Human eosinophil cytotoxicity-enhancing factor. Purification, physical characteristics, and partial amino acid sequence of an active polypeptide

Medium conditioned by PMA/LPS-stimulated U937 cells was processed for the purification of an eosinophil cytotoxicity-enhancing factor (ECEF) by the following sequence: 1) phenyl-Sepharose chromatography; 2) DEAE-cartridge chromatography; 3) preparative SDS-gel electrophoresis; and 4) reversed-phase HPLC. This resulted in the isolation of a 10 kDa polypeptide with ECEF activity. Purified material from 21 different preparations enhanced eosinophil killing of antibody-coated Schistosoma mansoni schistosomula by a mean of 206% (increase from 13.2 +/- 7.9% to 40.4 +/- 20.2% of targets killed, p less than 0.0001). Activity was maximal at a concentration of 20 ng ECEF polypeptide/ml and half-maximal between 0.8 and 4 ng/ml. Antibody specific for the 10 kDa polypeptide precipitated ECEF activity from a crude preparation and, by Western blot analysis, reacted only with a 10 kDa species in that preparation. The following N-terminal amino acid sequence was determined for the purified polypeptide: Val-Lys-Gln-Ile-Glu-Ser-Lys-Thr-Ala-Phe-Gln-Lys-Ala-Leu- -Ala- Gly- -Lys-Leu....Computer search showed that this sequence is unrelated to other known protein sequences. Thus, the ECEF polypeptide is a newly defined monokine, with the ability to enhance eosinophil cytotoxic function in vitro. This monokine may be an important regulator of eosinophil function in inflammation in vivo.     

Protective activity of adult T cell leukemia-derived factor (ADF) against tumor necrosis factor-dependent cytotoxicity on U937 cells.

Adult T cell leukemia-derived factor (ADF) is a human homologue of thioredoxin with many biologic functions including IL-2R induction, growth promotion, thiol-dependent reducing activity, and radical scavenging activity. The regulatory effect of ADF on the cytotoxic activity of TNF was examined by using a human histiocytic lymphoma cell line, U937. When U937 cells were preincubated with recombinant ADF (rADF) (0.1-100 micrograms/ml) at 37 degrees C for 30 min, TNF-dependent cytotoxicity on U937 cells was markedly inhibited. This inhibitory effect was as high as 95% in the 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide assay (rADF 100 micrograms/ml) and 85% in the 51Cr-releasing assay (rADF 10 micrograms/ml). After pretreatment of U937 cells with IFN-gamma to augment the sensitivity to TNF, an inhibitory effect of rADF was also found. When U937 cells were washed after preincubation with rADF, resistance to TNF-dependent cytotoxicity was still observed, indicating that rADF inhibited the sensitivity of U937 to TNF-dependent cytotoxicity rather than modifying TNF molecules. Scatchard analysis of TNF receptors on U937 cells using 125I-TNF showed that rADF modulated neither the density nor the affinity of the cell membrane significantly. rADF also reduced the cytotoxicity induced by anti-Fas IgM mAb which shows cytotoxicity quite similar to TNF. rADF (10 micrograms/ml) reduced 90% of the cytotoxicity by anti-Fas IgM mAb, without a detectable change either in Fas Ag expression (MFI 58.1 vs 53.3) or in the degradation of anti-Fas IgM mAb as determined by flow cytometric analysis. These findings indicated that the rADF-induced resistance to the cytotoxic effect of TNF and anti-Fas mAb was not related to the modulation of the TNF receptor or Fas Ag.     

Tumor necrosis factor signal transduction. Tissue-specific serine phosphorylation of a 26-kDa cytosolic protein

Binding of tumor necrosis factor-alpha (TNF-alpha) to its receptor on U937 cells results in rapid and TNF dose-dependent phosphorylation of a cytosolic protein with an apparent molecular mass of 26,000 kDa (p26) and an isoelectric point of 5.6. Half-maximal phosphorylation of p26 was achieved at concentrations of 1.8 ng/ml and was detectable within 20 s of TNF-alpha treatment. p26 is phosphorylated exclusively at serine residues. p26 phosphorylation occurs at 37 degrees C as well as at 14 degrees C, indicating that internalization of the TNF receptor is not required for serine kinase activation. Dephosphorylation of p26 starts 10 min after TNF-induced phosphorylation, suggesting a possible regulatory function of this cytosolic protein within the post-TNF receptor signaling system. p26 is also phosphorylated upon treatment with lymphotoxin. In contrast, both interferon-gamma and lipopolysaccharide fail to induce p26 phosphorylation. Whereas phosphorylated p26 was detected in the TNF-sensitive breast cancer cell line CRL1500, other TNF-responsive tumor cell lines investigated lacked enhanced phosphorylation of p26 in response to TNF, indicating that the 26-kDa phosphoprotein (pp26) may be a cell type-specific second messenger molecule involved in TNF signal transduction in some, but not all, target cells. p26 is also phosphorylated in a subclone of U937 (U937.C27) that responds to TNF-alpha with differentiation, yet is resistant to TNF-alpha-mediated growth inhibition. In contrast, p26 is not phosphorylated in another U937 derivative (U937.G3) that is resistant to both TNF-alpha-induced growth arrest and differentiation, suggesting that pp26 may play a role in the TNF signaling pathway linked to differentiation processes rather than to growth control.     

Human vascular permeability factor. Isolation from U937 cells

Human vascular permeability factor (hVPF) is a glycoprotein that promotes fluid and protein leakage from blood vessels. The function of hVPF is at present unknown, but the potent bioactivities of this protein suggest that it could act during inflammation, wound healing, and tumor angiogenesis. hVPF was purified from serum-free conditioned medium of the human histiocytic lymphoma cell line U937 as a disulfide-linked dimeric 40-kDa protein that promoted dermal blood vessel leakage in guinea pigs at a dose of 20 ng (3 x 10(-9) M) and promoted in vitro endothelial cell growth at concentrations as low as 50 PM. Multiple forms of hVPF with apparent pI values greater than 7.5 were resolved using pH gradient electrophoresis. Antibodies against guinea pig vascular permeability factor were found to cross-react with hVPF. The N-terminal amino acid sequence of hVPF was similar to, but not identical with, the N-terminal sequence of guinea pig vascular permeability factor.     

Characterization of a factor from the U937 cell line that enhances the toxicity of human eosinophils to Schistosoma mansoni larvae

A factor produced by lipopolysaccharide-stimulated human monocytes, monocyte-derived eosinophil cytotoxicity-enhancing factor (M-ECEF), increases the ability of human eosinophils to kill larvae of Schistosoma mansoni. In order to purify this monokine, a continuous cell line was sought as a generator of source material. It was found that high titers of an ECEF-like activity could be obtained from the U937 cell line cultured in serum-free medium. Production of this activity was optimal when cells were cultured with PMA for 2 days and were further treated with LPS for 2 days. PMA and LPS alone did not enhance eosinophil cytotoxicity and could be separated completely from U937-ECEF activity by reversed-phase HPLC. Thus, the activity was not due to carry-over of these two stimuli. U937-ECEF was compared with M-ECEF by a number of analytical methods. ECEF from both sources was resistant to several denaturing treatments but was sensitive to proteases or to reduction and alkylation. U937-ECEF exhibited activity profiles similar, if not identical, to those of M-ECEF when subjected to molecular sizing HPLC in the presence of 8 M urea, isoelectric focusing, and reversed-phase HPLC. The activity has apparent m.w. of 17,000 and 32,000, isoelectric points ranging from 3.8 to 5.1, and one or more reversed-phase HPLC retention times, depending on the method of sample preparation. These results demonstrate certain physical characteristics of M-ECEF, show that the U937 cell line is an appropriate source for the purification of M-ECEF, and provide information that will allow the design of a purification strategy. Although it appears that tumor necrosis factor (TNF) or a TNF-like molecule is a component of M-ECEF, a major component of M-ECEF is different from TNF as judged by the 1) physical characteristics of M-ECEF, 2) low direct toxicity of M-ECEF to L929 cells, 3) comparative stability of M-ECEF to heat treatment, and 4) inability of an anti-TNF monoclonal antibody to remove M-ECEF activity.     

The cytotoxicity of Bacillus thuringiensis subsp. coreanensis A1519 strain against the human leukemic T cell

A novel cytotoxic protein was isolated from the crystal produced by Bacillus thuringiensis subsp. coreanensis A1519 strain. Upon treatment of the crystal proteins by proteinase K, the significant cytotoxicity toward the leukemic T cell, MOLT-4, was exhibited. The microscopic observation indicated that the cell death was accompanied by no extensive rupture of the cell membrane. It was, therefore, suggested that the cell death of MOLT-4 was induced through a mechanism other than the colloid-osmotic swelling and cell lysis as caused by hitherto known B. thuringiensis crystal proteins. The 29-kDa polypeptide proved to be an active component of the proteinase K-digested A1519 crystal proteins. EC(50) of the purified 29-kDa polypeptide was 0.078 microg/ml. The N-terminal amino acid sequence of the 29-kDa polypeptide shared no significant homology with all the known proteins, suggesting that this polypeptide belong to a new family of B. thuringiensis crystal proteins. In the ligand blotting analysis, specific binding proteins for the 29-kDa polypeptide were detected from the cell membrane of MOLT-4.     

Activation mechanisms of platelet-activating factor in U937 cells: possible involvement of protein kinase C.

We have previously demonstrated that platelet-activating factor (PAF) binds specifically on cell membranes isolated from U937 cells. We now describe biological evidence showing that the effect of PAF on U937 cells is a receptor-mediated event. myo-[3H]Inositol-labeled U937 cells were used to investigate the possible role of phosphoinositide metabolism in these cells after binding of PAF. Formation of inositol phosphates (IP1, IP2, and IP3) in response to PAF was increased two- to threefold more than in vehicle control in U937 cells. The effect of PAF on endogenous protein phosphorylation was also studied by using 32PO4-labeled cells. PAF stimulates the phosphorylation of a 45-kDa protein in a time-dependent and dose-related fashion. Since the phospholipase C-generated diglyceride is an important activator of protein kinase C, the phosphorylated 45-kDa protein could be the substrate of protein kinase C. In this regard, we were able to demonstrate that phorbol ester enhances the phosphorylation of the same 45-kDa protein band. In addition, sphingosine, a protein kinase C inhibitor, inhibits the phosphorylation of the same 45-kDa protein band. Down-regulation of the protein kinase C also inhibits the 45-kDa protein phosphorylation. These results suggest that protein kinase C is involved in the PAF-U937 cell interaction.     

Immunoregulatory factors from a human macrophage-like cell line. II. A human T-cell lymphokine-induced suppressor factor for lymphocyte proliferation

It has been demonstrated that the human histiocytic lymphoma-derived cell line U937, which has monocytoid characteristics, responds to a concanavalin A-induced T-cell-derived suppressor supernatant (T-SFS) with the release of a factor markedly suppressing mitogen-stimulated proliferation of normal peripheral blood lymphocytes. The suppressor material is not dialyzable, appears within 2 hr of exposure of U937 cells to the T-SFS, persists for at least 24 hr, and has a Mr of approximately 40,000 by gel chromatography. The suppressor factor does not affect the proliferation of continuous T- and B-lymphoid cell lines, distinguishing it from the inhibitor of DNA synthesis also released by U937, but appears to be specific for a stage of activation of normal lymphocytes that is independent of (a) utilization of interleukin-2 and (b) inhibition of production of interleukin-2.     

OxLDL induced cell death is inhibited by the macrophage synthesised pterin, 7,8-dihydroneopterin, in U937 cells but not THP-1 cells

The atherosclerotic plaque is an inflammatory site where macrophage cells are exposed to cytotoxic oxidised low density lipoprotein (oxLDL). Interferon-gamma released from T-cells results in macrophage synthesis of 7,8-dihydroneopterin which has antioxidant and cytoprotective activity. Using the human derived monocyte-like U937 and THP-1 cell lines, we examined whether 7,8-dihydroneopterin could inhibit the cytotoxic effect of oxLDL. In U937 cells, oxLDL caused a dramatic loss of cellular glutathione and caspase independent cell death associated with phosphatidylserine exposure on the plasma membrane. 7,8-Dihydroneopterin completely blocked the cytotoxic effect of oxLDL. In contrast, oxLDL initiated THP-1 cell apoptosis with reduction in cellular thiols, caspase-3 activation and plasma membrane phosphatidylserine exposure. 7,8-Dihydroneopterin was unable to alter these processes or restore the THP-1 cellular thiol content. 7,8-Dihydroneopterin did provide some protection to both THP-1 cells and U937 cells from AAPH derived peroxyl radicals. The preincubation of oxLDL with 7,8-dihydroneopterin did not reduce cytotoxicity, suggesting that 7,8-dihydroneopterin may be acting in U937 cells by scavenging intracellular oxidants generated by the oxLDL. The data show that muM levels of 7,8-dihydroneopterin may prevent oxLDL mediated cellular death within atherosclerotic plaques.     

Is cell culture stressful? Effects of degradable and nondegradable culture surfaces on U937 cell function

In vitro cell culture has become one of the most widely used techniques in biological and health sciences research, with the most common culture supports being either tissue culture grade polystyrene (TCPS) or polydimethylsiloxane (PDMS). It has previously been shown that monocyte-derived macrophages (MDMs) respond to material surface chemistry, synthesizing and releasing degradative activities that could produce products, which alter the cell's response. In this study, functional parameters of differentiated U937 macrophage-like cells were compared when cultured on nondegradable standard control surfaces versus models of biomaterials (polycarbonate-based polyurethanes) used in the manufacture of medical devices previously shown to degrade and/or elicit pathways of inflammation. Although the influence of PDMS and TCPS on cell function is often underappreciated by investigators, both surfaces elicited enzyme markers of inflammation. Cells on TCPS had the highest intracellular and released esterase activities and protein levels. Cells on PDMS had the most released acid phosphatase activity and protein (P < 0.001), as well as de novo 57- and 59-kDa released proteins. The criteria for defining an activated cell phenotype become critically important when materials such as PDMS and TCPS are used as standard control surfaces whether in experiments for research in elucidating metabolic pathways or in screening drugs and materials for therapeutic uses.     

Purification and properties of a 28-kilodalton hemolytic and mosquitocidal protein toxin of Bacillus thuringiensis subsp. darmstadiensis 73-E10-2.

The mosquitocidal crystal of Bacillus thuringiensis subsp. darmstadiensis 73-E10-2 was purified, bioassayed against third-instar Aedes aegypti larvae (50% lethal concentration, 7.5 micrograms/ml), and subjected to sodium dodecyl sulfate-polyacrylamide gel electrophoresis, revealing polypeptides of 125, 50, 47, and 28 kilodaltons (kDa). When solubilized and proteolytically activated by insect gut proteases or proteinase K, the crystal was cytotoxic to insect and mammalian cells in vitro and was hemolytic. By using nondenaturing polyacrylamide gel electrophoresis, a polypeptide of 23 kDa, derived from the 28-kDa protoxin, was identified which was hemolytic and cytotoxic to Aedes albopictus, A. aegypti, and Choristoneura fumiferana CF1 insect cell lines. The 23-kDa polypeptide was purified by ion-exchange chromatography and gave 50% lethal dose values of 3.8, 3.3, and 6.9 micrograms/ml against A. albopictus, A. aegypti, and C. fumiferana CF1 cells lines, respectively. Cytotoxicity in vitro was both dose and temperature dependent, with a sigmoidal dose-response curve. The cytotoxicity of the 23-kDa toxin and the solubilized and proteolytically activated delta-endotoxin was inhibited by a range of phospholipids containing unsaturated fatty acids and by triglyceride and diglyceride dispersions. An interaction with membrane phospholipids appears important for toxicity. Polyclonal antisera prepared against the 23-kDa polypeptide did not cross-react with polypeptides in the native crystals of four other mosquitocidal strains.     

Phorbol ester induces the rapid processing of cell surface heparin-binding EGF-like growth factor: conversion from juxtacrine to paracrine growth factor activity.

Vero cell heparin-binding epidermal growth factor-like growth factor (HB-EGF) is synthesized as a 20- to 30-kDa membrane-anchored HB-EGF precursor (proHB-EGF). Localization and processing of proHB-EGF, both constitutive and 12-O-tetradecanoylphorbol 13-acetate (TPA)-inducible, was examined in Vero cells overexpressing recombinant HB-EGF (Vero H cells). Flow cytometry and fluorescence immunostaining demonstrated that Vero cell proHB-EGF is cell surface-associated and localized at the interface of cell to cell contact. Cell surface biotinylation and immunoprecipitation detected a 20- to 30-kDa heterogeneous proHB-EGF species. Vero H cell surface proHB-EGF turned over constitutively with a half-life of 1.5 h. Some of the 20- to 30-kDa cell surface-associated proHB-EGF was processed and a 14-kDa species of bioactive HB-EGF was released slowly, but most of the proHB-EGF was internalized, displaying a diffuse immunofluorescent staining pattern and accumulation of proHB-EGF in endosomes. Addition of TPA induced a rapid processing of proHB-EGF at a Pro148-Val149 site with a half-life of 7min. The TPA effect was abrogated by the protein kinase C inhibitors, staurosporine and H7. Kinetic analysis showed that loss of cell surface proHB-EGF is maximal at 30 min after addition of TPA and that proHB-EGF is resynthesized and the initial cell surface levels are regained within 12-24 h. Loss of cell surface proHB-EGF was concomitant with appearance of 14- and 19-kDa soluble HB-EGF species in conditioned medium. Vero H cell-associated proHB-EGF is a juxtacrine growth factor for EP170.7 cells in coculture. Processing of proHB-EGF resulted in loss of juxtacrine activity and a simultaneous increase in soluble HB-EGF paracrine mitogenic activity. It was concluded that processing regulates HB-EGF bioactivity by converting it from a cell-surface juxtacrine growth factor to a processed, released soluble paracrine growth factor.     

Fibronectin receptors of mononuclear phagocytes: Binding characteristics and biochemical isolation

Fibronectin receptors on mononuclear phagocytes are involved in the localization of monocytes at inflammatory sites and in the subsequent expression of macrophage-like phenotypes. In this study, we have investigated the hypothesis that proteolytically derived fragments of fibronectin may interfere with binding of fibronectin to monocytes in the extracellular matrix. We report on the reactivity of U937 cells with an 80-kDa tryptic fragment of fibronectin which contains the cell-binding domain but lacks the gelatin/collagen-binding domain. U937 cells attached to surfaces coated with the 80-kDa fragment as well as with intact fibronectin. Preincubation of the cells with the 80-kDa fragment inhibited attachment to both surfaces while intact fibronectin had little or no inhibitory effect. The Ki for inhibition of attachment (0.5 microM) was consistent with the Kd for binding of the 3H-labeled 80-kDa fragment (0.34 microM) to U937 cells in suspension. There were 4-5 x 10(5) 80-kDa binding sites per cell. The relatively high affinity of the 80-kDa fragment for the monocyte surface permitted the isolation and characterization of fibronectin-binding proteins from U937 cells and peripheral blood monocytes by affinity chromatography. When octylglucoside lysates of lactoperoxidase iodinated cells were applied to 80-kDa-Sepharose columns, a polypeptide complex of 152/125 kDa was eluted with the synthetic peptide GRGDSPC, but not with GRGESP. This complex resolved into a single diffuse band of 144 kDa upon reduction. Binding of the protein complex to the affinity column required divalent cations. The complex bound to wheat germ agglutinin and could be specifically eluted by N-acetylglucosamine. Similar cell-surface proteins were isolated from peripheral blood monocytes.     

Identification of two U937 cell sublines exhibiting different patterns of response to tumour necrosis factor

The monocytic cell line U937 is a frequently used model in studies on the cytotoxic effect of tumour necrosis factor (TNF). Two sublines of this cell line, termed U937(G) and U937(M), revealing different patterns of response to this cytokine, have been identified. The U937(G) cells, similarly to the cells obtained from ATCC, were resistant to the cytotoxic action of TNF in the absence of the protein-synthesis blocker cycloheximide (CHX). The U937(M) cells, however, were sensitive to the cytotoxic action of TNF both in the presence and absence of cycloheximide. Genetic analysis of the U937 sublines confirmed their common origin. The described U937 sublines may be useful models for analysis of the mechanisms of response to TNF. Additionally, our observation underscores the variability of the U937 cell line, which is described by most authors as a TNF-sensitive line.     

Opposite effects of thrombospondin-1 via CD36 and CD47 on homotypic aggregation of monocytic cells.

Thrombospondin-1 (TSP-1), an extracellular matrix protein, has a multimodular structure and each domain specifies a distinct biological function through interaction with a specific ligand. In this study we found that exogenously added TSP-1 inhibits phorbol myristate acetate (PMA)/LPS-induced homotypic aggregation of human monocytic U937 cells, whereas the 70-kDa fragment of TSP-1 generated by the proteolytic cleavage of the intact molecule promotes the homotypic aggregation. The aggregation was also inhibited by anti-CD47 mAb or the 4N1K peptide, of which sequence is derived from the CD47-binding site of TSP-1 and absent in the 70-kDa fragment. In contrast, the augmented cell aggregation by the 70-kDa fragment was hampered by anti-CD36 mAb or antibody against the CD36-binding site of TSP-1. The cell aggregation of U937 cells was completely blocked, even in the presence of the 70-kDa fragment, by mAb against leukocyte function associated antigen-1 (LFA-1) or intercellular adhesion molecule-1 (ICAM-1). We therefore propose that TSP-1 may regulate LFA-1/ICAM-1-mediated cell adhesion of monocytes/macrophages by either the inhibitory effect through CD47 or the promoting effect through CD36 depending on which domain/fragment is functional in a given biological setting.     

Human leukotriene C4 synthase expression in dimethyl sulfoxide-differentiated U937 cells.

Leukotriene C4 (LTC4) synthase was highly expressed in the human U937 monoblast leukemia cell line when differentiated into monocyte/macrophage-like cells by growth in the presence of dimethyl sulfoxide. The specific activity of LTC4 synthase in differentiated cells (399.0 +/- 84.1 pmol of LTC4 formed.min-1.mg-1) was markedly higher (10-fold; p less than 0.001) than in undifferentiated U937 cells (39.9 +/- 16.7 pmol of LTC4 formed.min-1.mg-1) or freshly isolated blood monocytes (21.5 +/- 4.8 pmol of LTC4 formed.min-1.mg-1). The increase in LTC4 synthase activity following dimethyl sulfoxide-induced differentiation was substantially higher than the increase observed for other proteins involved in leukotriene biosynthesis. LTC4 synthase activity was unaffected in U937 cells differentiated by growth in the presence of phorbol 12-myristate 13-acetate. The HL-60 myeloblast leukemia cell line expressed higher LTC4 synthase levels when differentiated into either neutrophil-like or macrophage-like cells by growth in the presence of dimethyl sulfoxide or phorbol 12-myristate 13-acetate (respectively), but reached a specific activity comparable only to undifferentiated U937 cells. Human LTC4 synthase was found to be a unique membrane-bound enzymatic activity completely distinct from alpha, mu, pi, theta, and microsomal glutathione S-transferases, as determined by differential detergent solubilization, chromatographic separation, substrate specificity, and Western blot analysis. An 18-kDa polypeptide was specifically labeled in membranes from dimethyl sulfoxide-differentiated U937 cells using azido 125I-LTC4, a photoaffinity probe based on the product of the LTC4 synthase-catalyzed reaction. Photolabeling of the 18-kDa polypeptide was specifically competed for by LTC4 (greater than 50% at 0.1 microM) but not by 100,000-fold higher concentrations of reduced glutathione (10 mM). Elevation of both the level of the specifically photolabeled 18-kDa polypeptide and of LTC4 synthase specific activity occurred concomitantly with dimethyl sulfoxide differentiation of U937 cells. We conclude that differentiation of U937 cells into monocyte/macrophage-like cells by growth in the presence of dimethyl sulfoxide results in high levels of expression of LTC4 synthase activity. Human LTC4 synthase is a unique enzyme with a high degree of specificity for LTA4 and may therefore be dedicated exclusively to the formation of LTC4 in vivo. An 18-kDa membrane polypeptide, specifically labeled by a photoaffinity derivative of LTC4, is a candidate for being either LTC4 synthase or a subunit thereof.     

Human monocyte-mediated tumor cytotoxicity. I. Demonstration of an oxygen-dependent myeloperoxidase-independent mechanism

The cytolytic capacity of monocytes per se and stimulated monocytes has been documented to only a limited extent, and when observed has been ascribed to the generation of a variety of cytolytic molecular entities. In the present study we have examined de novo human monocyte-mediated tumor cytotoxicity and that induced by the agent 12-O-tetradecanoylphorbol-13-acetate (TPA). Cytolytic function was analyzed by reference to the release of [111In] oxine from two prelabeled tumor cell lines, K562 and U937, in a 16-hr assay in the presence of serum to more closely mimic in vivo circumstances. Observed cytolysis was clearly related to TPA concentration and effector cell number. Maximal cytolysis was obtained with TPA at 5 ng/ml, at which specific releases were 43% +/- 6 and 18% +/- 5 (mean +/- 1 SEM) at an effector cell to target cell (E:T) ratio of 2.5:1 and 65% +/- 6, and 41% +/- 12 at an E:T ratio of 20:1, for K562 and U937, respectively. In contrast, unstimulated monocytes expressed minimal cytolytic activity, or at best a low cytotoxic effect at high cellular ratios. When TPA-stimulated monocyte-mediated cytolysis was examined, catalase (2750 U/ml) inhibited K562 and U937 cytolysis by 92% and 84%, respectively; superoxide dismutase (300 U/ml) only inhibited cytotoxicity by 17% and 24%, respectively, implicating a central role of H2O2 rather than superoxide ions. Sodium azide (1 mM), an inhibitor of myeloperoxidase, did not diminish cytolysis; in contrast, it increased K562 and U937 cytolysis by 34% and 57%. This increased cytotoxicity was observed for K562 at low levels of cytotoxicity. These data tend to dismiss an essential role of the H2O2-halide-myeloperoxidase pathway of cytolysis. The OH scavengers, histidine (20 mM) and ethanol (40 mM), did not affect K562 killing; mannitol (50 mM), another OH scavenger, had only a slight inhibitory effect (23%). Finally, H2O2 generated by a glucose-glucose oxidase system directly mediated K562 killing and, to a lesser extent, U937 lysis. These results point strongly towards the role of: 1) a myeloperoxidase-independent mechanism of cytotoxicity, with 2) H2O2 as a key mediator of the cytolytic mechanism, and 3) a limited role of O2.- in synergy with H2O2 in the cytolytic activity of monocytes, and suggest that significant cytolytic function requires an inductive event.     

IFN-gamma-induced production of monocyte cytotoxic factor

The effect of activating human monocytes in vitro with recombinant Interferon-gamma (IFN-gamma) and lymphokines on monocyte-mediated cytotoxicity and on the production of cytotoxic protein factor(s) (CF), has been investigated. Lymphokines and IFN-gamma enhanced both cytotoxicity and CF production in a dose-dependent manner. A monoclonal antibody against human IFN-gamma abrogated the lymphokine-induced cytotoxic activity and CF production completely, indicating that the actual monocyte-activating factor in the lymphokine supernatant was IFN-gamma. At concentrations of 10(3)-10(4) U/ml, IFN-gamma induced an enhanced release of CF from the monocytes. However, IFN-gamma at concentrations (less than 100 U/ml) present in our lymphokine preparation was not sufficient to induce enhanced CF release. Since IFN-gamma at concentrations less than 100 U/ml activated monocytes for cytotoxicity, CF as an extracellular factor in the supernatant does not appear to be essential for monocyte-mediated cytotoxicity. However, using neutralizing antiserum raised against purified CF, indirect immunofluorescence microscopy revealed that IFN-gamma induced a marked accumulation of CF on the monocyte membrane. Taken together, the data shows that IFN-gamma is both necessary and sufficient at concentrations less than 100 U/ml for inducing monocyte-mediated cytotoxicity and production of CF as a membrane-associated component, but not as a released factor, suggesting that CF may function as a membrane-associated cytotoxin in monocyte-mediated cytotoxicity.     

Spontaneous production of a suppressor factor by the human macrophage-like cell line U937. I. Suppression of interleukin 1, interleukin 2, and mitogen-induced blastogenesis in mouse thymocytes

The human macrophage-like cell line U937 spontaneously produced a nondialyzable factor that inhibited interleukin 1 (IL 1), interleukin 2 (IL 2), and phytohemagglutinin (PHA)-induced blastogenesis in mouse thymocytes. The suppression by U937 supernatant factor occurred independently of the concentration of IL 1 or PHA, indicating that it was noncompetitive. The U937 suppressor factor was not cytotoxic for thymocytes, nor did it affect the spontaneous proliferation of T lymphoblastoid cell lines and U937. Physicochemical characterization showed that the U937 suppressor factor was nondialyzable, partially inactivated by heat treatment (56 degrees C), ammonium sulfate (67% saturation) precipitable, sensitive to pH 2.5, and resistant to freeze-thawing. Molecular weight of the factor inhibiting co-mitogenic IL 1 activity was approximately 85,000, as estimated by gel filtration. The U937 cell line may provide a model for the study of mechanisms and mediators of immunosuppression by mononuclear phagocytes.