TWEAK mediates anti-tumor effect of tumor-infiltrating macrophage

TWEAK induces diverse cellular responses, including pro-inflammatory chemokine production, migration, proliferation, and cell death through the TWEAK receptor, Fn14. In the present study, we examined the effect of TWEAK or Fn14 expression in tumor cells on tumor outgrowth in vivo. Administration of neutralizing anti-TWEAK mAb significantly reduced the frequency of tumor rejection and shortened the survival of mice intraperitoneally inoculated with TWEAK-sensitive Fn14-expressing tumor cells. Moreover, anti-TWEAK mAb treatment promoted the subcutaneous growth of TWEAK-sensitive Fn14-expressing tumor cells, and this promotion was abolished by the inhibition of macrophage infiltration but not NK cell depletion. In contrast, administration of anti-TWEAK mAb had no apparent effect on the growth of TWEAK-resistant tumor cells, even if tumor cells expressed Fn14. On the other hand, TWEAK expression in tumor cells had no significant effect on subcutaneous tumor growth. These results indicate that TWEAK mediates anti-tumor effect of macrophages in vivo.     

Sarcoid macrophage giant cells. Ultrastructure and lysozyme content

Examination of the sarcoid granuloma by electron microscopic and electron microscopic immunocytochemical techniques shows that the sarcoid macrophage giant cell is rich in lysozyme, present within the centre of the syncytium in dense granules approximately 200 nm in diameter. The ultrastructure of the syncytium is that of an actively secretory cell, suggesting that the sarcoid macrophage giant cell actively produces as well as stores lysozyme, rather than being a fusion product of mononuclear cells which produce lysozyme, or being a site of storage of ingested lysozyme.     

Reproductive experience modifies dopaminergic function, serum levels of prolactin, and macrophage activity in female rats

Reproductive experience (RE), i.e. pregnancy and lactation, induces physiological changes in mammals. Recent data show that neuroimmune interactions are modulated by a diversity of events involving neurotransmitters and neuropeptides. These molecules, particularly dopamine (DA), were reported to mediate the relevant cross talk between immune and neuroendocrine systems. Moreover, DA-mediated regulation of leukocyte function is a reasonable approach to investigate the DA-operated regulatory switch for immune-competent cells, such as macrophages. Therefore, the goals of the present study were to determine the effects of RE on: (1) dopaminergic function through hypothalamic levels of DA, dihydroxyphenylacetic acid (DOPAC), homovanilic acid (HVA), serotonin (5-HT), and 5-hydroxyindole acetic acid (5-HIAA); (2) basal levels of circulating prolactin (PRL); and (3) activity of peritoneal macrophage (phagocytosis and oxidative burst). A total of 16 adult (200-250 g) female Wistar rats were used, divided in two groups: nulliparous and primiparous. Approximately 2-3 weeks after weaning pups from the primiparous group, both groups of rats were tested. The findings indicate that: (1) DOPAC concentrations, DOPAC/DA and HVA+DOPAC/DA ratios decreased in primiparous rats as compared to virgin rats, (2) primiparous rats showed significantly lower serum PRL levels, and (3) phorbol miristate acetate (PMA)-induced oxidative burst was decreased in peritoneal macrophage from primiparous rats as compared to virgin rats. To test the possible positive correlation between serum levels of PRL and the intensity of oxidative burst by peritoneal macrophage, an extra experiment was done with adult virgin female rats treated with domperidone, an antagonist of DA receptors. Domperidone-treated animals showed increased serum levels of PRL and simultaneous increase in peritoneal macrophage oxidative burst. Thus, suggesting an indirect participation of hyperprolactinemia, induced by this treatment in peritoneal macrophage activity of female rats. These results suggest that a previous RE can modulate the activity of dopaminergic hypothalamic systems, while decreasing PRL serum levels and the oxidative burst of peritoneal macrophage. The neurochemical and hormonal RE-induced changes correlate with the immune alterations.     

In vitro alteration of macrophage phenotype and function by serum lipids

Diabetes (type I and type II) affects approximately 13 million people in the United States. Delayed and incomplete healing of wounds can be a major problem for diabetic patients. Macrophages are an important cell in the complex process of wound repair representing the major source of cytokines throughout the wound-healing process. Cytokines mediate many of the cellular responses critical to timely wound repair. It has been suggested that diabetes impairs wound healing through disruption of local cytokine production. Our previous in vivo studies in rats demonstrated that diabetes-induced and diet-induced hyperlipidemia cause changes in macrophage phenotype and function (Iacopino 1995; Doxey et al. 1998), suggesting that alterations in macrophage cytokine profiles represent the cellular/molecular mechanism responsible for delayed wound healing. The purpose of this study was to investigate how monocyte maturation/differentiation and cytokine production were altered by serum lipids in an in vitro system using human cells. Commercially prepared purified human monocytes were cultured and exposed to serum lipids. Phenotypic analysis of differentiated macrophages was then performed by flow cytometry and fluorescent microscopy using surface antigens specific for various macrophage subsets. Selected cytokines in conditioned medium were assayed using commercial human enzyme-linked immunosorbent assay (ELISA) kits. We demonstrate that serum lipids cause an increase in monocytic differentiation leading to an inflammatory macrophage phenotype rather than a reparative/proliferative phenotype. We also show that serum lipids cause a generalized decrease in macrophage cytokine production using interleukin-1 beta (IL-1β), tumor necrosis factor alpha (TNF-α), platelet-derived growth factor (PDGF), and transforming growth factor beta 1 (TGF-β1) as marker cytokines. Our present in vitro results using human cells confirm our previous in vivo studies in the rat and support the hypothesis that diabetes-induced hyperlipidemia alters the monocyte differentiation process resulting in changes of macrophage subsets and cytokine release at the wound site, ultimately impairing the wound-healing process. Received: 11 August 1998 / Accepted: 19 October 1998     

Renal cell carcinoma-derived exosomes deliver lncARSR to induce macrophage polarization and promote tumor progression via STAT3 pathway

Tumor-derived exosomes play a pivotal role in regulating tumor progression by mediating crosstalk between tumor cells and immune cells such as macrophages within the tumor microenvironment. Macrophages can adopt two distinct polarization statuses and switch between M1 or M2 activation phenotypes in response to the different external stimuli. However, the role of tumor derived exosomes in the macrophage phenotypic switch and tumor development have not been elucidated in renal cell carcinoma (RCC). Here we found that high macrophage infiltration was associated with worse prognosis in RCC patients, therefore we propose our hypothesis that RCC derived exosomes might directly influence macrophage polarization and thus promote tumor progression. Both cell-based in vitro models and orthotopic transplantation in vivo tumor models were constructed and ELISA, flow cytometry, and macrophage functional studies were performed to investigate whether and how RCC-derived exosomes regulate macrophage polarization and tumor growth. The results found that these exosomes promote macrophage polarization, cytokine release, phagocytosis, angiogenesis, and tumor development. Further study revealed high amount of a recently discovered lncRNA called lncARSR in RCC-derived exosomes. Overexpression of lncARSR induced phenotypic and functional changes of macrophages in vitro and promoted tumor growth in vivo, while knockdown of lncARSR by siRNA disrupted the exosomes-mediated macrophage polarization. LncARSR interacts directly with miR-34/miR- 449 to increase STAT3 expression and mediate macrophage polarization in RCC cells. Together, RCC-derived exosomes facilitate the development of tumor through inducing macrophage polarization via transferring lncARSR, suggesting that RCC-derived exosomes, lncARSR and STAT3 are the potential therapeutic targets for treatment of RCC.     

Adipocyte-derived lipoprotein lipase induces macrophage activation and monocyte adhesion: role of fatty acids

Objective: We evaluated the effect of adipocyte‐derived lipoprotein lipase (LPL) on macrophage activation and monocyte adhesion and the role of fatty acids in these effects. Research Methods and Procedures: 3T3‐L1 adipocytes were incubated with heparin or insulin to induce LPL secretion; then adipocyte conditioned media (CM) were added to cultured J774 macrophages or human aortic endothelial cells (HAECs). Macrophage cytokine production and monocyte adhesion to HAECs were determined. Results: Incubation of macrophages with heparin‐ or insulin‐treated adipocyte CM increased tumor necrosis factor α, interleukin‐6, and nitric oxide production by these cells. LPL neutralization and heparinase treatment prevented these effects. Addition of active LPL or palmitate to cultured macrophages replicated these effects. Blockade of leptin also reduced the effect of insulin‐treated adipocyte CM on macrophage inflammatory changes. Induction of macrophage cytokine secretion by leptin was prevented by LPL immunoneutralization. Finally, addition of CM of heparin‐ or insulin‐treated adipocytes to HAECs stimulated monocyte adhesion to these cells, an effect that was abrogated by an anti‐LPL antibody. This effect was reproduced by treating HAECs with active LPL or palmitate. Discussion: These results point to an effect of LPL‐mediated lipolysis in macrophage activation and monocyte adhesion.     

Experimental effect of lysozyme on macrophage metabolism and resistance to infection

The peritoneal macrophages of mice treated with lysozyme were studied by cytochemical assay. In single and repeated doses of 0.5-5 mg/kg lysozyme induced an increase in macrophage metabolism. This was evident from an increased activity of succinate dehydrogenase, NADP X N-DH and the enzymes catalyzing glycolysis typical of these cells (lactate dehydrogenase and alpha-glycerophosphate). The changes in the activity of the enzymatic systems were most pronounced in minute and less mature macrophages after repeated administrations of the drugs. In a dose of 50 mg/kg lysozyme somewhat decreased the activity of a number of the enzymes. In the doses optimal for the macrophage activity lysozyme had a low effect on the infection resistance and slightly increased the cephotaxim efficiency in experimental staphylococcal infection. This may be mainly due to the immunomodulating effect of lysozyme and its low effect on the large macrophages having the bactericidal effect.     

Murine macrophage lysozyme: modulation of enzymatic activity in gel by electrolytes.

Enzymatic activity of macrophage lysozyme in gels under normal physiological conditions of ionic strength, osmolarity, temperature and pH is negligible. Under isotonic conditions macrophage lysozyme can attain maximum activity at acid pH (acid lysozyme). At neutral and alkaline pH macrophage lysozyme can be fully activated by lowering the osmolarity to 155 imOsm (alkaline lysozyme). Such modulation of enzymatic activity is not seen when macrophage lysozyme is assayed in solution. The different behavior of macrophage lysozyme in solution and in gel is briefly discussed in terms of lysozyme function in intact cells.     

Transient lysozymuria during Sarcoma I tumor rejection

The present studies on the in vivo regulation of lysozyme synthesis by cytotoxic macrophages infiltrating Sarcoma I (Sa I) tumor ascites of C57BL/KS mice are an extension of previous observations that the elevation of serum and urinary lysozyme levels might reflect the degree of macrophage-mediated host resistance. Cytotoxic macrophages of host origin are required in the natural rejection of tumors by C57BL/Ks mice challenged with Sa I. The amounts of lysozyme in the serum and urine of the affected mice are quantitated during Sa I growth and rejection. The enzyme levels are correlated with the number of macrophages in the tumor and with the capacity for lysozyme synthesis measured in vitro on monolayers of macrophages isolated from the ascites. The results indicate that the elevation of serum and urinary lysozyme activity is a reflection of both the increased number of cytotoxic macrophages in the host and the qualitative change in the functional state of the cells. These parameters alone cannot account for the extent of the in vivo release of lysozyme in the serum and urine of the affected animals. High levels of lysozyme are present in the extracellular fluids of the mice only when the macrophages are actively participating in host defense. We conclude that in vivo control mechanisms which depend on the presence of viable tumor cells are responsible for the regulation of lysozyme release by cytotoxic macrophages. However, the high levels of lysozyme do not always indicate complete rejection, as indicated by a preliminary observation in which extensive lysozymuria was followed by tumor relapse.     

Long non‐coding RNA expressed in macrophage co‐varies with the inflammatory phenotype during macrophage development and polarization

Advances in microarray, RNA‐seq and omics techniques, thousands of long non‐coding RNAs (lncRNAs) with unknown functions have been discovered. LncRNAs have presented a diverse perspective on gene regulation in diverse biological processes, especially in human immune response. Macrophages participate in the whole phase of immune inflammatory response. They are able to shape their phenotype and arouse extensive functional activation after receiving physiological and pathological stimuli. Emerging studies indicated that lncRNAs participated in the gene regulatory network during complex biological processes of macrophage, including macrophage‐induced inflammatory responses. Here, we reviewed the existing knowledges of lncRNAs in the processes of macrophage development and polarization, and their roles in several different inflammatory diseases. Specifically, we focused on how lncRNAs function in macrophage, which might help to discover some potential therapeutic targets and diagnostic biomarkers.     

Glucocorticoids and prostaglandins inhibit the induction of macrophage DNA synthesis by macrophage growth factor and phorbol ester

The tumor-promoting phorbol ester, 12-0-tetradecanoyl-phorbol-13-acetate (TPA), stimulates starch-elicited mouse peritoneal macrophages to undergo DNA synthesis in vitro, apparently without the generation of an endogenous macrophage growth factor (MGF). No evidence was found for any synergistic interaction between TPA and exogenous colony stimulating factors (CSFs) for macrophage DNA synthesis. Low concentrations of glucocorticoids and also prostaglandins E1 and E2 suppress both the CSF-1-stimulated and the TPA-stimulated macrophage DNA synthesis; these same drugs inhibit the CSF-1-mediated and TPA-mediated enhancement of macrophage plasminogen activator (PA) activity. Thus glucocorticoids and prostaglandins E1 and E2 oppose the action of growth factors and the tumor promoter on macrophage and precursor cell function.     

Thymocyte and macrophage interactions: separation of murine thymocyte subsets and enrichment of syngeneic cell-responding thymocytes by adsorption to macrophage monolayers

The spontaneous binding of murine thymocytes to macrophage monolayers was employed to separate thymocytes into macrophage-unbound and -bound subsets, and the functional reactivities of these two subpopulations were examined. Macrophage-unbound thymocytes were found to be enriched in functional subsets reactive to semi-allogeneic and allogeneic stimulating spleen cells by proliferation in mixed leukocyte culture (MLC). Furthermore, macrophage-unbound thymocytes were frequently found to respond to syngeneic spleen cells. This syngeneic proliferative response showed both memory and specificity upon subsequent restimulation and thus seems to represent a syngeneic mixed leukocyte reaction (SMLR). Syngeneic responding thymocytes were also found to produce interleukin 2 when cultured with syngeneic but not allogeneic stimulator cells. In contrast, macrophage-bound thymocytes showed greatly reduced proliferative responses to allogeneic stimulators and no responses to syngeneic stimulators. The macrophage-bound thymocyte subset was not enriched in detectable suppressive activity; proliferative responses of macrophage-unbound thymocytes to either allogeneic or syngeneic cells were neither suppressed nor enhanced when macrophage-unbound thymocytes were added to the cultures. Thus, the macrophage-unbound subset seems to be enriched in functionally mature thymocytes and the macrophage-bound subset appears to be enriched in functionally immature thymocytes. This functional separation of thymocytes by macrophage adherence also correlated well with thymocyte subpopulations separated by bovine serum albumin density gradients; the low density mature thymocytes showed enhanced responses to both allogeneic and syngeneic stimulators, whereas the high density immature cells were unresponsive. This correlation was supported further by binding studies in which T cell tumor lines derived from C57BL/6 mice were used. ERLD tumor cells, which are similar to cortical immature thymocytes in both enzymatic and surface antigenic markers, were found to bind readily to macrophages, whereas both EL-4 and E male G2 tumor cells, with characteristics of mature thymocytes, bound to macrophages poorly. The binding of thymocytes and ERLD tumor cells to macrophages was not genetically restricted. We speculate that thymocyte binding to macrophages may play a critical role during the functional maturation of thymocytes.     

Effects of moderate exercise and oat beta-glucan on lung tumor metastases and macrophage antitumor cytotoxicity.

Both moderate exercise and the soluble fiber beta-glucan can have beneficial effects on the initiation and growth of tumors, but the data are limited, and there is no information on their combined effects. This study tested the independent and combined effects of short-term moderate-exercise training and the soluble oat fiber beta-glucan (ObetaG) on the metatastic spread of injected tumor cells and macrophage antitumor cytotoxicity. Male C57BL/6 mice were assigned to one of four groups: exercise (Ex)-H2O, Ex-ObetaG, control (Con)-H2O, or Con-ObetaG. ObetaG was fed in the drinking water for 10 days before tumor administration and death. Exercise consisted of treadmill running (1 h/day) for 6 days. After rest or exercise on the last day of training, syngeneic B16 melanoma cells (2 x 10(5)) were administered via intravenous injection (n = 8-11 per group). Lungs were removed 14 days later, and tumor foci were counted. Additional mice (n = 8 per group) were killed, and peritoneal macrophages were assayed for cytotoxicity against the same mouse tumor cell line at various effector-to-target ratios. Both moderate exercise and ObetaG decreased lung tumor foci and increased macrophage cytotoxicity. However, there were no differences in lung tumor foci and macrophage cytotoxicity between Ex-ObetaG and either Ex-H2O or Con-ObetaG. These data suggest that, although not additive in their effects, both short-term moderate-exercise training and consumption of the soluble ObetaG can decrease the metatastic spread of injected B16 melanoma cells, and these effects may be mediated in part by an increase in macrophage cytotoxicity to B16 melanoma.     

Plasticity of macrophage function during tumor progression: regulation by distinct molecular mechanisms

Recent studies have shown that macrophages play an important part in both tumor initiation and various key steps in growth and metastasis. These cells show a remarkable degree of plasticity during tumor development with a "switch" in macrophage phenotypes occurring during the course of tumor progression. During chronic inflammation they appear to predispose a given tissue to tumor initiation by the release of factors that promote neoplastic transformation. Following this, their phenotype shifts more toward one that is immunosuppressive and supports tumor growth, angiogenesis, and metastasis. In this review, we discuss the evidence for this plasticity of macrophage functions, the specific signaling mechanisms that may be regulating it, and the new targets for anticancer therapies highlighted by these findings.     

Augmentation of macrophage recognition of oxidatively damaged erythrocytes by substratum-bound fibronectin and macrophage surface fibronectin.

Thioglycollate-induced mouse peritoneal macrophages plated on a coverglass bind oxidized mouse erythrocytes in the absence of serum. Macrophages plated on a coverglass pre-coated with fibronectin (FN) were more active in binding of the oxidized erythrocytes. This effect of FN-coated coverglass was due to specific binding of an RGD-containing sequence of FN to FN-receptors on the macrophage, since GRGDSP hexapeptide in solution inhibited this effect, and GRGDSP-coated coverglass exhibited the same effect as FN-coated coverglass. Removal of FN originally present on the macrophage surface by trypsinization, prior to attachment to the coverglass, resulted in diminution of their ability of recognition of the oxidized erythrocytes, but the diminished ability was restored when the trypsinized macrophages were plated on a FN-coated coverglass, indicating that the cell surface FN is required for the macrophage recognition. Attachment to the coverglass was necessary for the cell surface FN to be effective. These results suggest that solid-phase FN, produced either by deposition of soluble FN to substratum or attachment of macrophage surface FN to substratum, activates the macrophages and augments their ability to recognize the oxidized erythrocytes.     

Potentiation of lymphokine-induced macrophage activation by tumor necrosis factor-alpha

In this study, we examined the possible role of TNF-alpha and lymphotoxin (TNF-beta) as cofactors of macrophage activation. The results demonstrate that both TNF were capable of enhancing the cytostatic and cytolytic activity of murine peritoneal macrophages against Eb lymphoma cells. The potentiation of tumor cytotoxicity became apparent when macrophages from DBA/2 mice were suboptimally activated by either a T cell clone-derived macrophage-activating factor or by IFN-gamma plus LPS. Neither TNF-alpha nor TNF-beta could induce tumor cytotoxicity in IFN-gamma-primed macrophages, indicating that TNF cannot replace LPS as a triggering signal of activation. In LPS-resistant C3H/HeJ macrophages, which were unresponsive to IFN-gamma plus LPS, a supplementation with TNF fully restored activation to tumor cytotoxicity. Furthermore, TNF-alpha potentiated a variety of other functions in low-level activated macrophages such as a lactate production and release of cytotoxic factors. At the same time, TNF-alpha produced a further down-regulation of pinocytosis, tumor cell binding and RNA synthesis observed in activated macrophages. These data demonstrate new activities for both TNF-alpha and TNF-beta as helper factors that facilitate macrophage activation. In particular, the macrophage product TNF-alpha may serve as an autocrine signal to potentiate those macrophage functions that were insufficiently activated by lymphokines.     

Production of specific macrophage activating factor by lymphocytes from tumor-bearing mice.

Lymphocytes from C57BL mice bearing a syngeneic UV-induced fibrosarcoma (UV-112) produced macrophage activating fatcor (MAF) when cultured with UV-112 cells in vitro. This MAF rendered normal C57BL macrophages cytotoxic in vitro to UV-112 cells. MAF production and lymphocyte-mediated cytotoxicity were detected in the early stages of tumor growth, but were absent in mice bearing large tumors. This eclipsed reatcivity was specific for the growing tumor. Lymphocytes from mice bearing a large UV-112 tumor were still able to produce MAF in response to B16 melanoma to which they had been preimmunized. In all instances, the MAF produced was specific in that it rendered syngeneic macrophages cytotoxic against only the tumor used for immunization.     

The role of calcium in macrophage chemotaxis to the phorbol ester tumor promoter TPA

The significance of the macrophage in the inflammatory response that occurs concurrently with phorbol ester induced tumor promotion has not yet been determined. Biologically active phorbol ester tumor promoters modify several functional responses of macrophages including chemotaxis, cytotoxicity, secretion and prostaglandin synthesis and release. The present study examines calcium metabolism as a possible underlying biochemical mechanism through which 12-0-tetradecanoyl-phorbol-13-acetate (TPA) exerts its effects on macrophage chemotaxis. The chemotaxis of mouse resident peritoneal macrophages was evaluated in the presence of pharmacological agents known to alter cellular calcium metabolism. The calcium ionophore A23187 in microM concentrations enhanced macrophage chemotaxis to TPA by approximately 41%. This enhancement was dependent on the presence of extracellular calcium. TPA-induced chemotaxis was also enhanced by the histological dye ruthenium red (RR), an agent known to modify mitochondrial calcium fluxes and calcium-dependent neuronal transmission. Ruthenium red (0.1 and 1.0 microM) produced a maximal stimulation of macrophage chemotaxis to TPA of approximately 62%. An intracellular calcium antagonist, 8-(N,N-diethylamino) octyl 3,4,5-trimethoxybenzoate hydrochloride (TMB-8) inhibited macrophage chemotaxis to TPA in a dose related fashion (1.0 to 100 microM). Varying extracellular calcium concentrations (0-3.6 mM) had no effect on macrophage chemotaxis in response to TPA. In drug combination studies neither A23187 nor RR was able to overcome the inhibitory effects of TMB-8 on macrophage chemotaxis to TPA. These results indicate that intracellular calcium metabolism may be playing a significant role in modulating TPA's effect on macrophage chemotaxis, while extracellular calcium may be of little import. A possible mode of TPA's effect on the macrophage via mobilization of calcium from cellular storage sites is discussed.     

Garlic compounds modulate macrophage and T-lymphocyte functions

Organosulfur compounds of garlic have been shown to inhibit growth of animal tumors and to modulate the activity of diverse chemical carcinogens. There is also evidence that garlic may modulate antitumor immunity. In this study, we determined the effects of an aqueous garlic extract and a protein fraction isolated from the extract on the chemiluminescent oxidative burst of the murine J774 macrophage cell line and thioglycollate-elicited peritoneal macrophages obtained from BALB/c mice. T-lymphocyte activity was determined using mouse splenocytes incubated with phytohemagglutinin, labeled with [3H]-thymidine and assayed for lymphoproliferation. Significant dose-related augmentation of oxidative burst was observed with garlic extract and the protein fraction. The protein fraction also enhanced the T-lymphocyte blastogenesis. The data suggest that garlic compounds may serve as biological response modifiers by augmenting macrophage and T-lymphocyte functions.