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A key functional/phenotypic difference between naive and memory T cells is the ability of memory and activated T cells to home to sites of inflammation by adhering to vascular endothelial cells. To determine if this trait could be used to separate naive T cells from memory T cells, CD4+ T cells were incubated with monolayers of IFN-gamma-primed vascular endothelial cells after which the phenotypic and functional characteristics of the nonadherent population were assayed. The nonadherent population 1) contained a five-fold decrease in the frequency of cells displaying the CD44(high)/CD45RB(low) "memory" phenotype and 2) responded well to allostimulation but displayed a reduced ability to respond to immobilized anti-CD3 antibody and, when isolated from ovalbumin-immunized mice, displayed a reduced recall response to ovalbumin in vitro. These studies demonstrate that rwo brief incubations of T cells with monolayers of IFN-gamma-primed endothelial cells can significantly enrich for naive T cells as determined by both phenotypic and functional analyses.

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Tumor necrosis factor (TNF) is a pleiotropic cytokine known to regulate cell growth, viral replication, inflammation, immune system functioning, angiogenesis, and tumorigenesis. These effects are mediated through two different receptors, TNFR1 and TNFR2 (also called p60 and p80, respectively), with p60 receptor being expressed on all cell types and p80 receptor only on cells of the immune system and on endothelial cells. Although the role of p60 receptor in TNF signaling is well established, the role of p80 is less clear. In this report, by using macrophages derived from wild-type mice (having both receptors) and mice in which the gene for either p60 (p60(-/-)), or p80 (p80(-/-)), or both (p60(-/-) p80(-/-)) receptor have been deleted, we have redefined the role of these receptors in TNF-induced activation of nuclear factor (NF)-kappa B and of mitogen-activated protein kinases. TNF activated NF-kappa B in a dose- and time-dependent manner in wild-type macrophages but not in p60(-/-), p80(-/-), or p60(-/-) p80(-/-) macrophages. These results correlated with the I kappa B alpha degradation needed for NF-kappa B activation. We also found that TNF activated c-Jun N-terminal protein kinase in a dose- and time-dependent manner in wild-type macrophages but not in p60(-/-), p80(-/-), or p60(-/-) p80(-/-) macrophages. TNF activated p38 MAPK and p44/p42 MAPK in wild-type but not in p60(-/-), p80(-/-), or p60(-/-) p80(-/-) macrophages. TNF induced the proliferation of wild-type macrophages, but for p60(-/-) and p80(-/-) macrophages proliferation was lower, and in p60(-/-) p80(-/-) it was absent. Overall, our studies suggest that both types of TNF receptors are needed in macrophages for optimum TNF cell signaling.

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Glucans are (1-3)-beta-D-linked polymers of glucose that are produced as fungal cell wall constituents and are also released into the extracellular milieu. Glucans modulate immune function via macrophage participation. The first step in macrophage activation by (1-3)-beta-D-glucans is thought to be the binding of the polymer to specific macrophage receptors. We examined the binding/uptake of a variety of water soluble (1-3)-beta-D-glucans and control polymers with different physicochemical properties to investigate the relationship between polymer structure and receptor binding in the CR3- human promonocytic cell line, U937. We observed that the U937 receptors were specific for (1-->3)-beta-D-glucan binding, since mannan, dextran, or barley glucan did not bind. Scleroglucan exhibited the highest binding affinity with an IC(50)of 23 nM, three orders of magnitude greater than the other (1-->3)-beta-D-glucan polymers examined. The rank order competitive binding affinities for the glucan polymers were scleroglucan>>>schizophyllan > laminarin > glucan phosphate > glucan sulfate. Scleroglucan also exhibited a triple helical solution structure (nu = 1.82, beta = 0.8). There were two different binding/uptake sites on U937 cells. Glucan phosphate and schizophyllan interacted nonselectively with the two sites. Scleroglucan and glucan sulfate interacted preferentially with one site, while laminarin interacted preferentially with the other site. These data indicate that U937 cells have at least two non-CR3 receptor(s) which specifically interact with (1-->3)-beta-D-glucans and that the triple helical solution conformation, molecular weight and charge of the glucan polymer may be important determinants in receptor ligand interaction.

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To evaluate the role of autocrine TNF-alpha signaling in macrophage activation, immortalized macrophages from normal mice (B6/J2) and from mice containing gene targeted disruptions of the type 1 and type 2 TNF-receptor genes (TRN) were stimulated under CD14-dependent or serum-free conditions. Although the B6/J2 and TRN clones mounted similar nitric oxide responses to LPS in the presence of serum, the TRN macrophages responded poorly when stimulated with LPS under serum free conditions. LPS stimulation of TRN and B6/J2 under serum-free conditions resulted in equivalent levels of IL-1beta, TNF-alpha, and iNOS gene expression. However, Western blot analysis revealed that iNOS protein production by TRN was 2-fold lower than that produced by B6/J2. These results indicate that autocrine TNF-alpha stimulation contributes to the signaling pathways initiated by ligation of LPS receptors in the absence of LBP and is involved in iNOS post-transcriptional regulation.

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Ligation of CD40 on monocytes through its interaction with CD40 ligand (CD154) present on activated T helper cells, results in activation of monocyte inflammatory cytokine synthesis and rescue of monocytes from apoptosis induced through serum deprivation. Both of these consequences of CD40 stimulation have been shown to be dependent on the induction of protein tyrosine kinase activity. CD40-mediated activation of protein tyrosine kinase activity and subsequent inflammatory cytokine production are abrogated by treatment of monocytes with the T helper type 2 cytokines interleukin 4 (IL-4) and interleukin 10 (IL-10). In the current study we demonstrate that stimulation of monocytes through CD40 resulted in the phosphorylation and activation of the extracellular signal-regulated kinases 1 and 2 (ERK1/2) mitogen-activated protein kinases, whereas phosphorylation of mitogen-activated protein kinases family members p38 and c-Jun N-terminal kinase was not observed in response to this stimuli over the time course examined. PD98059, an inhibitor of the upstream activator of ERK1/2, the MAP/ERK kinase MEK1/2, suppressed IL-1beta and tumor necrosis factor-alpha production in a dose-dependent fashion. Pretreatment of monocytes with IL-4 and IL-10 inhibited CD40-mediated activation of ERK1/2 kinase activity when used individually, and are enhanced in effectiveness when used in combination. Together, the data demonstrate that CD40-mediated induction of IL-1beta and tumor necrosis factor-alpha synthesis is dependent on a MEK/ERK pathway which is obstructed by signals generated through the action of IL-4 and IL-10.

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Previous studies have demonstrated that the interaction of CD40 on monocytes with CD40 ligand, present on activated CD4+ T cells, induces monocyte inflammatory cytokine synthesis and rescues monocytes from apoptosis. These findings suggest a role for CD40 signaling of monocyte activation in the maintenance and/or exacerbation of nonseptic (e.g., autoimmune) inflammatory responses. In the present study the effects of the modulatory cytokines IL-4 and IL-10 on CD40-mediated signaling of monocyte IL-1beta synthesis and rescue from apoptosis were examined. Both IL-4 and IL-10 decreased CD40-dependent IL-1beta synthesis in a dose-dependent manner individually and synergized in this effect when used concurrently, with minimal effect on CD40 surface expression. CD40 signaling of IL-1beta synthesis was shown to be dependent on the induction of protein tyrosine kinase (PTK) activity, and both IL-4 and IL-10 diminished CD40-mediated tyrosine phosphorylation of monocyte cellular proteins. However, IL-4, but not IL-10, blocked CD40-mediated rescue from apoptosis, an event that we have demonstrated previously to be dependent on PTK activity as well. Together these results suggest that in monocytes 1) both IL-4 and IL-10 target CD40-induced PTK activity in the down-regulation of IL-1beta synthesis; and 2) IL-4 and IL-10 have divergent effects on the CD40 signaling pathway, in that these cytokines are synergistic with respect to their abilities to inhibit CD40-mediated IL-1beta synthesis and differ in their abilities to block CD40-mediated rescue from apoptosis.

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Macrophages play diverse roles in episodic T cell-mediated inflammatory diseases such as multiple sclerosis and rheumatoid arthritis, function as accessory cells for T cell activation, as pro-inflammatory cells, as effector cells which mediate tissue damage, and as anti-inflammatory cells which promote wound healing. In addition to the many roles of T cell-derived cytokines in differentially modulating these diverse macrophage activities, research over the last few years has demonstrated that contact-dependent signaling which occurs during T cell-macrophage adhesion is a critical triggering event in the activation of macrophage function. Substantial research emphasis has been placed on CD40 as a mediator of contact dependent signaling. However, other membrane-anchored receptor:ligand pairs may also contribute to the stimulation of macrophage function. This is a brief review of the rapidly expanding, but still incomplete, knowledge of how T cells, through both contact-dependent and cytokine signals, regulate macrophage function during inflammatory disease.

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In the presence of interferon-gamma (IFN-gamma), human tumor necrosis factor-alpha (Hu-TNF-alpha), which binds to murine TNF-alpha receptor type 1 (TNF-R1) but not to murine TNF-R2, was effective in inducing nitric oxide (NO) production in spleen-derived macrophages (M phi), albeit at concentrations 12.5-fold greater than those required by murine TNF-alpha (Mu-TNF-alpha), to achieve the same result. Addition of anti-TNF-R1 completely inhibited the Mu-TNF-alpha-mediated induction of NO, demonstrating that TNF-R1 is critical to the IFN-gamma-dependent TNF-alpha-mediated induction of M phi effector function. However, treatment with anti-TNF-R2 resulted in a partial inhibition of M phi activation. Spleen-derived M phi were more dependent on TNF-R2 than RAW 264.7 or peritoneal M phi based on their responsiveness to Hu-TNF-alpha. Priming of spleen-derived M phi with either IFN-gamma or granulocyte-macrophage colony-stimulating factor (GM-CSF) heightened the maximal responses to both TNF-alpha species and increased the overall effectiveness of Hu-TNF-alpha without increasing expression of either TNF-alpha receptor. The dependence of spleen-derived M phi on both TNF-alpha receptors for signaling the induction of effector function supports an active signaling role for TNF-R2 in its synergy with TNF-R1 rather than a passive ligand passing role.

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Circulating monocytes have a limited life span and will undergo apoptosis in the absence of specific stimuli. Recent studies have demonstrated that monocytes can be rescued from apoptosis via lipopolysaccharide (LPS) activation or stimulation with interleukin-1 or tumor necrosis factor-alpha. Based on previous studies from our laboratory, we hypothesized that, in nonseptic (e.g., autoimmune) inflammation, the presence of activated T cells may enhance monocyte longevity through T cell contact-dependent signaling. Plasma membranes prepared from 6 h activated (TmA) and resting (TmR) purified CD4+ T cells were added to resting elutriation-purified monocytes cultured in serum-free medium. Cells were assayed for degree of apoptosis occurring over a 72-h incubation using both agarose gel electrophoresis and flow cytometry. The addition of TmA (but not TmR) was capable of blocking monocyte apoptosis and the ability of TmA to rescue monocytes was abrogated by the addition of anti-CD40L antibodies. Rescue of monocytes from apoptosis could also be mediated by direct cross-linking of monocyte CD40. Inhibitors of tyrosine kinase activity blocked both TmA and anti-CD40-mediated rescue of monocytes from apoptosis, suggesting a primary role of a tyrosine kinase signaling pathway in the events controlling monocyte longevity.

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The expression of the ligand for CD40 (CD40L) is critical for induction of T cell-dependent Ab responses. To examine how critical the expression of CD40L is for induction of cell-mediated immune responses, the ability of T cells from CD40L knockout mice to activate macrophage effector function was assessed. CD4+ T cells from CD40L-knockout mice were fourfold less effective than +/+ T cells in activating the nitric oxide response in allogeneic macrophages. CD40L-knockout T cells that were fixed with paraformaldehyde after a 6-h activation period, a time point at which CD40L dominates the macrophage-activating capability of the T cell, could activate neither macrophage production of inflammatory cytokines (TNF-alpha) nor generation of reactive nitrogen intermediates. After 24 h of activation, however, both CD40L-knockout and +/+ T cells could induce similar but weak responses from the macrophages. This study demonstrates that animals deficient in CD40L expression display a deficiency in T cell-dependent macrophage-mediated immune responses.

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Most studies of the induction of cytokine synthesis in monocytes have employed an exogenous triggering agent such as lipopolysaccharide. However, in nonseptic inflammatory responses (e.g. rheumatoid arthritis) monocyte activation occurs as a result of T cell-generated signals. In previous reports, we and others have demonstrated that contact-dependent T cell-generated signals are capable of contributing to macrophage activation. We have shown that plasma membranes from anti-CD3 activated purified peripheral CD4+ T cells (TmA) but not from resting CD4+ cells (TmR) induce monocytes to synthesize interleukin (IL)-1 in the absence of co-stimulatory cytokines. Studies to determine the expression kinetics of the molecule(s) unique to activated CD4+ T cells which interact with monocytes to induce IL-1 revealed that optimal expression occurred at 6 h post activation. This matched the previously reported kinetics of expression of CD40 ligand (CD40L) on activated peripheral T cells, implicating the CD40-CD40L interaction as a candidate for the initiator of the IL-1 signaling event. The ability of TmA to induce IL-1 synthesis in resting monocytes could be markedly reduced by addition of a monoclonal anti-CD40L antibody, 5c8. In addition, a monoclonal anti-CD40 IgM (BL-C4) proved dramatic in its ability to induce resting monocytes to synthesize IL-1. In summary, these results demonstrate that the CD40-CD40L interaction provides a critical component of CD4+ T cell contact-dependent activation of monocyte IL-1 synthesis.

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We have examined the effect of staphylococcal glycocalyces on the ability of murine peritoneal macrophages to produce prostaglandin E2 (PGE2) and the inflammatory cytokines interleukin 1 (IL-1) and tumor necrosis factor alpha (TNF-alpha) and to generate nitric oxide. Glycocalyx partially purified under endotoxin-free conditions from defined liquid medium cultures of Staphylococcus lugdunensis or Staphylococcus epidermidis was a strong stimulator of PGE2 and IL-1 production. The addition of 10 to 100 micrograms of glycocalyx per ml induced levels of IL-1 and PGE2 production similar to that induced by 0.1 to 1 micrograms of Escherichia coli lipopolysaccharide (LPS) per ml. In contrast, glycocalyx induced ninefold less TNF-alpha and three- to fourfold less nitrite than LPS. A modulatory effect was suggested by the observation that the amount of TNF-alpha and nitrite generated remained constant whether the macrophages were stimulated with 10 or 100 micrograms of glycocalyx per ml. A selective modulation of macrophage activation was confirmed by the demonstration that costimulation of macrophages with both glycocalyx and LPS resulted in a reduction in TNF-alpha and nitrite generation relative to stimulation with LPS alone even though costimulation had no effect on PGE2 production and increased IL-1 production. Involvement of PGE2 in this modulatory effect was suggested by the ability of indomethacin to augment glycocalyx-stimulated TNF-alpha production and to reverse the inhibitory effect of glycocalyx on LPS induction of TNF-alpha production. However, the inability of indomethacin to reverse the inhibitory effect of glycocalyx on LPS-induced nitric oxide generation suggests that the selective modulation of macrophage function by glycocalyx may be more complex than increased sensitivity to PGE2 feedback inhibition.

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Previous studies have suggested that T cell contact-dependent signaling of macrophages (Mphi) is mediated by membrane tumor necrosis factor-alpha (memTNF-alpha), based on the observation that anti-TNF-alpha could inhibit T cell-mediated Mphi activation. The current report confirms that anti-TNF-alpha does inhibit activation of interferon-gamma (IFN-gamma)-primed Mphi by paraformaldehyde-fixed activated T cells. However, the involvement of membrane molecules other than memTNF-alpha in the contact-dependent signaling is suggested by two lines of evidence. First, the TH2 clone, AK8, displayed neither secreted TNF-alpha/beta nor memTNF-alpha/beta detectable by bioassay or immunofluorescence. Nonetheless, AK8 cells were equally effective, on a per cell basis, in contact-dependent signaling of M phi activation as TH2 and TH1 cells which do express memTNF-alpha. Second, the expression of memTNF-alpha by the TH2 clone, D10.G4, is maximal 24 h after activation, whereas the ability of this clone to activate Mphi is maximal at 6-8 of activation and declines thereafter. Since TNF-alpha is known to play a critical role in activation of Mphi effector function, it was hypothesized that T cell membrane components other than memTNF-alpha might signal Mphi production of TNF-alpha, thus allowing autocrine TNF-alpha stimulation of Mphi effector function. In support of this, it is demonstrated that paraformaldehyde-fixed activated TH2 cells can induce de novo production and release of TNF-alpha by Mphi. This effect was not an artifactual result of paraformaldehyde fixation since paraformaldehyde-fixed resting T cells did not induce TNF-alpha gene expression. Previous studies have demonstrated a role for autocrine TNF-alpha stimulation in LPS induction of effector function in recombinant IFN-gamma-primed Mphi. The current study confirms that TNF-alpha plays a critical role in T cell contact-dependent signaling of Mphi but indicates that memTNF on the T cells may not be a sine qua non factor for contact-dependent signaling. The data suggest that other T cell membrane molecules contribute to activation of Mphi effector function by stimulation of M phi TNF-alpha production.

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Macrophage generation of reactive nitrogen intermediates (RNI) represents a major effector mechanism in anti-microbial immunity and non-septic inflammatory reactions. The induction of macrophage RNI production has been demonstrated to require at least two signals which in microbial infections can be provided by interferon (IFN)-gamma and lipopolysaccharide (LPS). The current study demonstrates that, in the absence of LPS, T lymphocytes can provide cognate signal(s) which synergize with IFN-gamma in stimulating macrophage RNI production, as evidenced by the ability of plasma membranes from T cell clones to activate IFN-gamma-primed macrophages. Although viable resting T cells can activate IFN-gamma-primed macrophages by an interaction that is antigen specific, plasma membranes from resting T cells do not active macrophages. Plasma membranes from T cells activated by immobilized anti-CD3 were able to effectively induce RNI production in IFN-gamma-primed macrophages. However, in contrast to the antigen-specific interaction of macrophages with viable resting T cells, the activation of IFN-gamma-primed macrophages by membranes from activated T cells does not display antigen specificity. Plasma membranes from activated T helper TH2 and from activated TH1 cells were equally effective in activating IFN-gamma-primed macrophages, suggesting that the dominance of TH1 over TH2 cells in cell-mediated responses involving macrophage effectors is not a reflection of differences in their ability to interact with macrophages but rather is a reflection of their different pattern of cytokine production. These results suggest that the T cell-macrophage interaction involves reciprocal activation of both cells--an antigen-specific activation of the T cells which results in the acquisition of T cell membrane components involved in antigen-nonspecific stimulation of the macrophages.

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Both tumor necrosis factor-alpha and interferon-gamma are involved in the activation of macrophage cytocidal/cytostatic effector function. Recent studies provide evidence that, in non-septic inflammatory disease, T cells may activate macrophages primed by interferon-gamma either by providing tumor necrosis factor-alpha (in soluble or membrane-anchored form) or by inducing macrophage tumor necrosis factor-alpha production by antigen-non-specific cognate interactions. Conversely, T cells may inhibit macrophage activation by producing cytokines that inhibit either tumor necrosis factor-alpha production or interferon-gamma receptor signaling.

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The in vitro induction of cytostatic/cytotoxic activity in macrophages generated in spleen cell cultures requires a signal cascade initiated by costimulation with both LPS and IFN-gamma. Th2 lymphocytes, although they do not produce IFN-gamma, can provide the signals necessary for induction of cytostatic activity in IFN-gamma-primed macrophages. These signals appear to be delivered by cognate interaction between the Th2 cells and macrophages in that: 1) they are not delivered by culture supernatants of Th2 cells activated 6 or 20 h by Con A or by immobilized anti-CD3 mAb; 2) they are not delivered if cell contact between Th2 cells and macrophages is prevented; and 3) they can be delivered by paraformaldehyde-fixed activated Th2 cells. Paraformaldehyde-fixed resting Th2 cells cannot stimulate activation of INF-gamma-primed macrophages. The Th2 cells must be activated at least 3 h before fixation to acquire macrophage stimulatory activity. Optimal macrophage-stimulating activity is attained after 6-h activation of the Th2 and declines thereafter. Although the activation of IFN-gamma-primed macrophages by viable resting Th2 displays Ag specificity and MHC restriction, the activation of IFN-gamma-primed macrophages by paraformaldehyde-fixed activated Th2 is neither Ag specific nor MHC restricted. These observations suggest that T cell-mediated activation of macrophages can involve a signaling cascade of Ag-specific and Ag-nonspecific adhesion events comparable to those hypothesized to occur in T cell-mediated B cell activation.

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T cells capable of anamnestic proliferative responses to antigen in vitro (i.e., "memory" cells) have been shown to display the CD44hi CD45RBlo surface phenotype. To assess the state of activation of these T cells, CD4+ T cells expressing the CD44hi or CD45RBlo phenotype were compared to CD4+ T cells expressing the CD44lo or CD45RBhi phenotype in the context of expression of the "activated" (asialo-GM1hi) vs "resting" (asialo-GM1lo) phenotype and in the context of cell size, total protein content, and total RNA content. Dual fluorescence analysis demonstrated that all CD4+ T cells expressing the CD44hi phenotype also expressed the asialo-GM1hi phenotype associated with cell activation. In vitro proliferative assays confirmed that the CD4+ asialo-GM1hi, the CD4+ CD45RBlo, and the CD4+ CD44hi FACS-sorted populations displayed stronger in vitro responsiveness to stimulation with immobilized anti-CD3 mAB than the CD4+ asialo-GM1lo, CD45RBhi, or CD44lo populations. Acridine orange analysis of sorted CD44hi/lo fractions revealed that the diploid (G1) population of the CD44hi T cells displayed a higher mean RNA content than the CD44lo T cells. Similarly, the CD44hi T cells displayed a higher mean cell size and a higher mean total protein content than the CD44lo CD4+ T cells. Similar results were obtained with asialo-GM1 and CD45RB subsets of CD4+ T cells. The basal rate of protein synthesis, as determined by [3H]leucine incorporation, was approximately 50% higher in the CD44hi small CD4+ T cells than in the CD44lo CD4+ T cells. Based on the knowledge that cell size, total protein and RNA content, and responsiveness to signals inducing proliferation are lowest in G0 stage of cycle and increase through G1 stage of cycle, it appears that the CD44hi CD45RBlo T cells exist in a higher activation state than CD44lo CD45RBhi T cells. The previously demonstrated association of CD44hi CD45RBlo phenotype with memory T cells suggests that the CD44hi memory T cells are maintained in G1 (not necessarily cycling) rather than resting "out of cycle" in G0.

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The glycocalyx (exopolysaccharides) of Staphylococcus epidermidis has been reported to inhibit a variety of host defense mechanisms. We have examined the inhibitory effects of glycocalyx on the proliferation of human peripheral blood mononuclear cells (PBMC) and the mechanism of this inhibition. Glycocalyx isolated and partially purified under endotoxin-free conditions from defined liquid medium cultures of S. epidermidis and Staphylococcus lugdunensis inhibited the proliferative response of PBMC when added to cultures at 10 to 100 micrograms/ml. Glycocalyx-mediated inhibition of phytohemagglutinin-stimulated proliferation of PBMC required the presence of plastic-adherent peripheral blood monocytes. Culture supernatants of monocytes stimulated with glycocalyx contained a soluble factor that inhibited the proliferation of monocyte-depleted PBMC. This soluble inhibitory factor was not produced in the absence of glycocalyx or in the presence of both glycocalyx and indomethacin. Analysis of the supernatants of cultures of adherent monocytes revealed that glycocalyx from S. epidermidis and from S. lugdunensis could activate monocyte production of prostaglandin E2 (PGE2), human interleukin-1, and tumor necrosis factor alpha. The addition of purified PGE2, at the same levels of PGE2 (greater than or equal to 10(-9) M) generated in the monocyte cultures, to PBMC cultures resulted in a similar inhibition of proliferative responses. It is concluded that, contrary to previous suggestions, the bacterial glycocalyx does not have a direct inhibitory effect on T lymphocytes. However, it does appear that glycocalyx from coagulase-negative staphylococci can activate monocyte PGE2 production and that it is this activity that in turn contributes to the inhibition of T-cell proliferation.

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Splenic macrophages play a key role in regulating cell proliferation during a variety of chronic perturbations of the hematopoietic system. This regulatory activity is in sharp contrast to the activities of inflammatory monocytes/macrophages in that it is not dominated by the secretion of prostaglandins or toxic metabolites such as peroxides. A productive model for studying these nontoxic regulatory activities of splenic macrophages has been provided by macrophages generated in vitro (M phi-c) during autologous spleen cell culture. The M phi-c effectively inhibit (greater than 90%) lymphocyte proliferation by inhibiting G1----S phase progression without inhibiting the production of interleukins by the lymphocytes. Conditioned medium from M phi-c activated with LPS + rIFN-gamma effected a similar G1 arrest of activated lymphocytes. The involvement of IFN-beta in effecting the antiproliferative activity is suggested by (1) the ability of monospecific anti-IFN-beta mAB, but not anti-TGF-beta, anti-IL-1, anti-TNF-alpha, or anti-IFN-gamma, to neutralize the antiproliferative activity in the M phi-c supernatants and (2) the ability of purified IFN-beta to effect a similar inhibition of cell proliferation (i.e., G1 arrest without inhibition of interleukin production). rTNF-alpha and rIFN-gamma could not effect such an inhibition of cell proliferation and did not synergize with IFN-beta in producing such an antiproliferative effect. The M phi-c could be activated to effector function by a combination of LPS + rIFN-gamma or rTNF-alpha + rIFN-gamma, but not by any one of those reagents alone. LPS alone was sufficient to stimulate TNF-alpha production by the M phi-c. Activation of the M phi-c by LPS + rIFN-gamma could be completely blocked by anti-TNF-alpha antibodies. These data suggest that the M phi-c can be induced to produce inhibitory levels of cytostatic cytokines by a TNF-alpha autocrine loop that is IFN-gamma dependent. The in vivo relevance of this effector mechanism is suggested by, and discussed in the context of, the recent reports of "spontaneous" production of IFN-beta during immunological disorders.

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