The interaction of Naegleria fowleri amoebae with murine macrophage cell lines

The present study was undertaken to determine whether murine macrophage cell lines exhibited in vitro amoebicidal activity comparable to that elicited by activated murine peritoneal macrophages. Peritoneal macrophages activated in vivo by bacillus Calmette-Guérin or Propionibacterium acnes demonstrated significant cytolysis of Naegleria fowleri amoebae. The macrophage cell line RAW264.7 also effected cytolysis of amoebae, but to a lesser extent than that elicited by activated peritoneal macrophages. However, the macrophage cell lines, J774A.1 and P388D1, did not exhibit amoebicidal activity. Macrophage conditioned medium prepared from RAW264.7 macrophages mediated cytolysis of L929 tumor cells but had no effect on N. fowleri amoebae. In addition, neither recombinant tumor necrosis factor nor recombinant interleukin-1 exhibited amoebicidal activity. Scanning electron microscopy of co-cultures revealed that N. fowleri bound to activated peritoneal macrophages and RAW264.7 macrophages. These results suggest that RAW264.7 macrophages treated in vitro with lipopolysaccharide are similar to macrophages activated in vivo in that they effect contact-dependent cytolysis of Naegleria fowleri amoebae. The RAW264.7 macrophages are unlike primary macrophage cultures in that they either do not release soluble amoebicidal factors into the conditioned medium or they release insufficient quantities.     

The Interaction of Naegleria fowleri Amoebae with Murine Macrophage Cell Lines

The present study was undertaken to determine whether murine macrophage cell lines exhibited in vitro amoebicidal activity comparable to that elicited by activated murine peritoneal macrophages. Peritoneal macrophages activated in vivo by bacillus Calmette-Guérin or Propionibacterium acnes demonstrated significant cytolysis of Naegleria fowleri amoebae. The macrophage cell line RAW264.7 also effected cytolysis of amoebae, but to a lesser extent than that elicited by activated peritoneal macrophages. However, the macrophage cell lines, J774A.1 and P388D₁, did not exhibit amoebicidal activity. Macrophage conditioned medium prepared from RAW264.7 macrophages mediated cytolysis of L929 tumor cells but had no effect on N. fowleri amoebae. In addition, neither recombinant tumor necrosis factor nor recombinant interleukin-1 exhibited amoebicidal activity. Scanning electron microscopy of co-cultures revealed that N. fowler bound to activated peritoneal macrophages and RAW264.7 macrophages. These results suggest that RAW264.7 macrophages treated in vitro with lipopolysaccharide are similar to macrophages activated in vivo in that they effect contact-dependent cytolysis of Naegleria fowleri amoebae. The RAW264.7 macrophages are unlike primary macrophage cultures in that they either do not release soluble amoebicidal factors into the conditioned medium or they release insufficient quantities.     

Granules of human CD3+ large granular lymphocytes contain a macrophage regulating factor(s) that induces macrophage H2O2 production and tumoricidal activity but decreases cell surface Ia antigen expression.

CTL (cytotoxic T lymphocytes) and LGL (large granular lymphocytes) exocytose cytoplasmic granules on activation after recognition of their target, releasing granule-associated molecules. We have previously suggested that this process could release immunoregulatory molecules. In this study we investigated whether normal human LGL granules contained a factor regulating different macrophage activity. Human CD3+ LGL cells were generated by activating peripheral blood lymphocytes (PBL) for 10-12 days with recombinant human IL-2 (rhIL-2), and granules were isolated from disrupted cell homogenate by Percoll gradient fractionation. Solubilized granules were tested for macrophage-activating factor (MAF) activity in three different macrophage assays. When M-CSF-differentiated murine bone marrow-derived macrophages were incubated 9 hr with human LGL granules, they were fully activated to lyse the TNF-resistant P815 tumor cells. The granule-MAF showed a synergistic effect with rhIL-1 beta, rmTNF-alpha, and rmIFN-tau in the cytolytic assay. In addition, proteose-peptone-elicited murine peritoneal macrophages profoundly increased H2O2 production after activation with human LGL granules. However, unlike IFN-tau, no increase in peritoneal macrophage Ia antigen expression was detected after incubation with granules. Moreover, granule-MAF suppressed Ia induction by IFN-tau. These results confirm that human CD3+ LGL granules contain a molecule(s) capable of regulating macrophage function.     

Effect of macrophage differentiation and exposure to mildly oxidized LDL on the proteolytic repertoire of THP-1 monocytes

Lipid-laden monocyte/macrophages in atherosclerotic plaques can produce a range of proteinases capable of degrading components of the plaque extracellular matrix, an event that may weaken plaques, rendering them vulnerable to rupture. The effects of differentiation from monocytes to macrophages and exposure to mildly oxidized LDL (Ox-LDL) on the expression of a range of proteinases and their inhibitors were assessed in the human THP-1 cell line. Of 56 proteinases/inhibitors investigated, 17 were upregulated during macrophage differentiation, including several matrix metalloproteinases (MMPs) and cathepsins along with their native inhibitors. Similarly, expression of matrix-degrading proteinases was also increased during differentiation of human primary macrophages. In conjunction, the proteolytic capacity of the cells increased, as assessed by substrate zymography. Subsequent exposure of differentiated THP-1 cells to mildly Ox-LDL increased the expression of a control gene (adipocyte lipid binding protein) and increased the activity of nuclear factor-kappaB and activator protein-1 in serum-free conditions but did not significantly affect the expression of any of the proteinases or inhibitors investigated. These results indicate that in this model macrophage differentiation, rather than exposure to Ox-LDL, has a more important effect on the expression of genes involved in extracellular matrix remodeling.     

A Membrane Protease Regulates Energy Production in Macrophages by Activating Hypoxia-inducible Factor-1 via a Non-proteolytic Mechanism

Most cells produce ATP in the mitochondria by oxidative phosphorylation. However, macrophages, which are major players in the innate immune system, use aerobic glycolysis to produce ATP. HIF-1 (hypoxia-inducible factor-1) regulates expression of glycolysis-related genes and maintains macrophage glycolytic activity. However, it is unclear how HIF-1 activity is maintained in macrophages during normoxia. In this study, we found that macrophages lacking membrane type 1 matrix metalloproteinase (MT1-MMP/MMP-14), a potent invasion-promoting protease, exhibited considerably lower ATP levels than wild-type cells. HIF-1 was activated by an unanticipated function of MT1-MMP, which led to the stimulation of ATP production via glycolysis. The cytoplasmic tail of MT1-MMP bound to FIH-1 (factor inhibiting HIF-1), which led to the inhibition of the latter by its recently identified inhibitor, Mint3/APBA3. We have thus identified a new function of MT1-MMP to mediate production of ATP so as to support energy-dependent macrophage functions by a previously unknown non-proteolytic mechanism.     

Complement is an essential component of the immune response to adeno-associated virus vectors

Adeno-associated virus (AAV) vectors are associated with relatively mild host immune responses in vivo. Although AAV induces very weak innate immune responses, neutralizing antibodies against the vector capsid and transgene still occur. To understand further the basis of the antiviral immune response to AAV vectors, studies were performed to characterize AAV interactions with macrophages. Primary mouse macrophages and human THP-1 cells transduced in vitro using an AAV serotype 2 (AAV2) vector encoding green fluorescent protein did not result in measurable transgene expression. An assessment of internalized vector genomes showed that AAV2 vector uptake was enhanced in the presence of normal but not heat-inactivated or C3-depleted mouse/human serum. Enhanced uptake in the presence of serum coincided with increased macrophage activation as determined by the expression of NF-κB-dependent genes such as macrophage inflammatory protein 2 (MIP-2), interleukin-1β (IL-1β), IL-8, and MIP-1β. AAV vector serotypes 1 and 8 also activated human and mouse macrophages in a serum-dependent manner. Immunoprecipitation studies demonstrated the binding of iC3b complement protein to the AAV2 capsid in human serum. AAV2 did not activate the alternative pathway of the complement cascade and lacked cofactor activity for factor I-mediated degradation of C3b to iC3b. Instead, our results suggest that the AAV capsid also binds complement regulatory protein factor H. In vivo, complement receptor 1/2- and C3-deficient mice displayed impaired humoral immunity against AAV2 vectors, with a delay in antibody development and significantly lower neutralizing antibody titers. These results show that the complement system is an essential component of the host immune response to AAV.     

Interferon-gamma synergizes with tumor necrosis factor and with interleukin 1 and requires the presence of both monokines to induce antitumor cytotoxic activity in macrophages

Small concentrations of recombinant murine interferon-gamma (MuIFN-gamma), recombinant human interleukin 1 (HuIL-1), and recombinant murine tumor necrosis factor (MuTNF), added separately to cultures of thioglycolate-elicited peritoneal macrophages, produced no cytotoxic activity against L5178Y cells, a tumor cell line which is resistant to the direct toxic effects of these cytokines, either alone or in combination. However, small concentrations of MuIFN-gamma when combined with small concentrations of either HuIL-1 or MuTNF activated these macrophages to produce cytotoxic effects against L5178Y cells; small concentrations of HuIL-1 and MuTNF in combination had no macrophage activating activity. Specific antibody to MuTNF blocked the macrophage-activating synergistic effects of MuIFN-gamma + HuIL-1, and specific antibody to HuIL-1 blocked the macrophage-activating activity of MuIFN-gamma + MuTNF, indicating that MuTNF was induced in macrophage cultures treated with MuIFN-gamma + HuIL-1, and that murine IL-1 was induced in macrophage cultures treated with MuIFN-gamma + MuTNF. These results indicate that all three cytokines are required for induction of antitumor cytotoxic activation of macrophages. Experiments with a concentration of MuIFN-gamma which alone could activate macrophages revealed that both MuTNF and murine IL-1 were required for this activation. The demonstration that small concentrations of these three cytokines can act synergistically, but not separately, to activate macrophages indicates the importance of cytokine combinations in immunoregulation and in anti-tumor cell-mediated immune responses.     

Enhancement of selective tumor cell binding by activated murine macrophages in response to phorbol myristate acetate

The fundamental biology of how stable cell-cell bonds develop between activated macrophages and tumor cells, although essential to lysis of the neoplastic targets, remains poorly understood. To investigate whether this phenomenon could be pharmacologically manipulated, we analyzed the effect of phorbol diesters on tumor cell binding by macrophages. Activated murine peritoneal macrophages, treated in vitro with as little as 1 ng/ml of phorbol myristate acetate (PMA), bound significantly more tumor cells than did untreated macrophages. The effect was induced rapidly by PMA (i.e., maximum enhancement was seen within 15 min) and resulted in an average approximately twofold increase in the number of targets bound. The interaction between PMA-treated activated macrophages and tumor cells was completed much more rapidly than by untreated macrophages. The enhanced binding was seen only in macrophages treated with biologically active phorbol esters. Only the selective interaction between activated macrophages and tumor cells was affected (i.e., PMA treatment had no effect on nonselective interactions between activated macrophages and non-neoplastic targets or between nonactivated macrophages and any type of target). Pretreatment of activated macrophages with PMA apparently altered the requirements for microfilaments and microtubules in establishing binding, because cytochalasin B and colchicine, which inhibited control binding, as well as phagocytosis, had no effect on PMA-enhanced binding. PMA treatment did not alter energy requirements for binding, however, because low temperature (4 degrees C) or inhibitors of glycolysis and oxidative phosphorylation blocked both control and PMA-enhanced binding. The enhancement of binding apparently was not due to large quantities of secreted oxygen metabolites but did correlate closely with increased spreading and surface area of the macrophages. PMA treatment resulted in enhanced expression of trypsin-sensitive tumor-cell binding sites on the macrophage surface. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of macrophage membrane proteins labeled with 125I by the lactoperoxidase method revealed at least four trypsin-sensitive cell surface proteins that were re-expressed after PMA treatment. The data suggest that rearrangement and/or induced expression of surface binding sites may be an important step in the binding of tumor cells and indicate that PMA is a useful pharmacologic probe in dissecting the establishment of such binding into discrete steps.     

The Trypanosoma cruzi protease cruzain mediates immune evasion

Trypanosoma cruzi is the causative agent of Chagas' disease. Novel chemotherapy with the drug K11777 targets the major cysteine protease cruzain and disrupts amastigote intracellular development. Nevertheless, the biological role of the protease in infection and pathogenesis remains unclear as cruzain gene knockout failed due to genetic redundancy. A role for the T. cruzi cysteine protease cruzain in immune evasion was elucidated in a comparative study of parental wild type- and cruzain-deficient parasites. Wild type T. cruzi did not activate host macrophages during early infection (<60 min) and no increase in ～P iκB was detected. The signaling factor NF-κB P65 colocalized with cruzain on the cell surface of intracellular wild type parasites, and was proteolytically cleaved. No significant IL-12 expression occurred in macrophages infected with wild type T. cruzi and treated with LPS and BFA, confirming impairment of macrophage activation pathways. In contrast, cruzain-deficient parasites induced macrophage activation, detectable iκB phosphorylation, and nuclear NF-κB P65 localization. These parasites were unable to develop intracellularly and survive within macrophages. IL 12 expression levels in macrophages infected with cruzain-deficient T. cruzi were comparable to LPS activated controls. Thus cruzain hinders macrophage activation during the early (<60 min) stages of infection, by interruption of the NF-κB P65 mediated signaling pathway. These early events allow T. cruzi survival and replication, and may lead to the spread of infection in acute Chagas' disease.     

Effects of diesel particles on the control of intracellular mycobacterial growth by human macrophages in vitro

Changes that may modify the capacity of macrophages to control mycobacterial growth could favour the reactivation of bacillary proliferation within protective granulomas developed in response to mycobacterial infection. There is increasing evidence that diesel exhaust particles (DEPs) could suppress some macrophage functions, but it is not known whether DEPs may alter macrophage mycobactericidal activity. The aim of this study was to assess the effect of DEPs on the mycobactericidal activity of human mononuclear phagocytes in vitro. Human monocytes from healthy donors were cultured for 3 days in the presence or absence of DEPs or carbon black particles (CBPs), and then infected with a Mycobacterium bovis bacillus Calmette-Guérin reporter strain expressing luciferase activity. DEPs were rapidly internalized by monocyte-derived macrophages without cytotoxic effect. Mycobactericidal activity of cells exposed to DEPs was not different from that of cells cultured in their absence or in the presence of CBPs. Although our study was restricted to the mycobactericidal activity of human macrophages in vitro, the results indicate that DEPs do not directly influence the first line of defence against microorganisms. Whether exposure to DEPs influences the adaptive immune response against mycobacterial infections remains to be determined.     

Discovery and characterization of human antibody inhibitors of pregnancy-associated plasma protein-A

Pregnancy-associated plasma protein-A (PAPP-A) is a metalloprotease that cleaves insulin-like growth factor-binding proteins (IGFBPs) to release bioactive levels of free insulin-like growth factor. Specific and potent inhibitors of PAPP-A may further elucidate the biological functions of this protease and could prove to be of therapeutic value. Phage display was used to discover fully human antibody inhibitors of PAPP-A activity towards IGFBP4 cleavage. Estimates of the inhibition constants for these antibodies were subsequently determined using a novel continuous assay of PAPP-A protease activity that uses an internally quenched synthetic peptide substrate (DX-1655). DX-1655 was hydrolyzed by PAPP-A with a K(m) of 33 muM and a k(cat) of 0.3 s(-1) (k(cat)/K(m)=9.1x10(3) M(-1) s(-1)). PAPP-A activity towards DX-1655 displays a bell-shaped pH profile, with pK(a) values of 8.2 and 10.8 and a maximum rate at approximately pH 9.5. Using this continuous assay, we measured apparent K(i) values of 1.7+/-0.2 and 7.4+/-1.5 nM for the F2 and D9 antibodies, respectively.     

Tenascin‐c renders a proangiogenic phenotype in macrophage via annexin II

Tenascin‐c is an extracellular matrix glycoprotein, the expression of which relates to the progression of atherosclerosis, myocardial infarction and heart failure. Annexin II acts as a cell surface receptor of tenascin‐c. This study aimed to delineate the role of tenascin‐c and annexin II in macrophages presented in atherosclerotic plaque. Animal models with atherosclerotic lesions were established using ApoE‐KO mice fed with high‐cholesterol diet. The expression of tenascin‐c and annexin II in atherosclerotic lesions was determined by qRT‐PCR, Western blot and immunohistochemistry analysis. Raw 264.7 macrophages and human primary macrophages were exposed to 5, 10 and 15 μg/ml tenascin‐c for 12 hrs. Cell migration as well as the proangiogenic ability of macrophages was examined. Additionally, annexin II expression was delineated in raw 264.7 macrophages under normal condition (20% O₂) for 12 hrs or hypoxic condition (1% O₂) for 6–12 hrs. The expression of tenascin‐c and annexin II was markedly augmented in lesion aorta. Tenascin‐c positively regulated macrophage migration, which was dependent on the expression of annexin II in macrophages. VEGF release from macrophages and endothelial tube induction by macrophage were boosted by tenascin‐c and attenuated by annexin II blocking. Furthermore, tenascin‐c activated Akt/NF‐κB and ERK signalling through annexin II. Lastly, hypoxia conditioning remarkably facilitates annexin II expression in macrophages through hypoxia‐inducible factor (HIF)‐1α but not HIF‐2α. In conclusion, tenascin‐c promoted macrophage migration and VEGF expression through annexin II, the expression of which was modulated by HIF‐1α.     

The Interaction of Acanthamoeba spp. with Activated Macrophages and with Macrophage Cell Lines

Acanthamoeba spp. are free-living amebae associated with amebic keratitis and chronic granulomatous amebic encephalitis. The present studies were undertaken to compare the pathogenicity of three species of Acanthamoeba in B₆C₃F₁ mice after intranasal challenge with Acanthamoeba-induced cytopathogenicity for different macrophage populations. The ability of murine macrophage cell lines and activated murine peritoneal macrophages to lyse Acanthamoeba has been assessed by coincubating macrophages with ³H-uridine labeled amebae. Conversely, destruction of macrophages by Acanthamoeba was determined by measuring the release of chro-mium-51 from radiolabeled macrophages. Acanthamoeba culbensoni , which is highly pathogenic for mice, destroys macrophage cultures in vitro. Activated primary peritoneal macrophages were more resistant to Acanthamoeba -mediated destruction than macrophage cell lines activated in vitro. Activated macrophages were capable of limited destruction of Acanthamoeba polyphaga and Acanthamoeba castellanii. Acanthamoeba -specific antibodies increased the amebicidal activity of activated macrophages. Macrophage-mediated destruction was by contact-dependent cytolysis and by ingestion of amebae. Conditioned medium obtained from macrophage cultures after treatment with lipopolysaccharide and interferon gamma was neither cytolytic nor cytostatic for Acanthamoeba spp. Purified recombinant cytokines including tumor necrosis factor α. interleukin 1α, and interleukin 1β, alone or in combination, were not cytolytic for Acanthamoeba trophozoites.     

Macrophage production of fibronectin, a chemoattractant for fibroblasts

Activation of macrophages results in the production of numerous enzymes and effector molecules. One of these monokines released by macrophages can cause directed migration of connective tissue fibroblasts in vitro. Production of this macrophage-derived chemotactic factor for fibroblasts requires activation of the macrophages either in vivo or in vitro and de novo protein synthesis. The chemotactic activity in the macrophage supernatants could be removed by a fibronectin-specific affinity column and was inhibited in the presence of antibodies to fibronectin. Furthermore, chemotactic activity in the depleted macrophage supernatants could be restored by the addition of exogenous fibronectin. Fibronectin was identified in activated macrophage supernatants by an enzyme-linked immunoassay for fibronectin. From these findings it was concluded that activated macrophages release a chemoattractant for fibroblasts and that the primary chemoattractant molecule is fibronectin. The production of fibronectin by activated macrophages may thus serve as an inflammatory mediator that in addition to its other functions can recruit fibroblasts to an area of damaged tissue, where they can proliferate and form the scar tissue necessary for tissue repair. Furthermore, in chronic inflammation, the prolonged activation of macrophages may be related to the extensive fibroblast infiltration and fibrosis that can accompany these lesions.