Differentiation of a cell line of mouse myeloid leukemia : I. Simultaneous induction of lysosomal enzyme activities and phagocytosis

Induction of phagocytic activity in the Ml cell line of mouse myeloid leukemia, on being exposed to a conditioned medium from cultured embryo cells, was accompanied by an increment in the activities of both lysosomal acid phosphatase and acid protease. The activity of these lysosomal enzymes, as well as that of phagocytosis, was not induced when Ml cells were incubated either with the conditioned medium subjected to heat treatment or in the presence of 5-bromodeoxyuridine (BUdR). The levels of these induced enzyme activities in Ml cells were comparable to those in normal mouse peritoneal macrophages. The lysosomal enzyme activity in Mm-1 cells, which were spontaneously differentiated from Ml cells and exhibiting a higher phagocytic activity, were reminiscent of those in peritoneal macrophages. Based on these observations, it was concluded that both phagocytosis and lysosomal enzyme activity occur simultaneously during the course of differentiation. This differentiation, morphological or functional, in Ml cells in the presence of the conditioned medium was further supported by biochemical evidence.     

Comparison of transforming growth factor-beta and a macrophage- deactivating polypeptide from tumor cells. Differences in antigenicity and mechanism of action

A factor in medium conditioned by mouse tumor cells was shown previously to suppress the capacity of mouse peritoneal macrophages to undergo a respiratory burst and to kill protozoal pathogens (macrophage deactivation factor, MDF). Recently, pure transforming growth factor-beta (TGF-beta) proved to be a potent macrophage deactivator as well. Two lines of evidence suggest that MDF is not identical with TGF-beta. First, rabbit anti-TGF-beta IgG neutralized the respiratory burst-suppressing activity of TGF-beta without affecting the bioactivity of MDF, even when the latter was treated with acid to activate potentially latent TGF-beta. Second, in contrast to MDF, which decreases the affinity of the NADPH oxidase for NADPH, permeabilized macrophages that had been deactivated with TGF-beta displayed the same Km and Vmax of the oxidase as activated macrophages. As with MDF, TGF-beta had no effect on two other potential control points over the secretion of respiratory burst products, namely, hydrogen peroxide catabolism or glucose uptake. Finally, neither MDF nor TGF-beta affected the extent or affinity of binding of phorbol diesters to macrophages, the activity or cofactor requirements for protein kinase C, or the ability of protein kinase C to translocate quantitatively from cytosol to membrane fractions in response to phorbol diesters. Thus, 1) MDF is not identical with TGF-beta, and 2) in contrast to the activation or deactivation of macrophages by numerous other agents, TGF-beta regulates macrophage respiratory burst capacity at a level other than the apparent affinity of the oxidase for its substrate.     

Oxygen Tension Modulates Differentiation and Primary Macrophage Functions in the Human Monocytic THP-1 Cell Line

The human THP-1 cell line is widely used as an in vitro model system for studying macrophage differentiation and function. Conventional culture conditions for these cells consist of ambient oxygen pressure (∼20% v/v) and medium supplemented with the thiol 2-mercaptoethanol (2-ME) and serum. In consideration of the redox activities of O₂ and 2-ME, and the extensive experimental evidence supporting a role for reactive oxygen species (ROS) in the differentiation and function of macrophages, we addressed the question of whether culturing THP-1 cells under a more physiologically relevant oxygen tension (5% O₂) in the absence of 2-ME and serum would alter THP-1 cell physiology. Comparisons of cultures maintained in 18% O₂ versus 5% O₂ indicated that reducing oxygen tension had no effect on the proliferation of undifferentiated THP-1 cells. However, decreasing the oxygen tension to 5% O₂ significantly increased the rate of phorbol ester-induced differentiation of THP-1 cells into macrophage-like cells as well as the metabolic activity of both undifferentiated and PMA-differentiated THP-1 cells. Removal of both 2-ME and serum from the medium decreased the proliferation of undifferentiated THP-1 cells but increased metabolic activity and the rate of differentiation under either oxygen tension. In differentiated THP-1 cells, lowering the oxygen tension to 5% O₂ decreased phagocytic activity, the constitutive release of β-hexosaminidase and LPS-induced NF-κB activation but enhanced LPS-stimulated release of cytokines. Collectively, these data demonstrate that oxygen tension influences THP-1 cell differentiation and primary macrophage functions, and suggest that culturing these cells under tightly regulated oxygen tension in the absence of exogenous reducing agent and serum is likely to provide a physiologically relevant baseline from which to study the role of the local redox environment in regulating THP-1 cell physiology.     

Stimulation and inhibition of neoplastic cell growth by tumor promoter-treated macrophages

Macrophages treated with 12-O-tetradecanoylphorbol-13-acetate (TPA), a potent inflammatory and tumor-promoting agent, can have the diametrically opposed functions of contact-mediated tumor cytotoxicity and release of soluble clonal proliferation factor(s) for tumor cells. In vitro TPA treatment of macrophages at 1.0 ng/ml induced prostaglandin E₂ release and morphological changes analogous to cell activation. In addition, conditioned medium from macrophages pulsed with TPA enhanced M109 carcinoma colony formation in vitro. Although macrophages were not rendered tumoricidal by TPA in vitro, cytotoxic macrophages were recovered from mice following ip treatment with TPA at 1–100 μg/kg. This indicated an indirect pathway for the activation of macrophages by TPA. The very weak tumor promoting 4-O-methyl-12-O-tetradecanoylphorbol-13-acetate lacked effects on macrophages at all doses tested. The possibility that macrophage secretions (e.g., prostaglandin E₂, angiogenesis-stimulating factor(s), and clonal proliferation factor(s) for carcinogen-triggered cells) may be involved in the tumor promotion process is discussed.     

小鼠鳞癌细胞培养液中溶骨因子的分离纯化

以7、12,二甲基(α)苯基蒽诱导建立了小鼠鳞癌细胞株,接种至裸鼠中可致高血钙。其细胞培养液经超滤浓缩100倍后,通过DEAE层析、Ultrogel AcA54层析、麦胚凝集素琼脂糖层析及HPLC(C_(18))。初步分离纯化了溶骨因子。这一溶骨因子在体外可显著刺激小鼠颅骨片中~(45)Ca的释出,伴有PGE2的生成及腺苷酸环化酶活性的增高,其分子量约15,000道尔顿。     

Effect of sulfite on the energy metabolism of mammalian tissues in correlation to sulfite oxidase activity

Mammalian tissues show significant differences in the activity of sulfite oxidase (EC 1.8.3.1) which detoxifies sulfite by oxidation to sulfate. Lung tissue and phagocytic cells such as alveolar macrophages, peritoneal macrophages, Kupffer cells and granulocytes show very low activities of sulfite oxidase. Liver tissue and hepatocytes, however, exhibit high activities of sulfite oxidase. Lung tissue and macrophages show an almost 100% decrease of the intracellular ATP levels when incubated with 1 mM sulfite at pH 6 for 30 min. In addition, the O₂ consumption of lung tissue is inhibited by 1 mM sulfite at pH 6 by more than 80%. This sulfite-induced decrease of the ATP level and of the O₂ consumption of lung tissue is enhanced between pH 6.0 and pH 7.4 with decreasing pH value of the incubation medium. In contrast, the ATP levels in liver tissue and hepatocytes are not affected by 1 mM sulfite at pH 6. The O₂ consumption of liver tissue and hepatocytes is significantly increased by sulfite due to the high activities of sulfite oxidase. Therefore, the activity of the ‘sulfite-detoxifying enzyme’ sulfite oxidase and the sensitivity of the energy metabolism to sulfite show a reciprocal relationship in the tissues and cells studied.     

Antibodies directed to antigens secreted by murine epithelioid macrophages modulate BCG-induced granulomata

The authors have previously shown that epithelioid cells isolated from mice secrete a factor, called macrophage deactivating factor (MDF), that promptly deactivates superoxide release by activated macrophages and neutrophils. In this paper some biological properties of a polyclonal rat antiserum directed to MDF and other substances secreted by these cells are described. The immunoglobulin fraction of this antiserum reacted, by immunocytochemical methods, with epitopes in the cell membrane of macrophages adherent to coverslips subcutaneously implanted for 14 days; but not for 5 days. It also reacted with antigens within and outside cells in BCG-induced granulomas. This antiserum blocked completely the macrophage deactivating activity of epithelioid cell culture supernatants. Anti-IL-10 monoclonal antibody, did not block MDF activity. The administration of the immunoglobulin fraction from immunized rats to C(5) deficient mice bearing BCG-induced granulomatas in the footpad, significantly reduced the size of the lesions. A marked necrosis of inflammatory cells and mononuclear cells phagocyting debris of necrotic cells were observed in these lesions.     

In vivo and in vitro activation of macrophages with a cyanine photosensitizing dye,platonin

A cyanine photosensitizing dye, platonin, is a potent macrophage-activating agent. Four days after the administration to mice of small amounts of platonin (20–40 ng/mouse), peritoneal macrophages exhibited greatly enhanced Fc-receptor-mediated phagocytic and superoxide-generating capacities. Much higher doses (more than 3000 ng/mouse) did not have this effect. Photodynamic experiments for macrophage activation were performed by exposing mouse peritoneal cells (mixture of macrophages and B and T lymphocytes) to white fluorenscent light (3 J m^–2s^–1) in media containing various low concentrations of platonin. A short exposure to white fluorescent light (5 s, 15 J m^–2) of peritoneal cells in a medium containing 3 ng platonin/ml produced a maximal level of phagocytic capacity of macrophages. Although platonin absorbs light poorly at wavelengths longer than 630 nm, the region of the spectrum in which the tissues are transparent allows reasonable penetration of light. Thus, we designed experiments in which peritoneal cells were exposed to a red fluorescent light (0.5 J m^–2s^–1). In a medium containing 10 ng platonin/ml with 15 J m^–2 red light, a markedly enhanced ingestion activity of macrophages was observed. Photodynamic treatment of peritoneal macrophages alone did not activate macrophages. Thus, participation of nonadherent cells is required for photodynamic activation of macrophages, implying that a macrophage-activating factor is generated within the nonadherent cells and transmitted to macrophages.     

Hydrogen peroxide increases the phagocytic function of human neutrophils by calcium mobilisation

We have studied the effect of exogenous administration of hydrogen peroxide (H₂O₂) on phagocytic activity of human neutrophils. The treatment of cells with increasing concentrations of H₂O₂ evoke a significant elevation of phagocytic function assayed as phagocytic index, percentage and efficiency; and was similar to that induced by the calcium mobilising agonist formyl-methionyl-leucyl-phenylalanine (fMLP). This stimulatory effect was reduced by pre-treatment of neutrophils with catalase and abolished in neutrophils loaded with the intracellular calcium quelator dimethyl BAPTA. In the absence of extracellular calcium, treatment of cells with H₂O₂ resulted in a increase in [Ca²⁺] _i , indicating the release of calcium from intracellular stores. H₂O₂ abolished the typical calcium release stimulated by the physiological agonist fMLP, while depletion of agonist-sensitive calcium pools by fMLP was able to prevent H₂O₂-induced calcium release. We conclude that H₂O₂ induces calcium release from agonist-sensitive stores and consequently increase the phagocytosis process.     

Hydrogen peroxide release by rat peritoneal macrophages in the presence and absence of tumor cells

The ability of mineral oil-elicited rat peritoneal macrophages to release hydrogen peroxide (H₂O₂) to the extracellular medium was measured in the presence and absence of rat lymphoma cells grown in tissue culture, and in the presence of phorbol myristate acetate (PMA). Horseradish peroxidase (HRP)-catalyzed oxidation of scopoletin or phenol red was used to measure H₂O₂ release during incubation of cells in monolayer culture for periods up to 24 h. Macrophages appeared to release H₂O₂ with or without PMA, although PMA greatly increased the amount of H₂O₂ released in short (1 to 4 h) incubations. Tumor cells did not replace PMA as a triggering agent for H₂O₂ release. Instead, tumor cells inhibited H₂O₂ release. The probable basis for inhibition was competition between macrophages and tumor cells for the supply of oxygen (O₂). Tumor cells did not inhibit H₂O₂ release when the O₂ concentration was held constant. The rates at which macrophages took up O₂ and released H₂O₂ were proportional to the O₂ concentration, as measured with the O₂ electrode. Rates of H₂O₂ release could be calculated from the difference in the rate constants for O₂ uptake measured in the presence of two different extracellular H₂O₂-consuming systems (HRP-scopoletin vs catalase). PMA-stimulated uptake of O₂ and release of H₂O₂ were highest in a small subpopulation of macrophages, obtained at the lowest-density position on gradients of bovine serum albumin. These cells also released H₂O₂ in the absence of PMA. Tumor cells had no effect on the rate constants for O₂ uptake and H₂O₂ release by the unfractionated macrophages or the macrophage subpopulations.     

Antineoplastic drug NSC631570 modulates functions of hypoxic macrophages

Hypoxia is an important factor in the macrophages microenvironment. Many physiological and pathological processes including solid tumor development are characterized by both low oxygen content and presence of macrophages. Tumor-associated hypoxia causes alternative polarization of macrophages in tumor tissue and transformation of these cells into the allies of a malignant neoplasm. The aim of the work was to investigate the effect of NSC631570, a cancer-selective drug that is known to selectively accumulate in the tumor tissue, on hypoxic macrophage function. Murine peritoneal macrophages (PMs) were subjected to hypoxia (3% O₂). Nitrite level was assayed by the Griess reaction. Arginase activity was measured by colorimetric method. ROS generation and phagocytosis was estimated by flow cytometry. O ₂ ^? generation was assayed by the NBT reduction method. HMGB1 expression was determined by ELISA. 42 h hypoxia caused alternative polarization of murine PMs with significant arginase prevalence. NSC631570 repolarized arginine metabolism of hypoxic macrophages to NOS dominant and activated their pro-inflammatory functions: recovered ROS production and increased alarmin release. Thus, NSC631570 can restore pro-inflammatory functions of macrophages, alternatively polarized by hypoxia.     

Effect of polar glycopeptidolipids from Mycobacterium Chelonae (GPLp-Mc) on phagocytosis and superoxide anion production of macrophages from mice. Influence of physical activity

It is not clear how macrophages respond to exercise when the immune system is previously activated. The aim of the present work was to determine the response of macrophages to exercise in already immunostimulated animals with polar glycopeptidolipids extracted from Mycobacterium chelonae (GPLp-Mc). Results showed an increased phagocytosis and O₂ ^- production in murine macrophages induced by the intraperitoneal administration of 25 mg/kg body weight of GPLp-Mc. In addition exercise stimulated phagocytic activity and decreased the O₂ ^- production of these cells. Unexpectedly, exercise did not potentiate the immunostimulatory effect of GPLp-Mc. However, we can conclude that the effect of exercise is not detrimental to immunostimulated animals.     

Characterization and purification of mouse macrophage procoagulant-inducing factor

Macrophage procoagulant-inducing factor (MPIF) is a product of mouse Lyt-1+2- cells that induces macrophage procoagulant activity (MPCA) on mouse peritoneal exudate cells or on the macrophage-like tumor cell line WEHI-265. Supernatants from Sepharose-bound concanavalin A-stimulated cells were fractionated by using DEAE-Sephacel, heparin-Sepharose, and isoelectric focusing. This procedure resolved three different MPIF: MPIF alpha (pI 8.5), MPIF beta (pI 8.8 to 9.2), and MPIF gamma (pI 5 to 5.5). MPIF alpha and beta were small molecules (approximately 14 kD and 20 to 25 kD) as determined by gel filtration on Sephadex G200 and Biogel P100. MPIF beta was sharply resolved as a peak eluting after lysozyme by gel filtration on HPLC columns I-150 and I-125, although SDS-PAGE of the HPLC-enriched material resolved two well-defined bands of 70 and 120 kD and some poorly defined material of 14 kD. Silver staining failed to detect components of MPIF alpha after SDS-PAGE. MPIF gamma activity was associated with material that separated over a broad range (20 to 60 kD and 60 to 200 kD), possibly due to aggregation with other components of the supernatants. Crude supernatants were stable to heating at 56 degrees C for 30 min and pH 2 treatment, although more highly enriched fractions were unstable to these treatments. Heating at 90 degrees C for 5 min totally destroyed MPIF activity. The properties of the two basic MPIF differ from other lymphokines known to affect macrophage function, e.g., colony-stimulating factor, migration-inhibition factor, interferon-gamma, and interleukin 1.     

Tumor necrosis factor as an interleukin 1-dependent differentiation inducing factor (D-factor) for mouse myeloid leukemic cells

Experiments were conducted to purify the differentiation-inducing factor (D-factor), which induces differentiation of mouse myeloid leukemic cell line, Ml, into macrophage-like cells, in a conditioned medium of guinea pig peritoneal macrophages stimulated with lipopolysaccharide. On gel filtration under high performance liquid column chromatography (HPLC), D-factor eluted at the position of 45-15 KD. By the subsequent separation on DEAE HPLC the D-factor activity disappeared. However, in the presence of recombinant human IL 1 alpha the D-factor activity appeared at a position where tumor necrosis factor (TNF) eluted. Even after fractionation on hydroxyapatite HPLC the IL 1-dependent D-factor was co-chromatographed with TNF. Recombinant human TNF as well as the partially purified guinea pig TNF induced differentiation of Ml cells in conjunction with either the partially purified guinea pig IL 1 or recombinant human IL 1 alpha, although these factors by themselves did not induce differentiation. These findings suggest that a part of D-factor activity in the conditioned medium resulted from the cooperative effects between TNF and IL 1.     

Peptides from Paracoccidioides brasiliensis GP43 inhibit macrophage functions and inflammatory response

Paracoccidioidomycosis (PCM) is a systemic granulomatous disease caused by Paracoccidioides brasiliensis (Pb), a thermal dimorphic fungus. Its major antigen is a 43-kDa glycoprotein. Gp43 embodies different functions: it participates in evasion mechanisms during the installation of primary infection, stimulates granuloma-like formation in vitro and presents T-cell epitopes that induce protective response against the fungus. Here, we investigated epitopes from gp43 inhibitory of both, macrophage functions and inflammatory reaction. Different gp43 peptides, spanning the entire sequence of the molecule, were added to cultures of bone marrow-derived macrophages. After challenge with zymosan or Pb cells, phagocytic indexes were measured. Peptides expressed on the molecule surface were determined by graphic analysis using the Protean module; DNAstar Inc. Two peptides which decreased phagocytic index and were expressed at the surface of the molecule, P4 and P23, were selected for further studies. It was shown that both inhibited the release of NO by zymosan stimulated macrophages while enhanced release of H₂O₂. The release of TNF-α in culture supernatants from in vitro phagocytic tests showed different response depending of P4 concentration (data not shown). In vivo assays with Mycobacterium bovis – bacillus Calmette–Guérin (BCG) or Pb cells demonstrated that these peptides presented non-specific and specific anti-inflammatory properties.     

Contribution of lysophosphatidylcholine-treated nonadherent cells to mechanism of macrophage activation

Lysophosphatidylcholine (lyso-PC), a product of inflammation, stimulates (in vivo) mouse peritoneal macrophages to ingest target cells via Fc receptors. In vitro treatment of macrophages with lyso-Pc was unable to enhance ingestion activity. When a mixture of macrophages and nonadherent (B and T) cells was treated with 20 micrograms of lyso-Pc/ml for 30 min, a greatly enhanced Fc-mediated ingestion was observed at about 3 hr after treatment, suggesting that nonadherent cells contributed to activation mechanism of macrophages. The accumulated evidence suggests that treated B cells collaborated with untreated T cells in a stepwise fashion for the exchange of a signaling factor(s) for macrophage activation. When conditioned medium prepared by stepwise cultivation from treated B cells to untreated T cells was used for cultivation of untreated macrophages, a markedly enhanced Fc-mediated ingestion was observed. However, cultivation of macrophages with stepwise conditioned medium of treated T cells and untreated B cells produced no significant enhancement of phagocytic activity. Therefore, we concluded that lyso-Pc-treated B cells initiated the macrophage activation process by releasing and transmitting a signaling factor to T cells, and, in turn, the T cells modified the factor or supplied a new factor capable of the ultimate activation of macrophages for ingestion capacity. This lyso-Pc-induced factor(s) appears to be distinct from the established interleukins 1 and 2.     

Identification of the serum factor required for in vitro activation of macrophages. Role of vitamin D3-binding protein (group specific component, Gc) in lysophospholipid activation of mouse peritoneal macrophages

In vitro treatment of mouse peritoneal cells (mixture of adherent and nonadherent cells) with lysophosphatidylcholine (lyso-Pc) in 10% FCS supplemented medium RPMI 1640 results in a greatly enhanced FcR-mediated phagocytic activity of macrophages. This macrophage-activation process requires a serum factor. Fractionation studies with starch block electrophoresis of fetal calf and human sera revealed that alpha 2-globulin fraction contains a serum factor essential for macrophage activation. To identify the serum factor, human serum was precipitated with 50% saturated ammonium sulfate and fractionated on a Sephadex G-100 column. A protein fraction with a lower m.w. than albumin had the capacity to support activation of macrophages. The active serum factor in this protein fraction was analyzed by immunoabsorption by using rabbit antisera against three major proteins of human alpha 2-globulin. This active serum factor was shown to be a vitamin D3-binding protein (group specific component, Gc). By using a monoclonal anti-Gc-absorbed active column fraction of human serum, we observed no enhanced macrophage activation over the results with serum fraction-free cultivation of lyso-Pc-treated peritoneal cells. Cultivation of lyso-Pc-treated peritoneal cells in a medium containing a low concentration of purified human Gc protein (0.1 to 2.6 ng/ml) produced a greatly enhanced phagocytic activity of macrophages. When purified human Gc protein was used in a serum-free medium for stepwise cultivation of lyso-Pc-treated nonadherent cell types, a macrophage-activating factor was efficiently generated. Therefore, it is concluded that the vitamin D3-binding protein is the essential serum factor for the lyso-Pc-primed activation of macrophages.     

The macrophage adherence phenomenon: Its relationship to prostaglandin E2 and superoxide anion production and changes in transmembrane potential

Mononuclear phagocytes are undoubtedly the sine qua non of chronic inflammatory reactions. This is demonstrated by their unique ability to function as phagocytic, secretory, or effector cells during the course of an immune event. Although macrophages can perform a variety of immune tasks, their ability to function appropriately is dependent upon the mode of elicitation, the stimulus under investigation, the source of the macrophages (peritoneal, alveolar, etc.), and whether the macrophages are monolayers or in suspension. We have examined the relationship between adherent and non-adherent elicited peritoneal macrophages in terms of prostaglandin E₂ (PGE₂) and superoxide anion (O₂) production; in addition, we hae studied these elicited macrophages in suspension for their ability to undergo transmembrane potential changes in response to several stimuli. Non-adherent, elicited peritoneal macrophages demonstrated an increase in basal PGE₂ production, and were refractory to particulate stimulus. After monolayer formation, basal PGE₂ levels dropped and the cell could respond to both soluble and particulate stimuli. Only adherent macrophages could respond to a specific challenge and synthesize O₂. Both O₂ production and depolarization of the transmembrane potential were suppressed in cell in suspension. Furthermore, both exogenous PGE₂ and supernatant from macrophages in suspension could modulate O₂ production by PMA challenged macrophages monolayers. These studies indicate that PGE₂ may modulate macrophage function and dictate activity as macrophages go from the non-adherent to adherent state.     

Stimulation by conditioned medium of L-929 fibroblasts, E. coli lipopolysaccharide,and muramyl dipeptide of candidacidal activity of mouse macrophages

A simple, quantitative assay method for microbicidal activity of phagocytic cells was devised using normal mouse peritoneal macrophages as effector cells and Candida parapsilosis as target cells. The macrophages were seeded in 96-multiwell tissue culture plates and infected with serially diluted Candida cells. Outgrowth of Candida cells in each well was estimated after a 48-hr incubation period. The maximum number of microbes killed on macrophage monolayers was then determined. The conditioned medium of L-929 cells (L-CM) influenced the fungicidal activity of the macrophages a great deal. An addition of L-CM, to 20% of the culture medium, stimulated the killing activity more than 128-fold, compared with no addition of L-CM. In the medium containing the L-CM macrophages spread very well on the plastic with several dendritic processes, whereas cells spread poorly and gradually cytolysed in the medium lacking L-CM. It was found that muramyl dipeptide at 100 μg/ml and E. coli lipopolysaccharide at 1–10 μg/ml stimulated the activity 4 to 16 times. An application of this method to destroying other kinds of microbes, measuring the activity of other phagocytes, and screening immunomodulators was discussed.     

A mouse tumor-derived osteolytic factor stimulates bone resorption by a mechanism involving local protaglandins production in bone

Culture medium which was conditioned by tissue of a CE mouse breast tumor in vitro containes dose-dependent osteolytic activity. The osteolytic activity was not soluble in dichloromethane and ethylacetate, indicating that it was not attributable to vitamine D metabolites or prostaglandins. HOwever, breast tumor-conditioned medium stimulated production and release of prostaglandin E₂ from mouse calvaria in vitro, and the stimulation of bone resorption in vitro by breast tumor-conditioned medium was blocked by a dose of indomethacin that prevented stimulation of mouse calvarial prostaglandin E₂ production and release. The resorptive activity of parathyroid hormone(PTH) was not affected by the same dose of indomethacin, suggesting that the osteolytic factor was not PTH. This was further supported by observation that mouse kidney cell cAMP production was stimulated by PTH, but not only by the aqueous phase of ethylacetate-extracted breast tumor-conditioned medium. In addition to osteolytic activity, breast tumor-conditioned medium contained a dose-dependent bone cell mitogenic activity, demonstrated by the stimulation of [³H]thymidine incorporation into trichloroacetic acid-insoluble macromolecules and a corresponding increase in bone cell number in monolayer cultures of bone cells. Breast tumor-conditioned medium also contained a dose-dependent transforming growth factor-(TGF)-like activity as defined by its ability to transform anchorage-dependent growth of nontransformed cells to anchorage-independent growth. The TGF in breast tumor-conditioned medium did not compete with epidermal growth factor (EGF) for EGF receptor binding, but its transforming activity was greatly enhanced by EGF, indicating that it was a β-type TGF. Both the osteolytic and mitogenic activities were nondialyzable, sensitive to reducing agent, and not removable by dichloromethane and ethylacetate extractions. Furthermore, the TGF activity was not removed by the ethylacetate extraction. Thus, the possibility that these activities in breast tumor-conditioned medium might be mediated by the same molecule must be considered. In summary, our data suggest that the CE mouse mammary carcinoma cells produce and secret into the culture medium an osteolytic factor which is neither PTH nor prostaglandin and which stimulates local synthesis in bone of prostaglandin E₂ which in turn increased bone resorption in vitro.