The role of mitogens and lymphokines in the induction of ornithine decarboxylase (ODC) in T lymphocytes

Polyamine synthesis occurs early in lymphocyte activation after stimulation with antigen or mitogen. Ornithine decarboxylase (ODC) is the primary enzyme in the polyamine cascade. We have examined the induction of ODC by mitogens and/or lymphokines in human peripheral blood T lymphocytes. When isolated populations of monocytes and T lymphocytes were stimulated with phytohemagglutinin (PHA) there was little or no change in ODC activity. The combination of T lymphocytes and monocytes enhanced mitogen-induced ODC activity 10-fold. Several interleukin 1 (IL 1)-containing supernatants and fractionated human IL 1 were capable of substituting for monocytes in supporting PHA induction of ODC in T lymphocytes. Interleukin 2 (IL 2) and IL 2-containing supernatants were also capable of increasing ODC activity in T lymphocytes in the absence of monocytes. Lymphokines alone in the absence of PHA could not induce ODC. We conclude that both mitogens and monocytes are required for the induction of polyamine synthesis in T lymphocytes, and that supernatants containing IL 1 or IL 1 and IL 2 can substitute for monocytes in the induction of ODC in mitogen-stimulated T lymphocytes.     

Cytotoxicity of human peripheral blood monocytes

Native tumoricidal activity of human peripheral blood mononuclear cells was examined before and after their separation by counterflow centrifugation elutriation (CCE). Tumoricidal activity was found in the subpopulation of small mononuclear cells but not within the relatively pure subpopulation of large monocytes. Addition of lymphokine and/or lipopolysaccharide demonstrated that large monocytes were resistant to activation for tumor killing, in contrast to small mononuclear cells. However, cryopreservation or simply exposure to dimethyl sulfoxide (DMSO) rendered the large monocytes sensitive to activating agents without altering their unstimulated tumoricidal activity. Cryopreservation was not detrimental to small or large monocytes either in number or tumoricidal function but did decrease the number of large granular lymphocytes (LGL). The small mononuclear cell fraction was enriched for small monocytes to 80% by combining CCE with Percoll gradient separation. HNK-1 mouse monoclonal antibody against human LGL was used with complement to remove virtually all LGL from cryopreserved cells as judged by morphology and tumoricidal activity against K-562 human lymphoblastoid cells. Such treatment actually augmented rather than suppressed tumoricidal activity against P-815 mastocytoma cells. Therefore, we conclude that small monocytes but not large monocytes possess native tumoricidal activity distinct from that attributed to LGL or natural killer lymphocytes. Further, small monocytes are readily activated for tumor killing and can be cryopreserved without loss of tumoricidal activity.     

Ornithine decarboxylase in resting human mononuclear leucocytes: evidence for an endogenous inhibitor

1. Ornithine decarboxylase (ODC) was measured in human mononuclear leucocytes (HML) by retention of putrescine on cation exchange paper. 2. The method was validated with unstimulated HML, phytohemagglutinin-stimulated HML, and a commercial preparation of ODC. The average enzyme activity of unstimulated HML (50 samples) was 22.6 +/- 7.3 pmol/hr 10(7) cells, with 29 values less than 5 pmol/hr 107 cells. 3. The results show that an endogenous inhibitor or inactivator of ODC exists in unstimulated HML: enzyme activity in extracts of mitogen-stimulated cells were inhibited by extracts of unstimulated cells (37-55%) inhibition under the conditions used.     

Functional consequences of haem orientational disorder in sperm-whale and yellow-fin-tuna myoglobins.

With the use of the isoschizomeric restriction endonucleases HpaII and MspI, we found that mouse tumour ornithine decarboxylase (ODC; EC 4.1.1.17) genes are extensively methylated. ODC genes in L1210 mouse leukaemia cells were apparently more methylated than in Ehrlich ascites carcinoma, as revealed by the use of HpaII endonuclease, yet the digestion of genomic DNA isolated from these two murine tumour cell lines with MspI, which cleaves at a CCGG sequence, also with internally methylated cytosine, resulted in an apparently identical restriction pattern. It is possible that the amplification of ODC genes in Ehrlich ascites-carcinoma cells in response to 2-difluoromethylornithine (DFMO) was associated with hypomethylation, or that less-methylated genes were amplified. A human myeloma (Sultan) cell line only revealed three separate hybridization signals when cleaved with HpaII. One of these signals was amplified under the pressure of DFMO. When cleaved with MspI, these three HpaII fragments disappeared and were replaced by a double signal of 2.3-2.4 kilobase-pairs (kbp) in size. The amplified ODC sequences in the Sultan myeloma cell line apparently originated from chromosome 2, as indicated by a unique hybridization signal in a 5.8 kbp HindIII fragment specific for the human ODC locus on chromosome 2. A comparison of different human cells, the Sultan myeloma, a lymphocytic B-cell leukaemia (Ball), normal mononuclear leucocytes and leucocytes obtained from leukaemia patients, revealed interesting differences in the methylation of ODC genes. The use of two restriction endonucleases (HpaII and CfoI), the cleavage site for both of which contains a CG sequence and which only cleave when cytosine is unmethylated, indicated that ODC genes in the lymphocytic leukaemia cells were much less methylated than those in the normal leucocytes or in the Sultan cells.     

Interaction of human peripheral blood mononuclear cells with Coccidioides immitis arthroconidia

We explored the in vitro interaction of human peripheral blood mononuclear cells with the arthroconidial stage of the fungus Coccidioides immitis. Fresh peripheral blood monocytes in an adherent monolayer were capable of ingesting C. immitis. Further, peripheral blood monocytes from either skin-test-positive or skin-test-negative donors significantly decreased the in vitro growth of C. immitis when coccidioidal arthroconidia were incubated with monocytes. Peripheral blood mononuclear cells also reduced fungal incorporation of the chitin precursor N-acetyl glucosamine. Cell fractions consisting predominantly of monocytes were significantly more active in this regard than fractions containing predominantly lymphocytes. Moreover, this activity was independent of the coccidioidal skin-test status of the donor. We conclude that human fresh peripheral blood mononuclear cells are able to phagocytize C. immitis arthroconidia and have the ability to inhibit its growth in vitro. That these abilities are independent of the immune status of the donor supports the possibility that the peripheral blood monocyte may contribute to the early defense against initial coccidioidal infection.     

Separation of and cholesterol synthesis by human lymphocytes and monocytes.

We have devised techniques for the isolation of human monocytes which do not require the adherence of the cells to a surface. In 15 consecutive experiments using density-gradient and counterflow centrifugations, a population of mononuclear cells that was 75 +/- 11% monocytes was obtained within 2 hours of venipuncture. These cells had never been pelleted and represented approximately three-fourths of the monocytes that had been present in the whole blood. In another 22 consecutive experiments using sedimentation in gelatin followed by counterflow and density-gradient centrifugations, a population of lymphocytes that was 99.5 +/- 0.5% pure and a population of monocytes that was 94 +/- 3% pure were obtained within 3 hours of venipuncture. When these freshly isolated cells were incubated in the lipoprotein-deficient fraction of serum (d > 1.21 g/ml) or in solvent-extracted serum, the monocytes incorporated 10-20 times more [2-(14)C]acetate into sterols than did the lymphocytes. Monocytes were seen to constitute between 6 and 46% of the mononuclear cells isolated from normal individuals by the usual density-gradient centrifugation of whole blood on Ficoll-Hypaque. We conclude that future studies of cholesterol metabolism utilizing human mononuclear cells must take into account this large variation in the percentage of monocytes and their disproportionately greater activity during short-term incubations in media that induce sterol synthesis.-Fogelman, A. M., J. Seager, M. Hokom, and P. A. Edwards. Separation of and cholesterol synthesis by human lymphocytes and monocytes.     

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.     

The identification of specific high density lipoprotein3 binding sites on human blood monocytes using fluorescence-labeled ligand.

We previously reported the identity and purification of two HDL3-binding proteins in rat liver plasma membranes. As these proteins are candidate high density lipoprotein (HDL) receptors and probably multifunctional, including a role in HDL metabolism, we have considerable interest in identifying corresponding proteins that are present in human tissue. This report describes the identification of HDL3-binding sites on human monocytes with the use of fluorescence microscopy and flow cytometry assay. After the incubation of mononuclear cells from human blood with fluorescein isothiocyanate (FITC)-labeled human HDL3, fluorescence micrographs showed dense signals of fluorescent grains on monocytes, but not lymphocytes. A significant increase in FITC intensity on monocytes, but not lymphocytes, was observed by flow cytometry analysis, and the interaction between FITC-HDL3 and human monocytes was concentration-dependent. Although very low density (VLDL) and low density lipoprotein (LDL) were ineffective competitors and HDL2 only partially competed for binding, a 50-fold concentration of HDL3 did compete effectively for binding of FITC-HDL3 to human monocytes. Trypsin treatment reduced the FITC intensity of monocytes, showing that a portion of cell-associated FITC-HDL3 remained bound to the cell surface. Two major HDL-binding proteins were identified in CHAPS-solubilized human mononuclear cells by ligand blotting, using HDL3 as the ligand. Both showed similar binding parameters, specificity, and molecular weight identical to HB1 and HB2 from rat liver plasma membrane. We conclude that corresponding candidate HDL receptors or a similar receptor complex also exist on human blood monocytes.     

Mitogenic induction of ornithine decarboxylase in human mononuclear leukocytes: relationships with adenosine diphosphate ribosyltransferase

1. Relationships between ornithine decarboxylase (ODC) and adenosine diphosphate ribosyl transferase (ADPRT) in human mononuclear leukocytes (HML) were tested by statistical comparisons of their values in a group of 46 people, and by use of inhibitors of ADPRT. 2. ODC was assayed following exposure of HML, for 20 hr, to mitogens [phytohemagglutinin (PHA) and pokeweed mitogen]; ADPRT was measured following exposure of HML to H2O2 (100 microM) for 1 hr (activated ADPRT), and in parallel cultures without H2O2 (constitutive ADPRT). 3. Significant correlations were found between ODC and ADPRT values; the effects of smoking disturbed the correlations. PHA induction of ODC was negatively influenced by age (standardized beta coefficient = -2.95, P = 0.005), while age also influenced ADPRT values negatively in non-smokers (for H2O2 activated ADPRT, standardized beta coefficient = -2.74, P less than 0.008). 4. Inhibitors of ADPRT, nicotinamide, caffeine and benzamide inhibited the induction of ODC by PHA in a concentration-dependent manner, in the range (0.6-10 mM) known to inhibit ADPRT.     

Vimentin expressed on Mycobacterium tuberculosis-infected human monocytes is involved in binding to the NKp46 receptor

We previously showed that human NK cells used the NKp46 receptor to lyse Mycobacterium tuberculosis H37Ra-infected monocytes. To identify ligands on H37Ra-infected human mononuclear phagocytes, we used anti-NKp46 to immunoprecipitate NKp46 from NK cells bound to its ligand(s) on H37Ra-infected monocytes. Mass spectrometry analysis identified a 57-kDa molecule, vimentin, as a putative ligand for NKp46. Vimentin expression was significantly up-regulated on the surface of infected monocytes, compared with uninfected cells, and this was confirmed by fluorescence microscopy. Anti-vimentin antiserum inhibited NK cell lysis of infected monocytes, whereas antiserum to actin, another filamentous protein, did not. CHO-K1 cells transfected with a vimentin construct were lysed much more efficiently by NK cells than cells transfected with a control plasmid. This lysis was inhibited by mAb-mediated masking of NKp46 (on NK cells) or vimentin (on infected monocytes). ELISA and Far Western blotting showed that recombinant vimentin bound to a NKp46 fusion protein. These results indicate that vimentin is involved in binding of NKp46 to M. tuberculosis H37Ra-infected mononuclear phagocytes.     

Studies on phagocytosis of unopsonized rabbit erythrocytes by human monocytes

Monolayers of freshly isolated human monocytes are known to ingest particulate activators of the human alternative complement pathway. The ingestion of rabbit erythrocytes, ER, by human monocytes in serum-free medium was studied. The process is Mg2+-dependent and optimum phagocytic activity was obtained at approximately 20 mM MgCl2. Preincubation of mononuclear leukocytes increased the number of monocytes ingesting ER by at least twofold and this involved de novo protein synthesis, as evidenced by inhibition with cycloheximide. However, preincubation of the mononuclear leukocytes for longer periods (greater than 4 hr) caused a decrease in the percentage of ingesting monocytes. No inhibition of ingestion of ER was observed by cobra venom factor (CVF) or F(ab')2 rabbit anti-human C3 of F(ab')2 murine monoclonal anti-human Bb, known to inhibit C3 convertase activity. The ingestion was also not inhibited by (a) rabbit anti-human CR1, (b) OKM1 or anti-MO1, two monoclonal anti-CR3 antibodies, (c) goat anti-human IgG Fc receptor, or (d) mannan, a competitive inhibitor of ligand uptake by the mannosyl-fucosyl receptor (MFR). In contrast, ingestion was inhibited by glucan particles of yeast.     

IFN-gamma plus glucocorticoids stimulate the expression of a newly identified human mononuclear phagocyte-specific antigen

Glucocorticoid hormones, although able to exert profound immunosuppressive effects, do not suppress mononuclear phagocyte activation by IFN-gamma and may even enhance it. For example, expression and functional activity of the high affinity FcR for IgG on human mononuclear phagocytes (FcR gamma I) is increased by IFN-gamma and is maximal after co-treatment with IFN-gamma plus the glucocorticoid dexamethasone (DEX). To determine whether there are other mononuclear phagocyte surface Ag that are regulated in this manner, hybridomas were prepared using IFN-gamma-plus-DEX-treated human monocytes as immunogen. Five IgG1 mAb (Mac 2-8, 2-38, 2-48, 2-49, and 2-158) were developed that recognize a trypsin-sensitive mononuclear phagocyte-specific surface Ag of Mr 155,000. There was no detectable reactivity of these mAb to lymphocytes or granulocytes or to several cell lines, including U-937 and HL-60. The p155 Ag was detected on monocytes and increased significantly with time of culture or after treatment with DEX. Expression was maximal after co-treatment with rIFN-gamma plus DEX, but was inhibited or unaffected by treatment with IFN-gamma alone. For freshly isolated cells, expression of the p155 Ag was highest on peritoneal macrophages. Our results indicate that the p155 Ag is a newly identified Ag of the human mononuclear phagocyte lineage and may represent, in the least, a phenotypic marker of monocyte differentiation or maturation.     

Isolation of functional subsets of human peripheral blood monocytes.

Monocytes were isolated by counterflow centrifugation of Ficoll-Hypaque separated peripheral blood mononuclear cells. The monocytes formed a bimodal volume distribution of "large" and "small" phagocytic esterase-positive, peroxidase-positive cells with peaks at 470 and 410 mu3, respectively. The large monocytes were predominately Fc receptor positive, and were able to lyse both sensitized human and chicken erythrocyte targets in ADCC assays, whereas the small monocytes were largely FcR negative and were inactive against sensitized human erythrocyte targets. However, ADCC against chicken erythrocyte targets was seen in some fractions containing small monocytes and was probably due to FcR+ lymphocytes (K cells) in those fractions. These experiments establish that monocytes are effectors of ADCC against both human and chicken erythrocyte targets and that the peripheral blood monocyte is heterogeneous in size, function, and surface receptor distribution.     

EXPRESSION OF MONOCYTE CHEMOTACTIC PROTEIN-3 IN HUMAN MONOCYTES EXPOSED TO THE MYCOBACTERIAL CELL WALL COMPONENT LIPOARABINOMANNAN

Monocyte chemotactic protein-3 (MCP-3) is a C–C chemokine which interacts with the CCR1, CCR2 (MCP-1) and CCR3 receptors and has a distinct spectrum of action. The present study was designed to assess whether mycobacterial components were able to induce expression and production of MCP-3 in human monocytes. Mycobacterial lipoarabinomannan (LAM) induced expression of MCP-3 mRNA in human peripheral blood mononuclear cells. The non-mannose-capped version of lipoarabinomannan (AraLAM) was considerably more potent than the mannose-capped version ManLAM or the simpler version phosphatidylinositol mannoside (PLM). Among mononuclear cells, monocytes were responsible for LAM-induced MCP-3 mRNA expression. Whole mycobacteria (Mycobacterium bovisBCG) strongly induced MCP-3 expression. Pretreatment with actinomycin D abolished LAM-induced MCP-3 expression, whereas cycloheximide only partially reduced the expression. LAM-induced MCP-3 expression was associated with the production of immunoreactive PTX3. Interleukin 10 (IL-10) and IL-13 inhibited the induction of MCP-3 by LAM. Thus mycobacterial cell wall components induced expression of MCP-3 in human monocytes. MCP-3, a chemokine active on mononuclear phagocytes, NK cells, T cells and dendritic cells, may be relevant to the induction and expression of immunity against mycobacteria.     

Activation of ganglioside GM3 biosynthesis in human blood mononuclear cells in atherosclerosis

Using blood monocytes and lymphocytes from atherosclerotic patients and healthy subjects we have investigated a role of ganglioside GM3 in monocyte adhesion to cultured human umbilical vein endothelial cells (HUVEC). The results showed that activity of GM3 synthase and cellular levels of ganglioside GM3 in blood mononuclear cells from atherosclerotic patients were several-fold higher than those from healthy subjects. In monocytes the activity of GM3 synthase was one order of magnitude higher than in lymphocytes from both groups studied; this suggests the major contribution of monocytes to enhanced biosynthesis and levels of GM3 in mononuclear cells in atherosclerosis. Enrichment of monocytes from healthy subjects with ganglioside GM3 by their incubation in the medium containing this ganglioside increased adhesion of these monocytes to HUVEC up to the level typical for monocytes from atherosclerotic patients. In addition, an increase in CD11b integrin expression comparable to that seen in lipopolysaccharide-activated monocytes was observed. It is suggested that in atherosclerosis the enhanced cellular levels of GM3 in monocytes and lymphocytes may be an important element of cell activation that facilitates their adhesion to endothelial cells and penetration into intima.     

Uptake of lactoferrin by mononuclear phagocytes inhibits their ability to form hydroxyl radical and protects them from membrane autoperoxidation.

Human mononuclear phagocytes do not contain the iron-binding protein lactoferrin that we have previously demonstrated inhibits the potential for human neutrophils to generate hydroxyl radical in the presence of an exogenous iron catalyst of the Haber-Weiss reaction. Previous work by other investigators has suggested that mononuclear phagocytes (monocytes and monocyte-derived macrophages (MDM] have the capacity to bind exogenous lactoferrin via lactoferrin-specific membrane surface receptors. Accordingly, we examined the possibility that uptake of iron-free (apo) lactoferrin by human mononuclear phagocytes could play a role in limiting the potential for generation of hydroxyl radical during the monocyte/MDM respiratory burst. When monocytes or MDM were incubated in the presence of apo-lactoferrin, cell-associated lactoferrin increased in proportion to the concentration of lactoferrin provided. Similar results were obtained with iron-loaded (diferric) milk lactoferrin. Consistent with the in vivo importance of these findings, we found that lactoferrin was intimately associated with human alveolar macrophages obtained by bronchoalveolar lavage. The fucose polymer fucoidan inhibited lactoferrin uptake whereas exogenous transferrin or MDM exposure to IFN-gamma was without effect. Scatchard binding analysis confirmed the presence of a lactoferrin-specific receptor with a calculated kDa of 3.56 x 10(-6) M and 3.4 x 10(7) binding sites per cell. Subcellular fractionation studies indicated that twofold more of the lactoferrin which became cell-associated over the 1-h incubation time could be found in the cytoplasmic fraction compared to the plasma membrane-containing fraction, consistent with previous evidence by others for internalization of lactoferrin by mononuclear phagocytes. When lactoferrin-loaded monocytes/MDM were incubated in lactoferrin-free media, evidence for release of lactoferrin was obtained by SDS-PAGE and immunoblot analysis, suggesting the presence of a recyclable pool of cell-associated lactoferrin. To assess the impact of lactoferrin loading on monocyte/MDM hydroxyl radical formation, lactoferrin-loaded phagocytes were stimulated with PMA in the presence of catalytic iron. Hydroxyl radical generation by lactoferrin-loaded cells was decreased to about 50% of control cells. Similarly, monocytes that had been lactoferrin-loaded demonstrated a 28% decrease in autooxidation of their membrane when stimulated in the presence of catalytic iron. These data suggest that lactoferrin binding may play an important role in maintaining optimal mononuclear phagocyte function and protecting adjacent tissue from untoward phagocyte-associated hydroxyl radical generation.     

Effects of human peripheral blood monocytes,monocyte-derived macrophages,and spleen mononuclear phagocytes on Toxoplasma gondii

In vitro effects of human peripheral blood monocytes, peripheral blood monocyte-derived macrophages, and spleen mononuclear phagocytes on Toxoplasma gondii were studied. In almost all instances, over 80% of human monocytes and monocyte-derived macrophages infected with Toxoplasma in vitro destroyed the organism. Degeneration of intracellular Toxoplasma was not due to decreased viability of organisms in the challenge inoculum. Human monocytes did not elaborate into the culture medium substances which altered the capacity of Toxoplasma to survive and replicate within mouse macrophages. The early reduction in intracellular Toxoplasma was not affected by inhibitors of various intracellular processes or by diseases associated with altered cellular immunity (sarcoidosis, infectious mononucleosis, or lymphoma.) The Toxoplasma that remained after 6 hr within human monocytes and macrophages multiplied. This multiplication was observed both microscopically and in a radioassay which detects uptake of [³H]uracil or [³H]deoxyuridine into nucleic acids of intracellular Toxoplasma. Intracellular Toxoplasma in monocytes cultured with poly(I:C) or in monocyte-derived macrophages cultured with lymphokines showed decreased uptake of radiolabeled precursors into nucleic acids of intracellular Toxoplasma. Treatment of monocytes with endotoxin did not alter nucleic acid synthesis of surviving intracellular Toxoplasma. These results suggest that human mononuclear phagocytes in peripheral blood and in tissue (spleen) have the capacity to eliminate a large percentage of the Toxoplasma that they ingest or that invade them. The inhibition of nucleic acid synthesis of remaining Toxoplasma by exposure of monocyte-derived macrophages to lymphokines suggests that lymphocyte products may be important for elimination of the Toxoplasma that remain and multiply within a small proportion of mononuclear phagocytes.