (after 6-hour NKCF absorption and washing of targets). Phosphorylated sugars and antibodies to rat LGL granules were found to inhibit the lysis of targets by NKCF, whereas the other agents tested had no detectable effect (ATP, cyclic AMP, protease inhibitors, prostaglandin E2). In regard to the production of NKCF, the data indicated that (i) the absence of calcium and magnesium, (ii) prostaglandin E2, and (iii) ATP inhibited production, whereas phosphorylated sugars did not. Studies with these types of agents will now enable us to dissect the sites at which these agents function within the lytic process. In addition to the above studies, purification studies were performed using tritiated arginine to label NKCF to begin biochemical characterization of human NKCF. The results indicated that radiolabeled NKCF has an apparent molecular weight between 20,000 and 40,000. This material demonstrated a pattern of binding to target cells which was similar to the pattern of lysis by NKCF. In addition, the binding of this material was competitively inhibited by unlabeled NKCF preparations. Such approaches with radiolabeled NKCF should be useful for the further study of the biochemical characteristics of human NKCF and of its mechanism of action.

Purification and characterization of a mannose-containing disaccharide obtained from human pregnancy urine. A new immunoregulatory saccharide

Endogenous mammalian lectin-like sugar-binding molecules have been previously described that have immunoregulatory properties. Further, the addition of defined simple saccharides to lymphocyte cultures has been shown to inhibit a variety of in vitro lymphocyte functions, presumably because these sugars are able to compete with the binding of endogenous lectins to critical membrane receptors. In this report, we describe the isolation and characterization of a D-mannose-containing disaccharide in human pregnancy urine that inhibits the proliferative response of human T lymphocytes. The inhibitory disaccharide was purified to homogeneity by sequential steps including affinity chromatography on immobilized concanavalin A and molecular sizing on Sephadex G-75 and then Fractogel 40S columns, with final purification on high-performance thin-layer chromatography. By mass spectrometry of the purified material as its permethylated derivative, the deduced structure of this compound was alpha-D-Manp 1-6-D-Man. To confirm that this disaccharide was in fact immunosuppressive, an identical disaccharide was prepared by sequential digestion of yeast cell wall polysaccharide. The urinary and yeast disaccharides had identical immunosuppressive properties. It has been previously reported that D-mannose is inhibitory for antigen-specific proliferative assays in the range of 10-50 mM. The purified alpha-D-Manp 1-6-D-Man disaccharide was inhibitory at 100-fold-lower concentrations. Further, while D-mannose inhibits T cell proliferation when added at anytime up to 24 h before harvest of a 6-d lymphocyte culture, alpha-D-Manp 1-6-D-Man disaccharide was inhibitory only if added at the initiation of culture and had no inhibitory effect if added just 24 h later. These data support the concept that simple sugar compounds can exhibit marked immunoregulatory activity in vitro. The impact of these molecules on the regulation of immune responses in vivo is unknown, as is their precise mechanism of action, but structural and chemical identification should now permit a detailed analysis of these issues.

Recognition specificities, development and possible biological function of natural killer cells in the mouse. II. Changes in NK recognition during ontogeny and ageing, and examination of role of environment in controlling the expressed recognition repertoire

We have used a spleen fragment assay to assess subpopulations of NK effector cells in individual mice and to analyse the patterns of inhibition of lytic activity seen in the presence of different sugars (mono-, di- and tri-saccharides). Our data suggest that during ontogeny the heterogeneity (diversity) of the NK effector population increases in a fashion which is somewhat characteristic of the individual strain under investigation. Furthermore, when a similar analysis was performed on NK cells in the spleen of lethally irradiated recipient mice receiving syngeneic or semi-allogeneic bone marrow stem cell precursors, we found that the phenotype of inhibition by different sugars was a characteristic of the bone marrow donor and not of the recipient. In so far as the assay described assesses target recognition by NK cells (and not subsequent parameters involved in the lytic event) these data can be interpreted in terms of a relative independence of the expressed recognition repertoire of NK cells from the environment in which their differentiation occurs.

The adherence of Escherichia coli mutants to mouse splenic lymphocytes

Strains of Escherichia coli that do not bind to lymphocytes can be converted to lymphocyte-binding strains by selecting for bacteriophage resistance. The mutants appear to fall into three classes: those whose binding can be inhibited by mannose, those whose binding can be inhibited by charged molecules, and those whose binding cannot be inhibited by either simple sugars or by charged molecules. The mannose-inhibitable mutants may bind via a bacterial lectin whereas the other mutants may bind via ionic interactions. Selection for phage resistance provides a simple way to obtain bacterial strains that bind to lymphocytes, which should facilitate the elucidation of the mechanism by which lymphocytes and bacteria interact.

Neoplastic cells as targets of spontaneously cytotoxic lymphocytes: studies with natural killer-like cell lines

Native natural killer (NK) cells comprise a heterogeneous family of lymphocytes distributed among several organs, which display spontaneous cytotoxic reactions directed against a broad range of tumor targets. In these studies, murine cell lines have been established in vitro following the selective expansion of bone marrow- and spleen-derived killer progenitors in culture medium supplemented with interleukin-2. Several clones of independent origin have been characterized in order to determine the extent of their phenotypic and functional diversity. With few exceptions most of them were found to be highly effective in lysing a variety of tumor cell lines, to share common cell surface alloantigens, lectin-binding receptors, and cytochemical markers. The presence of prominent azurophilic cytoplasmic granules is the most characteristic ultrastructural feature of these cells. In attempting to elucidate the nature of membrane components specifically recognized by NK cells we compared several isogenic tumor cell variants selected on the basis of their differential NK susceptibility, immunogenicity, metastatic potential or resistance to cytotoxic plant lectins. Sialylated glycoconjugates exposed on the external face of the tumor cell membrane appear to be essential determinants in the interaction between NK cells and their targets. Permanent cell lines retaining most of the functional attributes of endogenous NK cells may prove instrumental in understanding their role during tumor progression.

Effects of exogenous amines on mammalian cells, with particular reference to membrane flow

We have reviewed the evidence that amines accumulate in intracellular vesicles of low pH, such as lysosomes and endosomes. There is consequent elevation of intravesicular pH, and inhibition of receptor-ligand dissociation often results from this pH change. We have argued that the capacity for fusion of such vesicles is also reduced by the high pH. We suggest that the variety of effects of amines on membrane flow and macromolecular transport we describe are at least partly due to such reduced fusion (Figs. 1 and 2). We propose that an internal low pH may facilitate heterologous vesicle-vesicle and vesicle-plasma membrane fusion. There is some evidence that clathrin can accelerate phospholipid vesicle fusion in vitro at low pH (Blumenthal et al., 1983) but no direct evidence on the role of intravesicular pH. This idea is consistent not only with the preceding discussion, but also with the fact that the intracellular membrane-bound compartments least involved in fusion events (e.g. mitochondria) are of neutral or alkaline internal pH. Membrane fusion is certainly required for the formation of vesicles at the periphery of the Golgi apparatus, and possibly earlier in the transport and processing of biosynthetic products in the Golgi (Bergeron et al., 1982). Thus the accumulation of amines in the Golgi may be responsible for several effects on the flow of macromolecules along their translocation pathways. The status of the plasma membrane in this view is complex. It might be argued that the pH dictating the fusion step in endocytosis is that of the extracellular fluid, in which case the inhibitory effects of amines on this process are not explained. However, the rapidity of acidification of the newly formed endocytic vesicles allows the possibility that plasma membrane invaginations might temporarily sequester areas which are of lower pH than that of the bulk extracellular fluid even before fusion, since the proton pumping enzyme(s) are probably present on the plasma membrane. Were this the case, then an acid pH could again be a factor determining membrane fusion at the plasma membrane. The inhibition of endocytosis by weak bases thus may again reflect elevation of pH in a sequestered compartment. From the data on the dependence of response on the concentration of amines, we anticipate that most responses involving membrane flow will be biphasic, with inhibitory effects at low amine concentration, giving way to stimulatory ones at higher concentrations. We suggest that the reported dichotomy between different amines in intracellular membrane fusion systems (D'Arcy Hart, 1982) may result from this concentration dependence.(ABSTRACT TRUNCATED AT 400 WORDS)

The receptor function of galactosyltransferase during cellular interactions

The molecular mechanisms that underly cellular interactions during development are still poorly understood. There is reason to believe that complex glycoconjugates participate in cellular interactions by binding to specific cell surface receptors. One class of carbohydrate binding proteins that could serve as receptors during cellular interactions are the glycosyltransferases. Glycosyltransferases have been detected on a variety of cell surfaces, and evidence suggests that they may participate during cellular interactions by binding their specific carbohydrate substrates on adjacent cells or in extracellular matrix (see Refs. 1-4 for review). This review will focus on the receptor function of galactosyltransferase, in particular, during fertilization, embryonic cell adhesion and migration, limb bud morphogenesis, immune recognition and growth control. In many of these systems, the galactosyltransferase substrate has been characterized as a novel, large molecular weight glycoconjugate composed of repeating N-acetyllactosamine residues. The function of surface galactosyltransferase during cellular interactions has been examined with genetic and biochemical probes, including the T/t-complex morphogenetic mutants, enzyme inhibitors, enzyme modifiers, and competitive substrates. Collectively, these studies suggest that in the mouse, surface galactosyltransferase is under the genetic control of the T/t-complex, and participates in multiple cellular interactions during development by binding to its specific lactosaminoglycan substrate.