Bacterial lipopolysaccharide, phorbol myristate acetate, and muramyl dipeptide stimulate the expression of a human monocyte surface antigen, Mo3e

Exposure of mononuclear phagocytes to bacterial lipopolysaccharide (LPS), phorbol myristate acetate (PMA), or muramyl dipeptide (MDP) is known to stimulate a variety of cellular activities that include increases in phagocytosis, oxidative metabolism, synthesis and secretion of monokines, and cytotoxicity of microbes and tumor cells. We now report that culture of human peripheral blood monocytes in medium containing LPS, phorbol compounds, or MDP also results in the acquired expression of a plasma membrane antigen. Mo3e, as identified by a murine monoclonal antibody. Mo3e is barely detectable (by immunofluorescence flow cytometry) on freshly isolated monocytes, but is expressed in high antigen density after exposure of cells to E. coli, Salmonella minnesota, or Serratia marcescens LPS (at concentrations exceeding 0.1 ng/ml), PMA (and other biologically active phorbol compounds) (0.5 to 1 X 10(-8) M), or MDP (0.01 to 1 X 10(-6) M). Mo3e expression stimulated by LPS is prevented by pretreatment of LPS with polymyxin B, suggesting that the lipid A portion of LPS is responsible for Mo3e induction (polymyxin B has no effect on Mo3e expression stimulated by PMA or MDP). Culture of monocytes in medium containing protein synthesis inhibitors (or at 4 degrees C) blocks the acquisition of Mo3e. Recombinant IFN-gamma, which is also known to "activate" mononuclear phagocytes, does not stimulate Mo3e expression, although both LPS and IFN induce enhanced expression of monocyte Ia antigen. Analogous to their stimulatory effect on monocytes, LPS and PMA induce Mo3e expression by the human monocytic cell line, U-937. On the basis of these observations, Mo3e may represent an immunologic marker for monocyte activation stimulated in vitro by LPS, PMA (and related compounds), and MDP.     

Inhibition of macrophage priming by sulfatide from Mycobacterium tuberculosis

Sulfatide from the outer surface of Mycobacterium tuberculosis blocked priming in cultured human monocytes. Monocytes were primed in vitro with either lipopolysaccharide (LPS) or interferon-gamma. Primed monocytes released increased amounts of superoxide anion (O2-) when stimulated with formyl-methionyl-leucyl-phenylalanine or with phorbol myristate acetate. Primed monocytes also showed increased phagocytosis of sheep erythrocytes and increased release of interleukin 1. When primed monocytes were treated with 10 micrograms/ml of sulfatide, these enhanced functions, characteristic of primed monocytes, returned to levels found in unprimed monocytes. (With respect to these functions and others, monocytes or macrophages primed in vitro by exposure to LPS or interferon-gamma resemble macrophages activated in vivo by infection. In vivo, activated macrophages provide non-specific resistance to infection). Inhibition of priming by sulfatide could be detected within 10 min, but maximum effect of sulfatide required 3 to 5 hr. Sulfatide had no effect on O2- release, if it was added after the cells had been stimulated by PMA, suggesting that sulfatide did not inhibit enzymes involved in formation of O2-, but rather that sulfatide inhibited priming. Increasing the amounts of LPS or interferon-gamma did not counteract the effects of sulfatide. Sulfatide did cause monocytes to release some prostaglandin E2 (less than 1 nM), but the amount was not sufficient to inhibit monocyte functions. The effect of sulfatide was not blocked by indomethacin. Other sulfated compounds and other products of mycobacteria did not produce the sulfatide effect. We conclude that M. tuberculosis has on its outer surface a chemical that directly interferes with monocyte priming. In vivo, M. tuberculosis might use sulfatide to block macrophage activation and thereby resist being killed by macrophages.     

Stimulus-specific effects of endotoxin on superoxide production by rabbit polymorphonuclear leukocytes

The release of superoxide (O2-) by polymorphonuclear leukocytes (PMN) is an important function that contributes to microbial death. Controversy exists as to the effect of bacterial endotoxin (lipopolysaccharide, or LPS) on the production of O2-. We have injected rabbits with 25 micrograms Escherichia coli LPS intravenously and studied PMN function 18 to 24 hours later. Relative to PMN from saline-injected controls, PMN from LPS-treated rabbits released markedly greater amounts of O2- in response to 10 ng/ml phorbol myristate acetate (PMA) as measured by nmol cytochrome C reduced in 20 minutes (40.8 +/- 7.8 for LPS-treated PMN versus 10.1 +/- 1.6 for control, p less than 0.01). LPS injection, however, significantly reduced O2- release in response to C (complement) 5a (1.4 +/- 0.6 nmole/20 minutes for LPS-treated PMN versus 5.6 +/- 1.3 nmole/20 minutes for control, p less than 0.01). O2- release in response to a third stimulus, n-formyl-methionyl-leucyl-phenylalanine (10(-7) to 10(-9) M), was not affected by LPS. O2- release in response to PMA was enhanced over a wide range of PMA concentrations (10 to 300 ng/ml). Kinetic studies over 30 minutes indicated that, after a brief initial latency in measurable response, LPS enhanced responsiveness to PMA at all time points observed. The reduced responsiveness to C5a corresponds to a previously reported down regulation of receptors for this ligand after intravenous LPS. The observations indicate that intravenous LPS can alter a critical function of PMN for at least 24 hours in a stimulus-specific manner.     

Mycobacterium lepraemurium activates macrophages but fails to trigger release of superoxide anion

Mycobacterium lepraemurium failed to stimulate a normal respiratory burst when presented to mouse peritoneal or bone marrow macrophages. By comparison, Mycobacterium bovis (strain Bacillus Calmette-Guerin) or Saccharomyces cerevisiae, as expected, stimulated macrophages to release a large amount of superoxide anion (O2-). M. lepraemurium did not interfere with the response to yeast when both microbes were added together to macrophages. The low release of O2- induced by M. lepraemurium was not due to failure of M. lepraemurium to activate or prime macrophages, because exposure of macrophages to M. lepraemurium caused the expected enhancement of O2- release when the macrophages were stimulated by PMA. Similarly, macrophages taken from mice infected with M. lepraemurium were activated, as indicated by high PMA-stimulated O2- release. Macrophages primed in vitro by exposure to Escherichia coli LPS for 24 h did show a moderate O2- response when stimulated by M. lepraemurium, but macrophages primed by exposure to IFN-gamma muramyl dipeptide, or M. lepraemurium showed a weak response when subsequently challenged with M. lepraemurium. The priming effect of M. lepraemurium or LPS decreased substantially after macrophages were cultured in fresh medium for 24 h. Heat killing or opsonization of M. lepraemurium caused the M. lepraemurium to stimulate a high amount of O2- release from LPS-primed macrophages, but heat killing or opsonization of M. lepraemurium had no effect on release of O2- from unprimed macrophages. The results suggest that M. lepraemurium is taken into macrophages by a mechanism that bypasses the FcR and other receptors that are capable of triggering the production of O2-.     

Neutrophil responses to lipopolysaccharide. Effect of adherence on triggering and priming of the respiratory burst.

We studied neutrophil responses to LPS using three methodologic refinements: Teflon bags or serum-coated glass tubes that did not directly trigger neutrophils, LPS-free cytochrome c to measure O2- release, and heat-inactivated serum to inhibit inactivation of LPS by neutrophils. Neutrophils incubated in uncoated glass or plastic tubes adhered to the glass and released O2-, but were not primed for enhanced release of O2- in response to triggering by FMLP. Triggering by the glass or plastic surface did not occur if the neutrophils were stirred to prevent adherence. Adherence to glass or plastic and O2- release were not affected by a mAb (IB4) directed against the beta-chain of the leukocyte adhesion family of surface glycoproteins (CD11/CD18). Neutrophils incubated in glass or plastic did not show enhanced expression of alkaline phosphatase on their surface. When neutrophils were incubated in serum-coated glass tubes or in Teflon bags, there was no O2- release. However, adherence, expression of alkaline phosphatase, and release of O2- were triggered by adding 1 ng/ml LPS plus 1% serum, but not by either LPS or serum alone. In the presence of LPS and serum, O2- release was much higher when the cells were unstirred (adherent) rather than stirred. However, both unstirred and stirred cells expressed a similar elevated level of alkaline phosphatase. LPS-triggered O2- release and adherence were inhibited by antibody IB4. In contrast, priming by LPS for enhanced FMLP-triggered O2- release was greater in stirred cells than in unstirred cells. The antibody enhanced priming of unstirred neutrophils. These results suggested that uncoated glass or plastic triggered O2- release without involvement of leukocyte adhesion glycoproteins. However, neutrophils incubated with LPS and serum expressed alkaline phosphatase and IB4-inhibitable adherence glycoproteins that allowed neutrophils to interact with serum-coated glass or Teflon to trigger O2- release. Priming by LPS for enhanced response to FMLP was suppressed in adherent neutrophils, and this suppression was partly released by IB4. Thus, triggering and priming were reciprocally regulated by neutrophil glycoproteins interacting with surfaces.     

Effects of immune complexes on production by human monocytes of interleukin 1 or an interleukin 1 inhibitor

The objective of these studies was to examine the ability of phorbol myristic acetate (PMA), Fc fragments, and various forms of immune complexes to induce the production by human monocytes of factors stimulatory to chondrocytes or thymocytes. All of these materials were prepared free of detectable contamination with bacterial lipopolysaccharides (LPS) at the level of less than 0.1 ng/ml. Supernatants and lysates from stimulated human monocytes were assayed for their ability to induce collagenase production in cultured rabbit articular chondrocytes or to augment mitogen-induced proliferation of murine thymocytes. The activity detected by these assays exhibited an m.w. of approximately 15,000, and electrophoretic heterogeneity in the pH ranges of 5 to 5.5 and 6.5 to 7.0, characteristics of human interleukin 1 (IL 1) or IL 1-like factors. Monocytes cultured with 2 ng/ml LPS produced chondrocyte and thymocyte stimulatory factors. PMA, Fc fragments, and soluble, precipitated, particulate, or adherent immune complexes were inactive in stimulating the monocytes. However, complement fixation by precipitated immune complexes did generate activity capable of inducing monocytes to synthesize and secrete chondrocyte and thymocyte stimulatory factors. Adherent immune complexes and PMA were biologically active, as evidenced by induction of superoxide generation in the human monocytes. Supernatants from monocytes cultured on adherent immune complexes contained a factor inhibitory to chondrocyte and thymocyte responsiveness. This factor had a m.w. approximately 22,000 and appeared to inhibit specifically IL 1 stimulation, not interleukin 2 stimulation or cell proliferation. It was concluded that PMA, Fc fragments, and various forms of immune complexes in the absence of complement do not induce IL 1 production in human monocytes. However, complement fixation by immune complexes does lead to activation of monocytes to produce IL 1. Monocytes cultured on adherent immune complexes produce an IL 1 inhibitor.     

Endotoxin suppresses the generation of O2- and H2O2 by "resting" and lymphokine-activated human blood-derived macrophages

In evaluation of macrophage-activating principles other than lymphokines, we systematically investigated the effects of endotoxin on the formation of reactive oxygen intermediates measured by chemiluminescence. Surprisingly, endotoxin exposure of human blood monocytes cultured in vitro for 36 h lessened in a dose-dependent manner the amount of O2- and H2O2 secreted in response to phagocytosis of opsonized particles or to PMA, a soluble stimulant. Blunting of the respiratory burst by endotoxin was independent from the state of macrophage activation. Endotoxin thus impaired formation of reactive oxygen metabolites before, during, or after activation of macrophages by IFN-gamma. The median effective concentration (EC50) was 1.95 ng/ml LPS in resting macrophages and 7.22 ng/ml in IFN-gamma-activated macrophages with as little as 0.1 ng/ml reproducibly giving detectable inhibition. Lipid A, but not "detoxified" monophosphoryl lipid A gave an inhibition comparable to that of complete LPS. The inhibitory effect of endotoxin was attenuated by dexamethasone, but not by inhibitors of arachidonic acid metabolism. Because endotoxin induces and dexamethasone inhibits production of some monokines, it is tempting to speculate that endotoxin is part of an autoregulatory system of mononuclear phagocytes for the control of excessive production of potentially harmful oxidants. The two monokines identified to be secreted in response to LPS and to be inhibited by dexamethasone, IL-1 and TNF, had, however, no comparable effect on chemiluminescence.     

Phorbol ester-stimulated superoxide production by murine bone marrow-derived macrophages requires preexposure to cytokines

Murine resident peritoneal macrophages (RPM) generate superoxide (O2-) in response to stimulation with PMA or zymosan. Murine bone marrow-derived macrophages (BMM) generate O2- in response to zymosan but not PMA. However, the ability to generate O2- in response to PMA could be induced in BMM by pre-exposing the cells to certain cytokines, including granulocyte-macrophage CSF (GM-CSF), tumor necrosis factor-alpha (TNF-alpha), IFN-gamma, and, to a lesser extent, IL-1 alpha. Bacterial LPS also induced the ability to respond to PMA. These same agents were also shown to prime RPM for enhanced PMA-induced respiratory burst. In contrast to GM-CSF, CSF-1 did not enhance the ability of BMM or RPM to generate O2- in response to PMA. Pretreatment with GM-CSF or TNF-alpha did not significantly affect the zymosan-induced release of O2- by BMM. These results suggest that unprimed BMM have a deficiency in the PMA-dependent signaling pathway that is corrected by exposure to selected cytokines. The results also raise the possibility that the basal ability of tissue macrophages to generate a respiratory burst in response to PMA may be a reflection of in vivo exposure to cytokines.     

Production and characterization of cytostatic protein factors released from human monocytes during exposure to lipopolysaccharide and muramyl dipeptide

The effect of activating human monocytes in vitro with lipopolysaccharide (LPS) and muramyl dipeptide (MDP) on the production of cytostatic protein factor(s) (CF) has been investigated, and an antiserum against CF has been raised and tested. Upon incubation for 7 hr with LPS, in vitro differentiated human monocytes released CF. During LPS exposure, the presence of the protein synthesis inhibitor cycloheximide, at concentrations which reduced the overall protein synthesis by 60 and 80%, reduced the amount of CF released by only 20 and 40%, respectively. This indicates that the released CF was to a large extent already present in the monocytes before exposure to LPS. Compared to LPS, MDP induced only modest CF release. However, when lymphokine-activated monocytes were exposed to MDP, an increased CF release was observed. By immunizing a rabbit with CF purified by ion-exchange chromatography, chromatofocusing, and gel filtration, an antiserum was raised which neutralized the cytostatic activity released from monocytes exposed to LPS or lymphokines/LPS in sequence on the fourth day of culture. The cytostatic activity obtained by incubating freshly isolated monocytes with LPS was inhibited by the antiserum to a lesser extent, indicating the presence of other cytotoxins or cytotoxic cellular products in addition to CF in supernatants from freshly isolated monocytes. Various CF preparations were tested for IL-1 activity; no correlation between IL-1 activity and cytostatic activity was observed. Moreover, upon gel filtration the CF and IL-1 activities could be separated from each other and are consequently associated with different proteins.     

Effect of cisplatin, rIFN-Y, LPS and MDP on release of H2O2, O2- and lysozyme from human monocytes in vitro.

Increased secretion of H2O2, O2- and lysozyme by human monocytes in vitro on treatment with cisplatin, rIFN-Y (interferon-Y), LPS (lipopolysaccharide) and MDP (muramyl dipeptide) is reported. It is suggested that increased production of these secretory products represent the activated state of monocytes. These in vitro activated monocytes could either kill the tumor cells via increased contact mediated cytolysis or cytolysis mediated via the release of the secretory products like H2O2, O2- and lysozyme.     

Effect of catalase on the proliferation of human lymphocytes to phorbol myristate acetate

Phorbol esters have been documented to stimulate the proliferation of human blood mononuclear cell cultures. In addition, these agents are also known to stimulate the production and release of reactive oxygen species by monocytes. We demonstrated previously that H2O2, one of these oxygen metabolites, impairs the proliferative capacity of human blood lymphocytes. Therefore, in these experiments, we determined whether or not the H2O2 released by monocytes after activation by PMA modifies the proliferation of lymphocytes to this agent. Human blood mononuclear cells (80% lymphocytes and 20% monocytes) were incubated with PMA, and lymphoblastic transformation (LBT) was quantitated at 3 and 5 days by pulsing the cultures with thymidine. Initial experiments established that the concentration of PMA required for optimal LBT was 50 ng/ml. We then demonstrated that this concentration of PMA also induces a burst in hexose monophosphate shunt activity and H2O2 production of mononuclear cells as indicated by the enhanced oxidation of 14C-glucose and 14C-formate, respectively. The amount of H2O2 released into the medium was substantial. Our measurements indicate that the concentration of H2O2 could reach values as high as 0.008 mM during the first 2 hr of the cultures. The addition of catalase to PMA-treated cultures in concentrations sufficient to scavenge the H2O2 released by the monocytes was associated with an enhanced thymidine uptake (mean 79%). These results indicate that the hydrogen peroxide released by the monocytes modifies the response of lymphocytes to the PMA. Paradoxically, mononuclear cell cultures depleted of monocytes also had a lower proliferation to PMA than mononuclear cell cultures. This observation indicates that monocytes also produce factors required for lymphocyte proliferation to PMA such as an interleukin. In contrast, to PMA cultures, catalase did not alter the proliferation of mononuclear cell cultures stimulated by PHA. We previously documented that PHA does not stimulate an immediate burst in the oxidative metabolism of mononuclear cultures. Therefore, the effect of catalase in these two culture systems appears to correlate with the capacity of the mitogen to stimulate the oxidative metabolism of mononuclear cells. These observations suggest that the release of reactive oxygen species by monocytes may modify the response of lymphocytes to antigens both in vitro and in vivo.     

LPS-stimulated release of prostaglandin E and thromboxane B2 from the U937 cell line

Human monocytes are known to metabolize arachidonic acid (AA) and to release prostaglandins upon stimulation. Previous data indicate that in vitro maturation and differentiation of monocytes result in alteration of this property with greatly diminished response to stimulators of release of prostaglandin E (PGE) and thromboxane B2 (TxB2) occurring after cells have been cultured. To further study the effects of differentiation on human monocyte AA metabolism, a model system was established based upon the human histiocytic cell line U937. Among tested stimulants, which included opsonized zymosan, complement fragment C3b, phorbol myristate acetate (PMA), calcium ionophore A23187, and concanavalin A, it was found that Escherichia coli lipopolysaccharide (LPS) was unique in that it stimulated increased release of TxB2 from U937 cells. The effect of the phorbol ester PMA, a compound commonly used to induce differentiation of U937, on the ability of U937 to respond to LPS was examined. Following 48 hr of treatment with PMA, U937 became capable of releasing both PGE and TxB2 in response to small doses of LPS. As previously observed for human monocytes, the release of PGE was delayed for several hours following stimulation and failed to reach maximal cumulative levels in culture until 24-48 hr following stimulation. In contrast to human monocytes, PMA-induced U937 were capable of maintaining their responsiveness to LPS for several days. Thus, the U937 cell line provides a useful model for study of the effects of differentiation of human mononuclear phagocytes on their ability to metabolize AA, and for the effects of LPS on histiocytic tumor cell prostaglandin release.     

Macrophage colony-stimulating factor (M-CSF) enhances the capacity of murine macrophages to secrete oxygen reduction products

The capacity of macrophage colony-stimulating factor (M-CSF) to enhance respiratory burst activity in peritoneal macrophages was measured. Macrophages incubated for 48 hr or more with concentrated L cell-conditioned medium as a source of M-CSF released two to three times as much O2- in response to PMA as did unexposed macrophages. Stimulation was noted at concentrations of colony-stimulating activity from 0.1 to 2000 U/ml and was maximal at 10 to 100 U/ml. Purified, endotoxin-free CSF enhanced secretion to a similar degree as unpurified L cell-conditioned medium. Release of O2- by M-CSF macrophages occurred over 60 min and was triggered by opsonized zymosan as well as PMA. H2O2 release was also enhanced in macrophages exposed to both unpurified and purified M-CSF. These data indicate that M-CSF enhances the capacity of mature macrophages to release oxygen reduction products, and they are consistent with reports that CSF can stimulate the release of other secretory products.     

Effects of disodium ethane-1-hydroxy-1,1-diphosphonate (EHDP) on interleukin 1 production by macrophages

The effects of disodium ethane-1-hydroxy-1,1-diphosphonate (EHDP) on the in vitro functions of guinea pig macrophages were studied. A high dose (1 mg/ml) of EHDP inhibited interleukin 1 (IL 1) production by oil-induced peritoneal macrophages stimulated with muramyl dipeptide (MDP), lipopolysaccharide (LPS), phorbol myristic acetate (PMA), heat-aggregated IgG2 or calcium ionophore A23187. On the other hand, low doses (less than 0.125 mg/ml) of EHDP augmented the MDP induced IL 1 production by macrophages. This biphasic effect was also observed when macrophages were exposed to EHDP at 37 C for 24 hr and then stimulated with IL 1 inducers. Superoxide anion generation induced by formyl peptide or PMA was not affected by preincubation of the macrophages with doses of EHDP up to 1 mg/ml. Adherence and spreading of macrophages was inhibited by EHDP in a dose dependent manner without affecting cell viability. These results demonstrated that EHDP acted on macrophages directly and modulated IL 1 production in vitro.     

Lipopolysaccharide stimulates monocyte adherence by effects on both the monocyte and the endothelial cell

The effects of the LPS moiety of endotoxin on monocyte adherence to an endothelial cell surface were investigated over times before the development of well described LPS-induced endothelial cell surface adhesive molecules. In an in vitro microtiter adherence assay, LPS in concentrations of 10 ng/ml to 10 micrograms/ml incubated for 20 to 60 min with human monocytes significantly stimulated monocyte adherence to human umbilical vein endothelial cell monolayers (HUVEC) and serum-coated plastic surfaces. The time course and concentration dependence of LPS-stimulated monocyte adherence to glutaraldehyde-fixed HUVEC did not differ significantly from that to unfixed HUVEC or serum-coated plastic surfaces. Pretreatment studies suggested that LPS acted on the monocyte within 25 min to stimulate adherence to untreated endothelial cells but required a minimum of 1.5 to 2 h to render the endothelial cell more adhesive for untreated monocytes. The potential role of TNF-alpha, IL-1 alpha, and IL-1 beta in this system was assessed by determining the ability of these cytokines (+/- cytokine antibodies) to increase monocyte adherence. TNF, but neither IL-1, stimulated early monocyte adherence (1 h). This TNF-stimulated monocyte adherence was abrogated by coincubation with anti-rTNF-alpha polyclonal antibody. However, the anti-rTNF antibody had no effect on LPS-induced monocyte adherence to endothelial cells or serum-coated plastic surfaces. An early action of LPS on the monocyte to induce adherence to endothelial cell surfaces may contribute to the initial localization of peripheral blood monocytes in tissues during endotoxemia. The later effects of LPS on the endothelial cell to stimulate monocyte adherence may then amplify these initial monocyte-endothelial cell interactions to prolong and intensify monocyte adherence prior to migration into tissues.     

Cross-linking of beta2 integrins caused diminished responses of neutrophils to priming agents like lipopolysaccharide or tumor necrosis factor-alpha: possible involvement of tyrosine kinase Syk

Neutrophils up-regulate beta2 integrins like CD11b/CD18 in response to lipopolysaccharide (LPS). Up-regulation of beta2 integrins causes neutrophils to adhere to surfaces, and to release superoxide anion (O2-). When neutrophils are exposed to LPS plus plasma under conditions not favorable for adherence (absence of Mg2+), the cells do not spontaneously release O2-, but instead they are primed for enhanced release of O2- after subsequent triggering by fMLP. In the presence of Mg2+, neutrophils adhere in response to LPS but fMLP-triggered O2- release by LPS-primed neutrophils is diminished. To understand why adherence interferes with the response of neutrophils to N-formyl-methionyl-leucyl-phenylalanine (fMLP), beta2 integrins were cross-linked by mouse monoclonal antibodies that had been immobilized by surface-bound anti-mouse antibody. When unprimed neutrophils were trapped on the surface by these cross-linked monoclonal antibodies, O2- release was triggered, and priming by LPS for fMLP-triggered O2- release was diminished, indicating that this cross-linking of beta2 integrins mimicked adherence. Alkaline phosphatase is up-regulated by LPS or tumor necrosis factor-alpha, and this response was also diminished by the cross-linking antibodies. The diminished alkaline phosphatase up-regulation was reversed by genistein, a general inhibitor of tyrosine kinases, and by piceatannol, an inhibitor for Syk kinase. Piceatannol also inhibited the phosphorylation of Syk caused by cross-linking of beta2 integrins. These results suggested that adherence-induced triggering and Syk kinase activation might be responsible for the diminished response of LPS-primed neutrophils to fMLP when neutrophils were adherent.     

Priming of neutrophils by lipopolysaccharide for enhanced release of superoxide. Requirement for plasma but not for tumor necrosis factor-alpha

When human neutrophils are incubated with LPS, they become primed for enhanced release of O2- in response to stimulation by FMLP. We investigated two aspects of LPS priming: 1) whether priming depends on secretion of TNF-alpha by monocytes present in neutrophil preparations, and 2) whether plasma is required for priming. Using plasma-Percoll gradients, we isolated neutrophils that contained only 0.1% monocytes. At 37 degrees C, these neutrophils were significantly primed by LPS (100 ng/ml) within 30 min. In contrast, LPS-treated monocytes required 60 min to secrete significant neutrophil-priming activity, the major component of which was TNF-alpha. Further, antibody against TNF-alpha failed to inhibit priming of neutrophils by LPS at 15, 30, and 45 min, and inhibited only 15% at 60 min. The results suggested that TNF-alpha or other factors from monocytes were not essential for priming of neutrophils by LPS. Neutrophils that had been washed free of plasma by centrifugation through 50% Percoll responded only weakly to LPS with respect to priming for enhanced O2- release and increased expression of alkaline phosphatase activity on the cell surface. Priming of washed neutrophils could be restored by adding back plasma (0.1 to 1.0%). This effect of plasma was not blocked by heating the plasma to 56 degrees C but was blocked at 100 degrees C. LPS priming could be blocked by polymyxin B, even in the presence of plasma. Thus, priming required both LPS and plasma. Neutrophils incubated with LPS in the absence of plasma were not primed by subsequent addition of plasma, but were primed by addition of plasma and LPS. Culture supernatants from neutrophils incubated with 20 ng/ml LPS in the absence of plasma failed to prime fresh neutrophils, but supernatants from neutrophils incubated with LPS in the presence of 1% plasma were able to prime fresh neutrophils. These results implied that neutrophils inactivated LPS and that plasma protected LPS from inactivation. Nevertheless, such inactivated LPS retained the ability to gel Limulus lysate at 10 pg/ml, and the ability to prime monocytes at 100 pg/ml. Thus, plasma prevented a neutrophil-specific inactivation of LPS.     

LPS and cytokine-induced endothelial cell IL-6 release and ELAM-1 expression; involvement of serum.

In this in vitro study, the influence of serum-concentration, heat inactivation of the serum and the origin of the serum on the responsiveness of cultured human umbilical vein endothelial cells (HUVEC) to immunological challenges was investigated. Addition of human serum during stimulation with 1 microgram/ml bacterial lipopolysaccharide (LPS) increased endothelial cell ELAM-1 expression and interleukin (IL)-6 release five to ten-fold. Full endothelial cell responsiveness to LPS required 10 to 50% human serum and was largely abrogated after heating the serum for 30 minutes at 56 degrees C. Addition of newborn or fetal bovine serum instead of human serum, induced even higher IL-6 release and ELAM-1 expression in response to LPS, whilst heat-inactivation of these serum-batches only moderately decreased endothelial cell responses. Endothelial cell IL-6 release and ELAM-1 expression after stimulation with IL-1 beta and tumor necrosis factor-alpha (TNF-alpha) were less influenced by heat inactivation of the serum and by omission of serum, whilst responses to PMA remained completely unaffected by such modifications in assay media. Finally, we demonstrated that endothelial cell IL-8 release also and ICAM-1 expression in response to LPS and cytokines were increased by addition of human serum, indicating that the use of serum-free assay media, or the use of media enriched with heat-inactivated (HI) human serum interferes with physiological endothelial cell responsiveness.(ABSTRACT TRUNCATED AT 250 WORDS)     

Lipopolysaccharide exposure during purification of human monocytes by adherence increases their recovery and cytolytic activity

Exposure of monocytes to lipopolysaccharide (LPS) during, but not after, adherence purification increased their cytolytic activity in short-term 51Cr-release assays against K562 target cells. In the absence of LPS only a minority of monocytes could be recovered by adherence. With 1 ng/ml to 10 micrograms/ml LPS present during the 1-hr adherence procedure, however, monocytes spread more extensively on serum-coated plastic and glass surfaces and virtually all of the monocytes in a mononuclear leukocyte preparation were recovered in the adherent fraction. While increasing the recovery of monocytes threefold, LPS exposure during adherence also increased monocyte purity as assessed by peroxidase staining, morphology, and indirect immunofluorescence with monoclonal Mo2. The proportion of Leu-11-positive NK cells in the adherent fraction did not change. Depletion of NK cells by treatment with anti-Leu-11b and complement eliminated cytolytic activity from the nonadherent, but not from the adherent, fraction isolated with LPS. Thus, addition of LPS during adherence produced a monocyte preparation with enhanced cytolytic activity not attributable to NK contaminants. To test whether LPS caused production of lymphokines that activate monocytes, we tested supernatants of unseparated mononuclear leukocytes for the capacity to stimulate purified monocytes for cytolysis. Such supernatants stimulated monocytes more effectively than LPS alone. We conclude that LPS stimulates monocytes for cytolysis most effectively during adherence purification because LPS allows the recovery of weakly adherent monocytes with high cytolytic capacity; also, LPS may stimulate production of lymphokines that further augment monocyte cytolytic activity.