Influence of interferon on human monocyte to macrophage development

The effect of interferon-α (Wellferon) on human monocyte to macrophage maturation in vitro has been investigated. Cell volume and three markers, acid phosphatase, leucine aminopeptidase, and phagocytosis, which increase with maturation, have been studied employing recently developed flow cytofluorometric techniques. The increase in cell volume and in the expression of all three markers was inhibited in a dose-dependent manner in monocyte cultures given 50–300 U/ml of interferon within 2 hr of culture initiation. An initial dose of 300 U/ml of interferon, removed from the cultures after 24 hr, was as effective in inhibiting the development of each of the markers as three 100 U pulses on three consecutive days, and as effective as 300 U interferon left in throughout the culture period. Histogram analysis of marker expression indicated that all monocytes, and not a subpopulation, were affected by the interferon. Cytotoxic activity of freshly isolated monocytes rapidly decayed when the cells were cultured under standard maturation conditions. The addition of interferon to the cultures prevented the loss of this activity while also preventing the development of more mature cells. It appears that maintenance of the cytotoxic state is one influence of interferons; however, it may be that these cells have also been directed toward alternate pathways of macrophage differentiation.     

Enhanced sensitivity of trisomy 21 monocytes to the maturation-inhibiting effect ot interferon

Cultured peripheral blood monocytes from subjects with trisomy 21 (Down Syndrome) demonstrated a 3.7-fold enhanced sensitivity to the maturation-inhibiting effect of leukocyte interferon. This increased sensitivity is considered to be the result of the presence of an increased concentration of the interferon receptor, which is controlled by the IfRec locus on human chromosome 21, on the surface of the trisomic monocytes. Since macrophages are important components of many immune processes and interferon is itself a product of and has regulatory functions in immune reactions, the enhanced sensitivity of trisomic monocytes to interferon may be a factor leading, paradoxically, to the greater susceptibility of trisomic individuals to viral and bacterial infections.     

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.     

Functional and phenotypic changes associated with the in vitro development of human monocytes into activated macrophages

Abstract Freshly isolated human peripheral blood monocytes had minimal cytotoxic effect in vitro on the schistosomula of Schistosoma mansoni . However, stimulation of the cells with either interferon gamma (IFN) or specific anti-parasite antiserum caused an increase in cytotoxicity. Additionally, the normal development of monocytes into macrophages over 7 days was associated with a sharp increase in cytoxocity. The non-cytotoxic monocytes were compared with activated macrophages to assess whether cytotoxicity was associated with changes in immunophenotype. As monocytes developed into macrophages there were marked increases in transferrin receptors (HB21), macrophage cellular integrin (3.9), and Fc receptors (KB61). A further three markers showed increased expression in 7-day-old macrophages stimulated by IFN, namely a high affinity Fx γ receptor (10.1), MHC Class II (1B5) and tumour necrosis factor (TNF).     

Influence of Phthalates on in vitro Innate and Adaptive Immune Responses

Phthalates are a group of endocrine disrupting chemicals, suspected to influence the immune system. The aim of this study was to investigate the influence of phthalates on cytokine secretion from human peripheral blood mononuclear cells. Escherichia coli lipopolysaccharide and phytohemagglutinin-P were used for stimulation of monocytes/macrophages and T cells, respectively. Cells were exposed for 20 to 22 hours to either di-ethyl, di-n-butyl or mono-n-butyl phthalate at two different concentrations. Both diesters were metabolised to their respective monoester and influenced cytokine secretion from both monocytes/macrophages and T cells in a similar pattern: the secretion of interleukin (IL)-6, IL-10 and the chemokine CXCL8 by monocytes/macrophages was enhanced, while tumour necrosis factor (TNF)-α secretion by monocytes/macrophages was impaired, as was the secretion of IL-2 and IL-4, TNF-α and interferon-γ by T cells. The investigated phthalate monoester also influenced cytokine secretion from monocytes/macrophages similar to that of the diesters. In T cells, however, the effect of the monoester was different compared to the diesters. The influence of the phthalates on the cytokine secretion did not seem to be a result of cell death. Thus, results indicate that both human innate and adaptive immunity is influenced in vitro by phthalates, and that phthalates therefore may affect cell differentiation and regenerative and inflammatory processes in vivo.     

Antigen-specific murine T-cell proliferation: role of macrophage surface Ia and factors.

The proliferation of Mycobacterium-primed murine lymph node T cells to purified protein derivative of tuberculin (PPD), as measured by the uptake of tritiated thymidine, requires the obligatory participiation of macrophages which stimulate the T cells either directly with antigen in association with cell surface Ia (I region-defined antigens), or indirectly by means of soluble factors. We have examined the possibility that this functional dichotomy is due to heterogeneity within the macrophage population. Since the maturation of macrophages from the precursor monocytes is associated with cell enlargement, macrophage subpopulations differing in developmental stage are obtained by cell fractionation according to size by velocity sedimentation. Nylon-wool-purified T cells which have been depleted of macrophages and B cells are stimulated with PPD either in a free form or bound to macrophages which have been incubated for a short time (i.e., pulsed) with PPD. We found that for PPD-pulsed macrophages, only the smallest (and probably the most immature) are capable of inducing T-cell proliferation. This antigen presentation function is mediated by cell surface Ia since it is abolished by pretreatment of the macrophages with anti-Ia serum and complement. On the other hand, all macrophages, irrespective of sensitivity to anti-Ia serum, secrete factors which will stimulate T-cell proliferation in the presence of free PPD. Thus the maturation of macrophages is accompanied by a shift from Ia-dependent to Ia-independent mechanisms of immunostimulation.     

Functional and phenotypic changes associated with the in vitro development of human monocytes into activated macrophages

Freshly isolated human peripheral blood monocytes had minimal cytotoxic effect in vitro on the schistosomula of Schistosoma mansoni. However, stimulation of the cells with either interferon gamma (IFN) or specific anti-parasite antiserum caused an increase in cytotoxicity. Additionally, the normal development of monocytes into macrophages over 7 days was associated with a sharp increase in cytotoxicity. The non-cytotoxic monocytes were compared with activated macrophages to assess whether cytotoxicity was associated with changes in immunophenotype. As monocytes developed into macrophages there were marked increases in transferrin receptors (HB21), macrophage cellular integrin (3.9), and Fc receptors (KB61). A further three markers showed increased expression in 7-day-old macrophages stimulated by IFN, namely a high affinity Fc gamma receptor (10.1), MHC Class II (1B5) and tumour necrosis factor (TNF).     

CD14-Dependent Monocyte Isolation Enhances Phagocytosis of Listeria monocytogenes by Proinflammatory,GM-CSF-Derived Macrophages

Macrophages are an important line of defence against invading pathogens. Human macrophages derived by different methods were tested for their suitability as models to investigate Listeria monocytogenes (Lm) infection and compared to macrophage-like THP-1 cells. Human primary monocytes were isolated by either positive or negative immunomagnetic selection and differentiated in the presence of granulocyte macrophage colony-stimulating factor (GM-CSF) or macrophage colony-stimulating factor (M-CSF) into pro- or anti-inflammatory macrophages, respectively. Regardless of the isolation method, GM-CSF-derived macrophages (GM-Mφ) stained positive for CD206 and M-CSF-derived macrophages (M-Mφ) for CD163. THP-1 cells did not express CD206 or CD163 following incubation with PMA, M- or GM-CSF alone or in combination. Upon infection with Lm, all primary macrophages showed good survival at high multiplicities of infection whereas viability of THP-1 was severely reduced even at lower bacterial numbers. M-Mφ generally showed high phagocytosis of Lm. Strikingly, phagocytosis of Lm by GM-Mφ was markedly influenced by the method used for isolation of monocytes. GM-Mφ derived from negatively isolated monocytes showed low phagocytosis of Lm whereas GM-Mφ generated from positively selected monocytes displayed high phagocytosis of Lm. Moreover, incubation with CD14 antibody was sufficient to enhance phagocytosis of Lm by GM-Mφ generated from negatively isolated monocytes. By contrast, non-specific phagocytosis of latex beads by GM-Mφ was not influenced by treatment with CD14 antibody. Furthermore, phagocytosis of Lactococcus lactis, Escherichia coli, human cytomegalovirus and the protozoan parasite Leishmania major by GM-Mφ was not enhanced upon treatment with CD14 antibody indicating that this effect is specific for Lm. Based on these observations, we propose macrophages derived by ex vivo differentiation of negatively selected human primary monocytes as the most suitable model to study Lm infection of macrophages.     

Defective monocyte to macrophage maturation in human immunodeficiency virus infection

To look for possible defects in cells of the monocyte/macrophage system, blood monocytes from patients infected with human immunodeficiency virus (HIV) were cultured on hydrophobic Teflon for 7 days and their ability to differentiate into mature macrophages in the presence of serum was followed. The following parameters were studied as indicative of successful terminal maturation: (1) the expression of maturation-associated antigens (transferrin receptor, surface transferrin, the BA-2 antigen, MAX antigens), (2) the disappearance of the MOP15 antigen, and (3) a more than 20-fold increase in intracellular ferritin concentration. It was found that the patients′ blood monocytes did not differentiate in vitro but rather remained immature precursor cells. If the same holds true in vivo, the results could indicate that the pathophysiology of the acquired immunodeficiency syndrome (AIDS) may be, to a large extent, linked with the functional consequences of this impaired monocyte-to-macrophage maturation.     

Activated macrophages mediate interferon-independent inhibition of herpes simplex virus

Activated macrophages exhibit extrinsic antiviral activity (inhibition of virus replication in other cells) which may involve mechanisms similar to macrophage antitumor activity or macrophage-mediated immunosuppression. Peritoneal macrophages elicited in mice by Corynebacterium parvum vaccine suppressed the growth of herpes simplex virus (HSV) in infected cells by an interferon-independent mechanism. This was demonstrated by expression of activity against HSV-infected xenogeneic (Vero) cells. Culture supernatant fluids also did not mediate antiviral activity, and did not contain detectable levels of interferon (< 3 IU/ml). Moreover, antiviral activity was not affected by the presence of anti-mouse interferon IgG. Antiviral activity was expressed at 12–16 hr after infection, at the end of the first cycle of virus replication. Cell contact was required for optimal activity. No enhanced adsorption or phagocytosis of HSV by C. parvum macrophages could be detected nor was macrophage cytotoxicity responsible for the activity. Cytotoxicity (⁵¹Cr release) by macrophages for virus infected cells was low (< 6% specific cytotoxicity), and was not significantly higher with C. parvum macrophages than with resident macrophage controls. Although C. parvum macrophages were not cytotoxic at the macrophage-host cell ratio employed, they did significantly inhibit uptake of [³H]leucine by the host Vero cells. This suggests that inhibition of host cell metabolism by the macrophage, similar to macrophage immunosuppression, may be responsible for the antiviral activity in this system.     

A novel activity on thymocytes cells exerted by the rattlesnake (Crotalus durissus cumanensis) venom

Introduction: The thymus is active mainly during the neonatal and pre-adolescent periods. Objective: To test naïve thymocytes proliferation and monocytes stimulation. Materials and methods: We collected fresh thymus tissue from neonate mice after surgery. Suspension cells were coated onto Ficoll-Hypaque support. The obtained cells (thymocytes) were cultured measuring the proliferation of naïve T cells stimulated by Crotalus durissus cumanensis (Cdc) venom at sub-lethal doses (20 ng). Then, we supplemented the wells with AlamarBlue™ and incubated them for 5 h to test their proliferation. Mononuclear cells from mice peripheral blood were collected and layered onto the support of the Ficoll-Hypaque solution. We added the thymocytes actively dividing (25 x 10⁵ cells) from cultures stimulated with Cdc venom at 20 ng/well to cultured monocytes freshly obtained from the Ficoll-Hypaque separation. Both cell populations were incubated for 36 h until monocytes matured to macrophages.Results: The naïve thymocytes rapidly proliferated after stimulation with the Cdc venom (NTCdc) and these successively induced the maturation and function of monocytes progenitor cells to mature macrophages, which ingested Chinese ink. Conclusions: The naïve thymocytes proliferated by stimulation with the Cdc venom and subsequently the NT/Cdc induced the rapid maturation and function of monocytes progenitor cells becoming mature macrophages with their phenotypic characteristics.     

Arsenic Exposure Increases Monocyte Adhesion to the Vascular Endothelium,a Pro-Atherogenic Mechanism

Epidemiological studies have shown that arsenic exposure increases atherosclerosis, but the mechanisms underlying this relationship are unknown. Monocytes, macrophages and platelets play an important role in the initiation of atherosclerosis. Circulating monocytes and macrophages bind to the activated vascular endothelium and migrate into the sub-endothelium, where they become lipid-laden foam cells. This process can be facilitated by platelets, which favour monocyte recruitment to the lesion. Thus, we assessed the effects of low-to-moderate arsenic exposure on monocyte adhesion to endothelial cells, platelet activation and platelet-monocyte interactions. We observed that arsenic induces human monocyte adhesion to endothelial cells in vitro. These findings were confirmed ex vivo using a murine organ culture system at concentrations as low as 10 ppb. We found that both cell types need to be exposed to arsenic to maximize monocyte adhesion to the endothelium. This adhesion process is specific to monocyte/endothelium interactions. Hence, no effect of arsenic on platelet activation or platelet/leukocyte interaction was observed. We found that arsenic increases adhesion of mononuclear cells via increased CD29 binding to VCAM-1, an adhesion molecule found on activated endothelial cells. Similar results were observed in vivo, where arsenic-exposed mice exhibit increased VCAM-1 expression on endothelial cells and increased CD29 on circulating monocytes. Interestingly, expression of adhesion molecules and increased binding can be inhibited by antioxidants in vitro and in vivo. Together, these data suggest that arsenic might enhance atherosclerosis by increasing monocyte adhesion to endothelial cells, a process that is inhibited by antioxidants.     

Role of interferon γ and tumour necrosis factor α in monocyte-mediated cytostasis and cytotoxicity against a human histiocytic lymphoma cell line

Summary In view of cellular adoptive immunotherapy we have studied monocyte-mediated cytostasis and cytotoxicity against U 937 cells, a human histiocytic lymphoma cell line. Highly purified human monocytes and monocytederived macrophages were activated with interferon (IFN) or tumour necrosis factor (TNF) to antileukemic immune effector cells. Antileukemic activity of human monocytes was dependent on monocyte differentiation into macrophages and on a dose- and time-dependent activation with IFN or TNF. Maximum cytostasis of 97.0±0.7% (mean ± SEM) (conventional [³H]dT uptake assay) and 81.9±5.3% cytotoxicity (modified MTT assay) of U 937 cells was obtained by monocytes activated with 100 U/ml IFN for at least 24 h at an effector-to-target-cell ratio of 10. U 937 cells premodified with IFN showed an increase in susceptibility to monocyte-mediated cytotoxicity. U 937 cells premodified with TNF were almost resistant to monocyte-mediated cytotoxicity while activated monocytes maintained their cytotoxic potential. These data show that IFN and TNF are potent activators of monocyte-mediated cytotoxicity. Furthermore, IFN and TNF might be involved in the regulation of the susceptibility of leukemic cells to lysis by interactions with monocytes or macrophages.     

Immunomodulatory Effects of Four Leishmania infantum Potentially Excreted/Secreted Proteins on Human Dendritic Cells Differentiation and Maturation

Leishmania parasites and some molecules they secrete are known to modulate innate immune responses through effects on dendritic cells (DCs) and macrophages. Here, we characterized four Leishmania infantum potentially excreted/secreted recombinant proteins (LipESP) identified in our laboratory: Elongation Factor 1 alpha (LiEF-1α), a proteasome regulatory ATPase (LiAAA-ATPase) and two novel proteins with unknown functions, which we termed LiP15 and LiP23, by investigating their effect on in vitro differentiation and maturation of human DCs and on cytokine production by DCs and monocytes. During DCs differentiation, LipESP led to a significant decrease in CD1a. LiP23 and LiEF-1α, induced a decrease of HLA-DR and an increase of CD86 surface expression, respectively. During maturation, an up-regulation of HLA-DR and CD80 was found in response to LiP15, LiP23 and LiAAA-ATPase, while an increase of CD40 expression was only observed in response to LiP15. All LipESP induced an over-expression of CD86 with significant differences between proteins. These proteins also induced significant IL-12p70 levels in immature DCs but not in monocytes. The LipESP-induced IL-12p70 production was significantly enhanced by a co-treatment with IFN-γ in both cell populations. TNF-α and IL-10 were induced in DCs and monocytes with higher levels observed for LiP15 and LiAAA-ATPase. However, LPS-induced cytokine production during DC maturation or in monocyte cultures was significantly down regulated by LipESP co-treatment. Our findings suggest that LipESP strongly interfere with DCs differentiation suggesting a possible involvement in mechanisms established by the parasite for its survival. These proteins also induce DCs maturation by up-regulating several costimulatory molecules and by inducing the production of proinflammatory cytokines, which is a prerequisite for T cell activation. However, the reduced ability of LipESP-stimulated DCs and monocytes to respond to lipopolysaccharide (LPS) that can be observed during human leishmaniasis, suggests that under certain circumstances LipESP may play a role in disease progression.     

Presence of an abnormal β 2-microglobulin mRNA in Daudi cells: Induction by interferon

Human α and β interferons increase the amount of class I human histocompatibility messenger RNA HLA-A, B, C and β₂-microglobulin in most human cells studied to date. This report concerns the effect of interferons on the Burkitt lymphoma-derived cell line Daudi, which does not express HLA-A, B, C antigens or β₂-microglobulin on its membrane. HLA-A, B, C messenger RNA present in Daudi cells is increased by both α and β interferons. Furthermore, we have shown that although it was not possible to detect mature β₂-microglobulin protein in the cytoplasm or on the cell membrane of Daudi cells, a poly A⁺ messenger RNA is present in Daudi cells, which hybridizes with a cDNA clone specific for human β²-microglobulin. This abnormal messenger RNA is, however, increased normally by interferon. These effects were also observed with human interferon β on a variant of Daudi cells characterized by a markedly reduced sensitivity to anti-proliferative and anti-cellular effects of human interferon α.[/p]     

Parameters affecting the in vitro maturation of human monocytes to macrophages

In vitro maturation of human monocytes to macrophages was characterized by morphological criteria, cell size and lysosomal enzymes activity. Purified populations of monocytes were maintained in culture at either adherent or nonadherent conditions and their maturation to macrophages was observed in both cases. The addition of external factors such as hydrocortisone and vitamin D3 inhibited monocyte maturation. In the absence of external factors, nonadherent monocytes were inhibited in their maturation for up to 10 days when plated at crowded cell concentrations. In addition, the presence of human serum in the culture media had a higher inhibitory activity than similar concentrations of fetal calf serum. Supernates from crowded macrophages were also inhibitory for monocyte maturation. We suggest the possibility that cell crowding, as well as soluble factors found in the serum and probably secreted by macrophages, participate in the regulation of monocyte development by inhibiting their maturation. Once released from this inhibitory signal or environment, the monocytes mature to macrophages.     

Repression of alpha 2-macroglobulin and stimulation of alpha 1-proteinase inhibitor synthesis in human mononuclear phagocytes by endotoxin

Mononuclear phagocytes are a bone-marrow-derived subgroup of white blood cells which circulate as monocytes and, after differentiation into macrophages, become resident in many tissues. By synthesizing the important proteinase inhibitors alpha 2-macroglobulin and alpha 1-proteinase inhibitor mononuclear phagocytes contribute to the control of proteolysis both in blood and tissues. Applying a culture system which enables human blood monocytes to differentiate into macrophages in vitro, synthesis of alpha 2-macroglobulin and alpha 1-proteinase inhibitor was studied. The normal course of monocyte-macrophage maturation is accompanied by a strong increase of specific alpha 2-macroglobulin synthesis and a concomitant slight decrease of alpha 1-proteinase inhibitor. alpha 2-Macroglobulin can be designated as a marker protein of the monocyte/macrophage differentiation. Endotoxin (Salmonella typhi) in a concentration as low as 100 ng/ml strongly represses alpha 2-macroglobulin synthesis both in monocytes and macrophages. Furthermore, endotoxin completely abolishes the induction of alpha 2-macroglobulin synthesis during the course of normal monocyte in vitro cultivation, indicating that endotoxin is a strong inhibitor of the monocyte-macrophage maturation. In contrast to alpha 2-macroglobulin, alpha 1-proteinase inhibitor synthesis is strongly stimulated by endotoxin in monocytes as well as in macrophages.