A T cell-independent mechanism of macrophage activation by interferon-gamma

A primary interest in immunity to intracellular pathogenic microorganisms and tumors is to understand the mechanisms by which macrophages are activated for various functions. Two parameters of macrophage activation are the expression of the class II histocompatibility proteins or Ia molecules (1), and cytotoxic activity. The ability of T cells to induce these responses has been extensively documented and occurs via their secretion of interferon-gamma (IFN-gamma) after interaction with antigen (2-6). However, in a recent study using mice with the severe combined immunodeficiency (scid) mutation (7) which have no detectable T or B cell functions (7-9), we were surprised to find the induction of Ia expression on macrophages and the partial inhibition of bacterial growth after infection with Listeria monocytogenes (10). We have now utilized neutralizing monoclonal antibodies specific for murine IFN-gamma to investigate the mechanism of macrophage activation in scid mice. We show here that IFN-gamma can be produced by scid mice in the absence of lymphocyte-mediated immunity, and this IFN-gamma is important for macrophage activation during infection with Listeria. These results indicate the presence of an important T lymphocyte-independent mechanism of macrophage activation and IFN-gamma production in response to infection.     

Protein kinase C in tumoricidal activation of mouse macrophage cell lines

A potential role of protein kinase C (PKC) in lipopolysaccharide- (LPS-) induced tumoricidal activation of macrophages was investigated by using two mouse macrophage cell lines (P388D1 and J774). J774 cells are stimulated by LPS to kill target P815 mastocytoma cells, whereas P388D1 cells fail to develop such an ability. Pretreatment of J774 cells with H-7 or phorbol myristate acetate resulted in a significant inhibition of LPS-induced cytotoxicity, whereas pretreatment with H-8, ML-7, HA1004, or W-7 did not. Since these results suggested a critical role of PKC in the activation process, the properties of PKC in the two cell lines were compared. Western blotting with rabbit antiserum specific for the PKC beta regulatory domain allowed detection of a protein of 79 kilodaltons (kDa) in the detergent lysates of both cell lines that were not stimulated by LPS. However, LPS treatment resulted in the appearance of a second protein of 40 kDa only in J774 cells and not in P388D1 cells. Furthermore, two forms of protein kinase (one basic and the other acidic) were identified in the cytosol of J774 cells by HPLC on DEAE-5PW, whereas only the basic form was found in P388D1 cells. On the basis of the response of the basic and acidic form protein kinases to phosphatidylserine (PS), diolein, and Ca2+, the basic form was found to contain both regulatory and catalytic domains of PKC, whereas the acidic form was suggested to represent the PKC catalytic domain.(ABSTRACT TRUNCATED AT 250 WORDS)     

Dissociation of c-fos induction from macrophage differentiation in human myeloid leukemic cell lines.

Treatment of five human myeloid leukemic cell lines (KG1, ML3, HL-60, U-937, and HEL) with TPA was followed by macrophage differentiation and was accompanied by an early and transient increase in the mRNA level of c-fos proto-oncogene. The induction of c-fos was also observed in human cell lines K562 and K-Gla that did not respond to TPA with terminal macrophage differentiation. The treatment of HL-60 and U-937 cell lines with 1-oleoyl-2-acetylglycerol, a synthetic analog of diacylglycerol that, like TPA, stimulates protein kinase C activity, was followed by early and transient induction of c-fos mRNA in the absence of terminal macrophage differentiation. Finally, treatment of HL-60 with TPA in the presence of retinal, an inhibitor of protein kinase C, drastically reduced the induction of c-fos mRNA but had no effect on the terminal macrophage differentiation that is induced in this cell line by TPA. These results indicate that the induction of c-fos and terminal macrophage differentiation in response to TPA treatment can be dissociated in the in vitro models provided by human myeloid leukemic cell lines. Moreover, these findings suggest that the induction of c-fos is not only insufficient but may also be unnecessary for the differentiation along the monocyte-macrophage pathway.     

Proceedings: Differential induction of chromosome aberrations in mammalian cell lines.

Mutagenesis was studied in repair- and recombination-deficient strains of Haemophilus influenzae after treatment with N-nitrosocarbaryl (NC). Three different strains of H. influenzae carrying mutations affecting excision-repair of UV-induced pyrimidine dimers exhibited normal repair of premutational lesions (as detected by decreased mutation yield resulting from post-treatment DNA synthesis delay) and normal nonreplicative mutation fixation. This indicates that neither of these phenomena are caused by the same repair mechanism that removes UV-induced pyrimidine dimers from the DNA.The recombination-deficient mutant rec1 is apparently deficient in the replication-dependent mode of NC-induced mutation fixation. This conclusion is based on the following results: (1) NC-induced mutagenesis is lower in the rec1 strain than in rec⁺ cells. (2) Repair of premutational lesions (which depends on the existence of replication-dependent mutation fixation for its detection) was not detected in the rec1 strain. (3) When nonreplicative mutation fixation and final mutation frequency were measured in the same experiment, about $\text{1}\text{4}$ to $\text{1}\text{3}$ of the final mutation yield could be accounted for by nonreplicative mutation fixation in the rec⁺ strain, whereas all of the mutation could be accounted for in the rec1 strain by the nonreplicative mutation fixation. (4) When mutation fixation in strain dna9 rec1 was followed at the permissive (36°) and nonpermissive (41°) temperatures, it became apparent that in the rec1 strain replication-dependent mutation fixation occurs at early times, but these newly fixed mutations are unstable and disappear at later times, leaving only the mutations fixed by the nonreplicative process.The rec1 strain exhibits normal repair of NC-induced single-strand breaks or alkali-labile bonds in the DNA labeled before treatment, but is slow in joining discontinuities present in DNA synthesized after treatment. The results are consistent with the idea that in NC-treated H. influenzae cells the replication-dependent mode of mutation fixation occurs by error-prone joining of interruptions present in the DNA synthesized after treatment. The possibility still exists, however, that during DNA replication mispairing occurs opposite certain alkylation-induced lesions and that mutations arising during replication of strain rec1 later disappear as a result of degradation of newly synthesized DNA, which is excessive in this strain.     

Unspecific activation of caspases during the induction of apoptosis by didemnin B in human cell lines

Caspases have been implicated in the induction of apoptosis in most systems studied. The importance of caspases for apoptosis was further investigated using the system of didemnin B-induced apoptosis. We found that benzyloxycarbonyl-VAD-fluoromethylketone, a general caspase inhibitor, inhibits didemnin B-induced apoptosis in HL-60 and Daudi cells. Acetyl-YVAD-chloromethylketone, a caspase-1-like activity inhibitor, inhibits didemnin B-induced apoptosis in Daudi cells, whereas the caspase-3-like activity inhibitor, acetyl-DEVD-aldehyde, has no effect. Using immunoblots to investigate cleavage of caspases-1 and -3, we found that both caspases are activated in both cell lines. We showed that the caspase substrate poly(ADP-ribose)polymerase is cleaved in these cells after didemnin B treatment. In both cell lines, poly(ADP-ribose)polymerase cleavage is inhibited by benzyloxycarbonyl-VAD-fluoromethylketone and also by acetyl-YVAD-chloromethylketone in Daudi cells. These results indicate that a caspase(s) other than caspase-3 is required for didemnin B-induced apoptosis. We show that caspases may be activated during apoptosis that are not required for the progression of apoptosis.     

Infection of murine macrophage cell lines by Legionella pneumophila

Legionella pneumophila causes pneumonia by infecting alveolar macrophages. Although several model systems have been used for L. pneumophila virulence studies, no detailed comparisons have been made between them. An ideal in vitro virulence model should be cost-effective, easy to obtain in large amounts and as relevant as possible to the actual disease. We compared the MH-S cell line to human peripheral blood monocyte-derived macrophages and the J774A.1 cell line. We found that the interactions of L. pneumophila with MH-S at the cellular level resemble those of human primary monocyte-derived macrophages, suggesting that these cells provide a valuable model for this bacterial pathogen.     

Differential activation of phospholipases by mitogenic EGF and neurogenic PDGF in immortalized hippocampal stem cell lines

In several neuronal systems, nerve growth factor (NGF) and platelet-derived growth factor (PDGF) act as neurogenic agents, whereas epidermal growth factor (EGF) acts as a mitogenic agent. Hippocampal stem cell lines (HiB5) immortalized by the expression of a temperature-sensitive SV40 large T antigen also respond differentially to EGF and PDGF. While EGF treatment at the permissive temperature induces proliferation, the addition of PDGF induces differentiation at the non-permissive temperature. However, the mechanism responsible for these different cellular fates has not been clearly elucidated. In order to clarify possible critical signaling events leading to these distinct cellular outcomes, we examined whether either EGF or PDGF differentially induces the activation of phospholipases, such as phospholipase A(2) (PLA(2)), C (PLC), or D (PLD). Although EGF stimulation did not induce phospholipases, PDGF caused a rapid and transient activation of PLC and PLD, but not PLA(2). When the activation of PLC or PLD was blocked, the neurite outgrowth induced by PDGF was significantly inhibited. Although the activation of PLD occurred faster than PLC, blocking of PLD activity by transient expression of lipase-inactive mutants did not inhibit the induction of PLC activity by PDGF. These results suggest that the differential activation of phospholipases may play an important role in signal transduction by mitogenic EGF and neurotrophic PDGF in HiB5 neuronal hippocampal stem cells. In particular, the activation of phospholipase C and D may contribute to neuronal differentiation by neurogenic PDGF in the HiB5 cells.     

Glucose induces an autocrine activation of the Wnt/beta-catenin pathway in macrophage cell lines

The canonical Wnt signalling pathway acts by slowing the rate of ubiquitin-mediated beta-catenin degradation. This results in the accumulation and subsequent nuclear translocation of beta-catenin, which induces the expression of a number of genes involved in growth, differentiation and metabolism. The mechanisms regulating the Wnt signalling pathway in the physiological context is still not fully understood. In the present study we provide evidence that changes in glucose levels within the physiological range can acutely regulate the levels of beta-catenin in two macrophage cell lines (J774.2 and RAW264.7 cells). In particular we find that glucose induces these effects by promoting an autocrine activation of Wnt signalling that is mediated by the hexosamine pathway and changes in N-linked glycosylation of proteins. These studies reveal that the Wnt/beta-catenin system is a glucose-responsive signalling system and as such is likely to play a role in pathways involved in sensing changes in metabolic status.     

Insertional activation of N-myc by endogenous Moloney-like murine retrovirus sequences in macrophage cell lines derived from myeloma cell line-macrophage hybrids.

Hybrids formed from a myeloma cell line, NS1, and macrophages initially show myeloma properties but later, after loss of the parental macrophage genome and consequent loss of myeloma characteristics, express macrophage properties. Molecular studies demonstrated that macrophage properties in the hybridomas originate from the NS1 parental cells (M. Setoguchi, S. Yoshida, Y. Higuchi, S. Akizuki, and S. Yamamoto, Somatic Cell Mol. Genet. 14:427-438, 1988). In such hybrids, N-myc was activated by insertion of endogenous Moloney-like retrovirus sequences into mouse N-myc exon 3 when the hybrids gained macrophage properties. Interestingly, expression of N-myc took place in all aged hybrids. These results suggest that such unique insertional mutagenesis occurs in a regionally specific manner and that expression of N-myc may play a role in hematopoietic lineage conversion.     

Production of prostaglandin D2 by murine macrophage cell lines

Several tumor-derived murine macrophage cell lines were evaluated in vitro as cloned prototypes of tissue macrophages for their ability to metabolize arachidonic acid. Unexpectedly, two cell lines, J774A.1 and WR19M.1, rapidly converted exogenous 14C-arachidonic acid (AA) to a single major prostaglandin metabolite. The compound, PGD2, was positively identified by TLC, HPLC, and GC-MS. The enzymatic formation of the PGD2 was shown by inhibition of its formation by indomethacin and reduced formation of 14C-PGD2 from 14C-PGH2 in boiled cells. When J774A.1 cells were prelabeled with 3H-AA, cultured for 24 hours, and stimulated with lipopolysaccharide (LPS), PGD2 was again the predominant product. No other tumor derived cell lines, including several other murine macrophage lines, produced significant amounts of PGD2. Elicited and activated murine peritoneal macrophages produced only small amounts of PGD2, but resident peritoneal macrophages produced modest amounts of PGD2. Exaggerated formation of PGD2 by J774A.1 and WR19M.1 cells may be a consequence of neoplastic transformation or the clonal expansion of a minor subpopulation of normal tissue macrophages.     

Regulation of macrophage activation markers by IL-4 and IFN-gamma is subpopulation-specific

We have addressed the differential regulatory properties that IFN-gamma and IL-4 exert on macrophage (M phi) subpopulations. For this purpose, Thyoglicolate-, Peptone-, and Con A-elicited M phi, as well as bone marrow-derived M phi and P388D1 cells, were cultured in the presence of either IFN-gamma or IL-4. The expression of LFA-1, Mac-1, and Mac-2 after this treatment was studied by FACS analysis. We have found that these surface molecules are differentially modulated by the two lymphokines, depending on the M phi subpopulation studied. Mac-1 is upregulated only in Thyoglicolate-elicited cells after treatment with IFN-gamma, while no change in the expression of Mac-2 was observed in any of the groups. LFA-1 is upregulated by IFN-gamma in Thyoglicolate- and bone marrow-derived M phi and P388D1 cells, while IL-4 does not induce LFA-1 on these cells. Interestingly, however, we have observed the reverse situation on Con A-elicited M phi, where a strong induction of LFA-1 is achieved by treatment of the cells with IL-4, while IFN-gamma does not modify the expression of this antigen. Our results obtained with the lymphokine-stimulated M phi are interpreted in the context of functionally induced M phi subpopulations, which might be regulated by either Th1 or Th2 CD4+ T cells. Thyoglicolate-elicited M phi may represent the in vitro equivalent of a M phi subpopulation regulated in vivo by Th1 cells while Con A-elicited M phi could be the equivalent of a subpopulation regulated by Th2 cells.     

Role of protein kinase C and intracellular calcium mobilization in the induction of macrophage tumoricidal activity by interferon-gamma

These studies were designed to test the hypothesis that changes in intracellular Ca2+ levels and activation of the calcium ion- and phospholipid-dependent protein kinase C were required for the induction of macrophage tumoricidal activity by interferon-gamma (IFN-gamma). Phenothiazines and R24571, known antagonists of calcium-binding proteins and therefore nonspecific inhibitors of protein kinase C, blocked in a dose-dependent manner the induction of macrophage cytocidal activity by either natural or recombinant IFN-gamma. Macrophages depleted of intracellular Ca2+ by chelation with Quin 2, were also unresponsive to IFN-gamma. These treatments effected neither the binding of IFN-gamma to its cell surface receptor nor the normal intracellular processing of IFN-gamma. Activators of protein kinase C (such as phorbol esters) and Ca2+ ionophores when added alone did not effect the activation state of the macrophage population. However, macrophages exposed to both drugs in combination were elevated into the primed activation state such that in the presence of a second signal (lipopolysaccharide or heat killed Listeria monocytogenes), the cells were triggered to express full levels of tumoricidal activity. The capacity of phorbol esters to induce cellular activation correlated with their ability to bind and to activate protein kinase C. No synergistic effect was observed between IFN-gamma and protein kinase C activators and/or Ca2+ ionophores, indicating that the drugs could only prime and could not trigger macrophages for tumor cell killing. These results thus support the concept that protein kinase C activation and mobilization of intracellular Ca2+ are essential steps in the pathway of IFN-gamma-dependent induction of non-specific tumoricidal activity in macrophages.     

Functional macrophage cell lines transformed by Abelson leukemia virus.

Three cloned cell lines have been established from murine tumors induced with Abelson leukemia virus which express properties of macrophages. Two of the three original tumors in addition yielded lymphocyte cell lines, one typical of the Abelson virus disease and the other a thymic lymphoma. Two of the macrophage lines are tumorigenic when placed in syngeneic mice. All of the macrophage lines pinocytose neutral red, phagocytose zymosan and latex beads, mediate antibody-dependent killing and phagocytosis of sheep erythrocyte targets, and secrete high levels of lysozyme. None of these properties was exhibited by the lymphocyte lines. Of the two macrophage cell lines tested, neither was capable of replacing the adherent cell population required for the induction of in vitro immune responses. An agent that activates normal macrophages, bacterial lipopolysaccharide, specifically inhibits the growth of the transformed macrophages in culture. Secretion of infectious Abelson leukemia virus by two of the macrophage lines, RAW 309Cr and WR 19M, provides conclusive evidence that the Abelson virus is capable of productively infecting the macrophage cell type. The other macrophage line, RAW 264, fails to secrete detectable virus particles and is negative in the XC plaque formation assay, as well as the fibroblast transformation assay for Abelson virus, but becomes positive for Abelson virus production after rescue by Moloney leukemia virus.     

Differential mRNA expression of prostaglandin receptor subtypes in macrophage activation

Assessing the regulation of macrophage receptors for prostaglandin (PGE2) is essential to understanding the control which that potent lipid mediator has in modulating macrophage activities. The purpose of this study was to assess the differential mRNA expression of PGE2 receptor subtypes (EP) during macrophage exposure to activating and transducing agents. RAW 264.7 macrophages constitutively expressed mRNA for EP2,EP3 and EP4 receptor subtypes. Messenger RNA for EP4 was expressed at a much higher level when compared to EP2 in unstimulated macrophages as assessed by kinetic quantitative RT-PCR. When macrophages were stimulated with LPS, EP2 m RNA levels were 12-fold higher when compared to unstimulated macrophages, while EP4 m RNA remained unchanged. Conversely, mRNA levels of both EP2 and EP4 receptors were lower after macrophages were treated with IFN-gamma. Messenger RNA levels of both receptors were lower in macrophages after treatment with PGE2 or dibutyryl (db) cAMP Addition of the PKA inhibitor H89 reversed the effects of PGE2 and dbcAMP to varying degrees. Proteosome and p38 MAP kinase inhibitors blocked the LPS-stimulated increase in EP2 mRNA levels. Those inhibitors had no effect on EP4 mRNA.Thus, activating agents such as LPS and IFN-gamma may differentially regulate mRNAfor PGE2 receptor types in macrophages but the ligand and its associated signal transducing factors probably have similar regulatory effects.     

Differential effects of interferon-gamma on metabolism of lipoprotein immune complexes mediated by specific human macrophage Fcgamma receptors

The objectives were to determine whether there are differences in the mechanisms of lipoprotein metabolism associated with different FcgammaRs and how metabolism associated with FcgammaRs compares to that mediated by scavenger receptors (SRA). To analyze lipoprotein metabolism in a receptor-specific manner, bispecific antibodies were used to target low density lipoproteins (LDL) labeled with (125)I or [(3)H]cholesterol linoleate to FcgammaRI or FcgammaRIIA in human macrophages. Interferon-gamma (IFN-gamma), which stimulates expression of FcgammaRI while inhibiting expression of SRA, was used to help delineate differences in metabolism between each receptor. For each receptor, the total amount of lipoprotein degradation paralleled changes in receptor expression induced by IFN-gamma. In particular, while SRA-mediated degradation typically exceeded degradation mediated by FcgammaRI, in IFN-gamma-treated cells degradation associated with FcgammaRI and SRA was similar. Assay of [(3)H]cholesterol linoleate-labeled lipoproteins indicated that total uptake and hydrolysis of [(3)H]cholesterol linoleate was similar for each class of receptor, and inhibited by IFN-gamma. For FcgammaRI versus FcgammaRIIA, in the presence or absence of IFN-gamma, the [(3)H]cholesterol derived from FcgammaRIIA-mediated uptake was preferentially targeted for re-esterification to [(3)H]cholesterol oleate, in comparison to that resulting from hydrolysis of [(3)H]cholesterol linoleate incorporated by selective uptake. For SRA, the formation of [(3)H]cholesterol oleate, which was substantial in control cells, was significantly inhibited in the presence of IFN-gamma. We conclude that there may be differences in cholesterol trafficking with respect to lipoprotein immune complex metabolism mediated by different classes of FcgammaRs.     

Taming of macrophage and microglial cell activation by microRNA-124

Microglial cells are from the myeloid lineage and are the only hematopoietic cell resident to the central nervous sys-tem (CNS). They populate the CNS during d...     

Production of macrophage activating factor by human leukemic T cell lines

Human leukemic T cell lines were tested for their ability to produce a macrophage activating factor. When mouse peritoneal macrophages were cultured for 48 hr in the presence of culture supernatants from cell lines HPB-ALL, CCRF-CEM, or MOLT-4, glucose oxidation via the hexose monophosphate pathway was enhanced by five to seven fold. Culture supernatants from cell line HPB-MLT stimulated the oxidation to a lesser extent. However, cell line CCRF-HSB-2 was essentially inactive as a producer. The active supernatants also stimulated the release of hydrogen peroxide from macrophages, whereas the inactive one did not. Since treatment of the cell lines with 12-o-tetradecanoyl phorbol acetate or phytohemagglutinin had little effect on the production of the factor except HPB-ALL, the cell lines seemed to secrete the factor constitutively. The stimulatory effect was dose-dependent and evident at a concentration as low as a 1/80 dilution. The factor was resistant to heat treatment at 100 C for 20 min, nondialysable and sensitive to protease digestion. The activating factor could be partially purified by anion exchange and gel filtration chromatographies.     

The role of interferon-gamma in induction of differentiation of human myeloid leukemia cell lines, ML-1 and HL-60

Highly purified natural interferon-gamma (IFN-gamma) induced differentiation having characteristics that are associated with the human promyelocytic leukemia cell line, HL-60. Monoclonal antibody to INF-gamma neutralized its activity. However, the natural IFN-gamma had almost no inducing activity in ML-1, a human myeloblastic leukemia cell line. Similar results were obtained using recombinant IFN-gamma. Mitogen stimulated human leukocyte conditioned medium (LCM) induced differentiation of both ML-1 and HL-60 cells. After treatment of LCM with monoclonal antibody to IFN-gamma, LCM activity was reduced more than 50% in ML-1 cells, and 80% in HL-60 cells. Even if IFN-gamma was eliminated from LCM by affinity chromatography, the LCM induced differentiation of ML-1 and HL-60 cells, but IFN-gamma markedly enhanced the ML-1 cell differentiation induced by IFN-gamma free LCM. The results suggest that leukocytes produce differentiation inducing factor(s) other than IFN-gamma, and that IFN-gamma is both an inducer and an enhancer of induction of human myelogenous leukemia cells.