Regulation of plasminogen receptor expression on human monocytes and monocytoid cell lines

The capacity of human monocytoid cell lines and peripheral blood monocytes to modulate their expression of plasminogen receptors has been assessed. After PMA stimulation, THP-1 or U937 monocytoid cells were separated into adherent and nonadherent populations. Plasminogen bound to adherent cells with similar capacity and affinity as to nonstimulated cells. In contrast, the nonadherent cells bound plasminogen with 5-17-fold higher capacity (without a change in affinity). This increase was selective as urokinase bound with similar affinity and capacity to the adherent and nonadherent populations. Upregulation of plasminogen receptors on the nonadherent monocytoid cells was rapid, detectable within 30 min, and reversible, adhesion of the nonadherent cells resulted in a sixfold decrease in plasminogen binding within 90 min. The increase in plasminogen binding to the nonadherent cells was associated with a marked increase in their capacity to generate plasmin activity from cell-bound plasminogen. PMA stimulation of human peripheral blood monocytes increased their expression of plasminogen receptors by two- to fourfold. This increase was observed in both adherent and nonadherent monocytes. Freshly isolated monocytes maximally bound 5.0 x 10(5) plasminogen molecules per cell, whereas monocytes cultured for 18 h or more maximally bound 1.7 x 10(7) molecules per cell, a 30-fold difference in receptor number. These results indicate that both monocytes and monocytoid cell lines can rapidly and markedly regulate their expression of plasminogen binding sites. As enhanced plasminogen binding is correlated with an increased capacity to generate plasmin, an enzyme with broad substrate recognition, modulation of plasminogen receptors may have profound functional consequences.     

Role of T cell subsets in the modulation of Mycobacterium avium growth within human monocytes

Mycobacterium avium frequently causes disseminated disease in patients with advanced AIDS with low CD4 counts. The effects of T lymphocyte on intracellular M. avium replication were examined. Plastic adherent monocytes and nonadherent lymphocytes were separated from peripheral blood mononuclear cells. After infection with M. avium, monocytes were cultured with or without autologous lymphocytes (1-10 cells/monocyte) for up to 7 days. Addition of lymphocytes to M. avium-infected monocytes significantly decreased intracellular M. avium growth after 7 days culture (n = 11, P < 0.01, paired t test) and increased IFN-gamma production compared to monocytes alone. Neutralizing IFN-gamma partially abrogated lymphocyte activity. CD4 depletion diminished anti-mycobactericidal effects and CD8(+) lymphocytes increased intracellular M. avium growth (P < 0.05, n = 5, t test). These data suggest that interactions between monocytes and nonadherent cell fractions such as CD4(+) T cells and NK cells are important in intracellular M. avium growth modulation in monocytes from healthy humans.     

Surface contact modulation of inflammatory macrophage antibody dependent cytotoxicity and prostanoid release.

Adherence to extracellular matrix proteins modulates the functional and secretory activities of mononuclear phagocytes, although the mechanisms regulating these adherence-dependent changes are poorly understood. In this study, the ability of rat inflammatory peritoneal macrophages (PM) to adhere to an endothelial cell-derived extracellular matrix or a denatured collagen/fibronectin-coated surface and perform antibody dependent cell cytotoxicity (ADCC) and secrete reactive oxygen intermediates was compared with PM adherent to tissue culture plastic. Prostaglandin E2 (PGE2) and thromboxane B2 (TxB2), two major cyclooxygenase products released by inflammatory macrophages, were also measured by PM adherent to the protein coated surfaces. Rat exudate PM were equally adherent to tissue culture plastic or wells coated with either endothelial cell derived matrix or denatured collagen (gelatin)/fibronectin. PM adherent to a denatured collagen/fibronectin-coated wells demonstrated significantly less cytolytic activity (15 +/- 2% lysis) when compared with either tissue culture plastic adherent PM (43 +/- 7% lysis) or PM adherent to extracellular matrix (59 +/- 11% lysis). PM adherent to extracellular matrix released twofold more TxB2 than plastic adherent PM, while PM adherent to denatured collagen/fibronectin released 40% more PGE2 than cells adherent to tissue culture plastic or 80% more PGE2 than PM adherent to the extracellular matrix. PM adherent to denatured collagen/fibronectin release less superoxide anion (27 +/- .9 nmoles/10(6) PM) than PM adherent to either tissue culture plastic (43 +/- 1 nmoles/10(6) PM) or the extracellular matrix (60 +/- 0.5 nmoles/10(6) PM). Furthermore, incubation of plastic adherent PM with exogenous PGE2 reduced superoxide production in a dose-dependent manner. These results demonstrate that the inhibition of ADCC and secretion of reactive oxygen intermediates by PM adherent to a denatured collagen/fibronectin surface correlated with an increased release of the immunosuppressive prostanoid PGE2. Furthermore, the addition of exogenous PGE2 to plastic adherent PM reproduced the depression in ADCC and superoxide anion production observed by PM adherent to a denatured collagen/fibronectin surface. These studies suggest that the increased production and release of PGE2 by inflammatory macrophages adherent to a denatured collagen surface may act to suppress cytotoxic mechanisms and thereby constitutes part of an autocrine feedback mechanism regulating macrophage function during wound injury.     

Induction of prolyl hydroxylase activity in a nonadherent population of human leukocytes

A nonadherent population of human monocytes has been shown to express the collagen hydroxylating enzyme prolyl hydroxylase in vitro. Enzyme levels present in freshly isolated nonadherent cells were induced 300% during the first 72 hours of culturing, which could be suppressed by cycloheximide. Maximum induction required both a feeder layer of adherent leukocytes, and 10-15% autologous plasma. Biosynthesis of Clq, a protein which also is hydroxylated by prolyl hydroxylase, by the nonadherent cells was significantly less than the adherent monocytes. Therefore, this collagen biosynthetic marker enzyme was not associated with Clq synthesis, which suggests that the enzyme is present for collagen biosynthesis.     

Interleukin-2-induced production of interferon-gamma by resting human T cells and large granular lymphocytes: requirement for accessory cell factors, including interleukin-1

Between 5 and 20% of normal human lymphocytes were found to synthesize interferon-gamma (IFN-gamma) in primary cultures with recombinant interleukin-2 (rIL-2). After 22 hr, IFN-gamma-producing cells included CD5+ T lymphocytes, CD16+ large granular lymphocytes (LGL), and a population of CD5-, CD16- blast cells. Only a small proportion (0-7%) of IFN-gamma-synthesizing cells expressed HLA-DR. The production of IFN-gamma by all rIL-2-responding lymphocyte subsets was shown to require the presence of DR+ accessory cells, probably including nonadherent, esterase-negative monocytes and/or dendritic cells. Accessory cell function in lymphocyte preparations depleted of DR+ cells, or in purified (greater than or equal to 95%) suspensions of LGL, was fully replaced either by addition of 2% autologous, adherent monocytes or by monocyte culture supernatant. The activity of monocyte supernatant was greatly reduced by treatment with antiserum specific for human interleukin-1 beta (IL-1 beta), although a combination of rIL-1 beta and rIL-2 failed to stimulate IFN-gamma production in DR- lymphocytes. These results indicate that rIL-2-induced IFN-gamma synthesis in both T cells and LGL requires the synergistic activity of IL-1, and possibly of one or more other monokines, as yet unidentified.     

Estrogenic compounds suppressed interferon-gamma production in mouse splenocytes through direct cell-cell interaction

Here, we reported the effects of 17beta-estradiol (E2), isoflavone genistein (Gen), and daidzein (Dai) on the production of interferon (IFN)-gamma by splenocytes isolated from C57BL/6N mice. When mouse splenocytes were stimulated with lipopolysaccharide, E2, Gen, and Dai suppressed the production of IFN-gamma. However, when only nonadherent cell populations of splenocytes were tested, none of these estrogenic compounds suppressed IFN-gamma production. This result indicates that IFN-gamma production by nonadherent cell populations of splenocytes treated with estrogens is regulated by adherent cell populations. Moreover, direct cell-cell interaction between both populations was necessary for suppression of IFN-gamma production by nonadherent populations. In addition, E2 conjugated with bovine serum albumin inhibited IFN-gamma production as well as E2. This result suggests that the plasma membrane-associated estrogen receptor plays a prominent role in this suppression mechanism.     

Expression of gamma-interferon receptor in murine bone marrow-derived macrophages associated with macrophage differentiation: evidence of gamma-interferon receptors in the regulation of macrophage proliferation

The effect of purified, recombinant murine gamma interferon (IFN-gamma) on the regulation of macrophage proliferation induced by colony-stimulating factor 1 (CSF-1) was investigated. Although both hemopoietic stem cells (GM-CFC) and tissue-derived peritoneal exudate macrophages (PEM) proliferated in response to CSF-1, the more mature PEM were much more sensitive to an antiproliferative effect of IFN-gamma. The role of IFN-gamma receptor expression and its relationship to growth inhibition was examined. Bone marrow cells as a whole did not exhibit an appreciable amount of IFN-gamma receptor binding activity. Likewise, nonadherent (NA) cells derived from CSF-1-stimulated bone marrow cultures displayed low levels of IFN-gamma receptor binding activity. On the contrary, more mature adherent (AD) cells (monocytes/macrophages) from the same culture exhibited high levels of IFN-gamma receptor binding activity, which continued to increase with culture time. The elevated IFN-gamma binding activity is due to an increase in total receptor number rather than the binding affinity as judged by Scatchard analysis. Similar to the relationship between PEM and GM-CFC, more mature AD cells were also more susceptible to the inhibitory effect of IFN-gamma on CSF-1-induced proliferation than their less mature NA counterparts. The fact that the sensitivity to IFN-gamma correlated well with the expression of existing IFN-gamma receptors strongly suggests that the inhibitory effect is mediated through IFN-gamma receptors. This study shows that the expression of IFN-gamma receptors in mononuclear phagocytes may not only represent one of the phenotypic parameters acquired by the growing macrophages during the process of differentiation, but may play some role in controlling proliferation.     

Further studies on generation of macrophages in in vitro cultures of mouse spleen cells and its inhibition by the capsular polysaccharide of Klebsiella pneumoniae.

Although the number of macrophages detected in cultures of mouse spleen cells at the start of the culture was very small, it markedly increased during further incubation. Macrophages were generated not only from the glass-adherent cell fraction of spleen cells, but also from the nonadherent cell fraction obtained after removal of adherent cells either by incubating in glass petri dishes or by passing through a glass bead column. The generation of macrophages from the nonadherent cell fraction occurred even when it was separated as late as 48 hr after the start of the culture. The phagocytic activity of macrophages newly generated from the nonadherent cell fraction was relatively weak, but it was activated during further incubation. Based on these results, the maturation process of macrophages can be divided into at least the following four stages; glass-nonadherent nonphagocytic precursor cells, glass-adherent nonphagocytic precursor cells, immature macrophages with low phagocytic activity, and mature macrophages with full phagocytic activity. The addition of the capsular polysaccharide of Klebsiella pneumoniae (CPS-K) to cultures of spleen cells markedly suppressed the generation of macrophages. The suppressive effect of CPS-K depended on its dosage, and the minimum concentration of CPS-K showing a definite effect was 0.05 μg/ml. CPS-K inhibited further generation of macrophages in either the nonadherent or adherent cell fraction at any time after the start of the culture. The suppressive effect of CPS-K on the generation of macrophages could not be reversed by simple washing of spleen cells which had been kept in contact with CPS-K for 3 hr. There was no evidence which showed that CPS-K exhibited direct cytotoxic effects on spleen cells in the culture.     

Endotoxin-induced interferon-gamma production in culture cells derived from BCG-infected C3H/HeJ mice

The cultured cells prepared from the spleens and peritoneal exudate cells of the C3H/HeJ strain of mice produce very little or no interferon (IFN) by stimulation of bacterial lipopolysaccharide (LPS). However, the cells taken from LPS-non-responder C3H/HeJ mice which had been infected with Mycobacterium bovis bacillus Calmette-Guérin (BCG) prior to the experiment were capable of producing IFN in culture in the presence of LPS. The peritoneal exudate cells of BCG-primed C3H/HeJ mice were separated into adherent cell and nonadherent cell populations by their adhesiveness to plastic culture dishes. IFN production required the presence of both these cell populations in the same culture, and the IFN activities produced were mainly IFN-gamma. The cultures with nonadherent cells and fixed adherent cells still produced IFN, but the cell cultures reconstituted with the BCG-primed cell population and unprimed cell population produce little if any IFN-gamma. Moreover, when both of the populations were cultured in Marbrook culture vessels separated by a membrane filter, the cultures produced very little or no IFN-gamma. These results indicate that there is a mechanism of IFN-gamma induction by LPS which requires the direct contact between adherent cells and nonadherent cells without the participation of any soluble factor(s) from the adherent cells. The producer cells were mainly in the nonadherent cell population. Previous treatment of nonadherent cells with anti-Thy-1.2 antibody, anti-Lyt-1.1 antibody, anti-L3T4 antibody, or anti-asialo-GM1 antibody and complement diminished the ability of the cells for LPS-induced IFN production with the help of adherent cells. Therefore, it is concluded that both T cells (presumably L3T4+T cells) and asialo-GM1+ natural killer cells in the BCG-primed C3H/HeJ cell cultures produced IFN-gamma in the presence of LPS, and the production was supported by the function of macrophages.     

My 43, a monoclonal antibody that reacts with human myeloid cells inhibits monocyte IgA binding and triggers function

A mAb My 43 of the IgM isotype was obtained from a fusion of spleen cells immunized against human monocytes. This mAb inhibited monocyte binding of both soluble FITC-labeled IgA and IgA-coated E, whereas it did not inhibit IgG binding. The Ag recognized by My 43 was induced on HL-60 cells in parallel with IgA binding ability by 1-25 dihydroxy-vitamin D3 treatment. Phagocytosis of IgA-coated E by monocytes and 1-25 dihydroxyvitamin D3-treated HL-60 cells was inhibited by My 43. Furthermore, a heteroantibody of My 43 x F(ab)'2 anti-E promoted phagocytic uptake of E by monocytes. Production of superoxide anion by IFN-gamma treated U-937 cells was stimulated by My 43 but not by other IgM mAb recognizing myeloid cells. By these criteria My 43 recognized a molecule capable of triggering function. Moreover, its binding reactivity, ability to block binding of IgA and IgA-complexes, and its ability to induce activation of IgA receptor bearing myeloid cells, are consistent with the possibility that My 43 reacts with the IgA receptor on these cells.     

Protection of cultured human monocytes from lymphokine-activated killer-mediated lysis by IFN-gamma

We have recently reported that IL 2-activated killer (LAK) cells are capable of lysing cultured human monocytes. In an effort to protect autologous monocytes from lysis, we treated monolayer cultures of adherent PBMC with various doses of human rIFN-gamma and assessed their susceptibility to LAK cells. IFN-gamma was shown to lessen the sensitivity of monocytes to lysis in a dose-dependent manner. Similar treatment of FMEX, an NK-resistant melanoma tumor cell line, with IFN-gamma did not affect its susceptibility to LAK lysis. Kinetic studies demonstrated that as little as 2 h incubation with IFN-gamma was sufficient for the protective effects to take effect. Additionally, monocytes that were pulsed with IFN-gamma for 2 h, washed, and then cultured in medium alone retained their resistance to lysis for at least 3 days. Cold target inhibition studies showed that IFN-treated and untreated monocytes could effectively compete with each other for binding sites on LAK cells. Furthermore, binding studies demonstrated that there was no significant difference between the number of conjugates formed by using either IFN-treated or untreated monocytes. This indicates that resistance to lysis induced by IFN treatment affects a post-binding event and not an initial recognition signal. From these studies, it was apparent that treatment of monocytes with IFN-gamma lessened their sensitivity to LAK-mediated lysis. Thus, it may be possible through a specific sequence of IFN-gamma and IL-2 treatment that LAK activity could be manipulated against some tumor cells, but not normal cells, to abrogate some of the toxicity seen with this type of cancer therapy.     

Monocyte dependence of pokeweed mitogen-induced differentiation of immunoglobulin-secreting cells from human peripheral blood mononuclear cells.

Human peripheral blood mononuclear cells (PBM) lost the capacity to generate immunoglobulin-secreting cells (ISC) in response to pokeweed mitogen (PWM) when depleted of adherent cells (AC). The diminished responsiveness of the nonadherent cells (NAC) could not be ascribed to cell death, altered PWM dose response characteristics, or a change in the length of incubation required to generate a response. Supplementation with autologous or homologous AC, but not 2-mercaptoethanol, restored the capacity of NAC to generate ISC after PWM stimulation. By standard criteria AC were found to contain 85 to 90% monocytes. Furthermore, the monocytes and not the few lymphocytes contaminating the AC were responsible for restoring PWM responsiveness to the NAC. PWM-induced DNA synthesis of NAC also was markedly reduced compared to PBM. Again, supplementation with monocytes restored responsiveness to NAC. The monocyte dependence of PWM-induced proliferation and generation of ISC was most apparent when cultural conditions were employed that limited cell-to-cell interaction.     

Characterization of a novel low affinity receptor for IFN-gamma on adherent human monocytes by radioligand binding studies and chemical cross-linking

Freshly isolated monocytes in suspension express 2000 to 4000 high affinity receptors for IFN-gamma. Because monocytes change phenotypically as they migrate out of the circulation and adhere to extracellular matrix, modulation of the expression of IFN-gamma receptors may occur. In order to determine if adherence alone modulates the receptor for IFN-gamma, we have studied receptor expression in adherent human peripheral blood monocytes. Elutriation-purified monocytes were allowed to adhere to polystyrene overnight at 37 degrees C. These cells now expressed 1 to 2 x 10(5) low affinity (Ka = 10(8) liters/M) receptors for [125I]rIFN-gamma. Binding to this receptor was specific and saturable. The expression of these receptors occurred rapidly (within 3 h) after adherence and was not inhibited by cycloheximide treatment. Binding to the receptor was abrogated by treating cells with trypsin, but was enhanced after treatment with alkaline protease or proteinase K. mAb against the high affinity receptor did not block binding to the low affinity receptor on adherent cells. The low affinity receptor transduced a signal to the cell as measured by the IFN-gamma-induced enhancement in FcR for human IgG1. The structure of the receptor on adherent cells was investigated by chemical cross-linking techniques. A receptor-[125I]rIFN-gamma complex was observed by SDS-PAGE to have a Mr of 180,000 to 200,000. Reduction of this complex with 2-ME resulted in the loss of the high Mr complex and the appearance of a doublet of lower Mr of 68,000 and 82,000. In contrast, cross-linking of monocytes in suspension yielded a complex of 110,000 to 120,000 Mr, which was unchanged upon reduction. Upon adherence, human monocytes express large numbers of a novel receptor for rIFN-gamma which is capable of stimulating the cell. This receptor appears to be composed of at least two components which are disulfide linked and structurally differs from the high affinity receptor on nonadherent monocytes.     

Thymic stromal cells in culture. 2. Binding of normal thymocytes to a cloned thymic stromal cell line.

Thymic stromal cell line TS-9 was found to selectively bind a subpopulation of normal murine thymocytes. Selective binding allowed the isolation and phenotypic characterization of the adherent and nonadherent subpopulations of thymocytes. Flow cytometric analysis of fluorescently labeled thymocytes revealed that the adherent and nonadherent populations differ in maturity, with the adherent population enriched in immature thymocytes of the PNAhi, Thy-1hi, CD3-/lo, and CD4+/CD8+ double positive surface phenotype. A quantitative microwell assay was developed to measure the binding of thymocytes to TS-9. Thymocytes labeled with vital DNA stain Hoechst 33342 were allowed to bind to TS-9 in microwells and the intense fluorescence of this label was readily detected with a scanning fluorometer. The binding was trypsin-sensitive and hyaluronidase and PI-PLC resistant. The binding was also temperature dependent and sensitive to cytochalasin B. A panel of monoclonal antibodies to cell surface antigens including CD2, LFA-I/ICAM-I, and Thy-1 was screened in a quantitative binding assay for their ability to inhibit the binding of thymocytes to TS-9. The binding was partially inhibited by the C3C12 monoclonal antibody which recognizes the recently identified and apparently unique gp23,gp45 complex expressed on murine stromal cells.     

Vaccination with live Escherichia coli expressing Brucella abortus Cu/Zn superoxide-dismutase: II. Induction of specific CD8+ cytotoxic lymphocytes and sensitized CD4+ IFN-gamma-producing cell

Previously we reported that immunization with Escherichia coli DH5alpha-expressing Brucella abortus Cu/Zn superoxide dismutase [E. coli (pBSSOD)] induces a protective immune response in BALB/c mice. Here we studied the type of immune defense that the recombinant E. coli induces in mice using as our experimental model Brucella superoxide dismutase Cu/Zn presented by J744.A1 to sensitized lymphocytes as the target of specific lysis or as cytokine inductors. The results indicate that E. coli carrying the Cu/Zn gene was able to induce specific cytotoxic T cells, mainly from CD8(+) subpopulation and IFN-gamma-producing cells belonging in their vast majority to the CD4(+) subpopulation.     

Cellular penetration of fluorescently labeled superoxide dismutases of various origins.

BACKGROUND: Using fluorescently labeled superoxide dismutase (SOD) and flow cytometry, we have shown previously that the enzyme CuZn SOD (EC 1.15.1.1) from bovine erythrocytes binds rapidly to the cell surface with slow uptake into the cell during the following hours. The degree of labeling was most important for monocytes in comparison to other blood cells (erythrocytes, lymphocytes, and neutrophils) and fibroblasts. In agreement with the flow-cytometric findings, the inhibition of superoxide production was more important for SOD-pretreated monocytes than for neutrophils, as demonstrated with the cytochrome c reduction assay. It was thus of interest to confirm the observed differences between monocytes and neutrophils with confocal laser microscopy, study in greater detail the kinetics of binding, penetration, and intracellular localization of the enzyme, and compare the results obtained with bovine CuZn SOD with those from SODs of other origins and carrying different active sites. MATERIALS AND METHODS: Recombinant human (rh), bovine, and equine CuZn SODs, as well as rh and E. coli Mn SODs, were studied before use with respect to specific activity and purity (HPLC, SDS-PAGE electrophoresis). Fluorescein isothiocyanate was covalently conjugated to the various SODs for study with high-resolution confocal scanning laser microscopy. Superoxide production by monocytes and neutrophils was measured with the cytochrome c assay. RESULTS: As expected from our experiments with flow cytometry, only rare neutrophils were labeled with FITC-SOD, even with the longest incubation time of 3 hr and the highest dose of 1500 units/ml. In addition, they showed a localized fluorescence pattern that was quite different from the diffuse punctate fluorescence pattern of monocytes. Lymphocytes were not labeled at all. The rapid binding to the cellular surface of monocytes was confirmed, and even after 5 min of preincubation, FITC-SOD was found on a small percentage of monocytes. This was correlated with a reduction in superoxide release after phorbolmyristate acetate (PMA) stimulation by 40%. An interesting finding was the perinuclear accumulation of the penetrated SOD after the longest pretreatment of 3 hr, suggesting a barrier against further progression. Indeed, through confocal microscopy we were able to exclude any fluorescence at the nuclear level. While the fluorescence labeling patterns and the kinetics of penetration were quite similar for bovine, equine, and rh CuZn SOD, the Mn SODs showed poor labeling, correlated with a weak inhibitory effect on cytochrome c reduction, which was not statistically significant. CONCLUSIONS: The rapid binding of native CuZn SODs on the surface of monocytes, leading to reduced superoxide release by these cells, explains the observation that beneficial effects of injected SOD lasted for months despite rapid clearance of the enzyme from the bloodstream, according to pharmacodynamic studies. The preferential binding to monocytes, in contrast to neutrophils, may play a role in chronic inflammatory diseases in which the monocytes are in an activated state. The differences in binding capacity between CuZn SODs and Mn SODs, correlated with different inhibitory effects of superoxide production by monocytes, may also have therapeutic significance.     

Reduction in the number of UCHL-1+ cells and IL-2 production in the peripheral blood of patients with visceral leishmaniasis.

PBMC from patients with visceral leishmaniasis (VL), before and after successful antimony therapy, were analyzed for their phenotypes and for their ability to produce IL-2 and IFN-gamma and to proliferate against PHA and leishmanial Ag. In agreement with results of earlier studies, PBMC from active VL patients showed a markedly reduced proliferative response and IL-2 and IFN-gamma production, compared with those of healthy controls. The levels of CD4+ and CD8+ T cells were within the normal range, but there was a significant decrease in UCHL-1+ cells (helper-inducer), compared with healthy individuals. The inhibited cellular responses, and lymphokine secretion and decreased level of UCHL-1+ cells in the PBMC of the VL patients returned to the normal range after successful chemotherapy. PBMC from active VL patients were fractionated into adherent cells and nonadherent cells, and the non-adherent were further fractionated into UCHL-1+ and UCHL-1- subpopulations. Results from cell depletion and reconstitution experiments suggest that the IL-2 production by nonadherent cells stimulated with PHA was inhibited by adherent cells, but the IL-2 production by nonadherent cells in response to specific Ag was not. In contrast, UCHL-1- cells seem to mediate the inhibition of Ag-driven IL-2 production by nonadherent cells but not mitogen-stimulated IL-2 secretion by nonadherent cells. Ag-specific IL-2 production principally involves UCHL-1+ cells.     

Mechanism of human monocyte activation via the 40-kDa Fc receptor for IgG

It is shown that a mAb specific for the human 40-kDa FcR (FcRII) leads to activation of human monocytic cells but that extensive cross-linking of the receptor is required. Calcium mobilization can be induced in immature monocytic cells (undifferentiated U937 cells) and peripheral blood monocytes with an intact IgG1 anti-FcRII antibody (CIKM5) but not by F(ab')2 fragments of this antibody. The intact antibody can bind in a tripartite manner by its two F(ab') sites and its Fc-binding site whereas the F(ab')2 fragments of this antibody can only bind in a divalent fashion. A rise in intracellular free calcium ion concentration occurs when F(ab')2 fragments are cross-linked with F(ab')2 anti-mouse Ig indicating that more extensive cross-linking of FcRII is required rather than an obligatory requirement for an Fc-FcRII interaction. Calcium mobilization in response to intact or cross-linked F(ab')2 fragments of CIKM5 is associated with superoxide production only in IFN-gamma-primed peripheral blood monocytes and IFN-gamma differentiated U937 cells indicating that the activation signal produced via FcRII is inadequate to fully stimulate non-"primed" cells. A second mAb reactive with FcRII (2E1) does not cause calcium mobilization in monocytes or U937 cells, and partially blocks the effects of CIKM5. 2E1 also blocks CIKM5 superoxide production in IFN-gamma-primed monocytes and differentiated U937 cells. This may be explained in part by the fact that 2E1 is an IgG2a antibody and can only participate in bipartite binding with FcRII. When 2E1 is cross-linked with F(ab')2 anti-mouse Ig there is a small calcium response. This does not cause superoxide generation in IFN-primed monocytes but does do so in IFN-gamma differentiated U937 cells. FcRII is also expressed on granulocytes and some B cells but the effects of cross-linking the receptor on these cells differ from those seen in monocytes.     

Cell adhesion promotes Ebola virus envelope glycoprotein-mediated binding and infection

Ebola virus infects a wide variety of adherent cell types, while nonadherent cells are found to be refractory. To explore this correlation, we compared the ability of pairs of related adherent and nonadherent cells to bind a recombinant Ebola virus receptor binding domain (EboV RBD) and to be infected with Ebola virus glycoprotein (GP)-pseudotyped particles. Both human 293F and THP-1 cells can be propagated as adherent or nonadherent cultures, and in both cases adherent cells were found to be significantly more susceptible to both EboV RBD binding and GP-pseudotyped virus infection than their nonadherent counterparts. Furthermore, with 293F cells the acquisition of EboV RBD binding paralleled cell spreading and did not require new mRNA or protein synthesis.     

TNFalpha elicits association of PI 3-kinase with the p60TNFR and activation of PI 3-kinase in adherent neutrophils

Tumor necrosis factor (TNFalpha) is an incomplete secretagogue in neutrophils and requires the engagement of beta integrins to trigger secretion of superoxide anion (O(-)(2)). The p60 TNF receptor (p60TNFR) is responsible for signal transduction for activation of O(-)(2) generation. Activation of TNFalpha-triggered O(-)(2) generation in neutrophils adherent to fibrinogen-coated surfaces involves the beta2 integrin receptor CD11b/CD18. Phosphoinositide 3-kinase (PI 3-kinase) is essential for activation of O(-)(2) generation; wortmannin, an inhibitor of PI 3-kinase, inhibited TNFalpha-elicited O(-)(2) generation. p60TNFR immunoprecipitated from neutrophils was associated with immunoreactivity to PI 3-kinase in adherent neutrophils exposed to TNFalpha, but not in TNFalpha-treated neutrophils in suspension. In addition, PI 3-kinase immunoprecipitated from TNFalpha-activated neutrophils showed enhanced activity in adherent but not in nonadherent neutrophils. These findings suggest that synergism between CD11b/CD18 and p60TNFR in the presence of TNFalpha is required to elicit assembly of a signaling complex involving association of p60TNFR with PI 3-kinase, activation of PI 3-kinase, and generation of O(-)(2).