Mouse macrophage hybridomas secreting a cytotoxic factor and interleukin 1

Stable mouse macrophage hybridomas were produced by somatic cell fusion between proteose peptone-elicited peritoneal macrophages and NS-1 myeloma cells. Three cloned hybrid cell lines, designated as N/P-5-3, -6-2, and -7-1, exhibited typical macrophage-like morphology. Moreover, their macrophage characteristics were confirmed by the manifestation of intracellular nonspecific esterase, the detection of Mac-1 antigens and Fc-receptors on the cell surface, and the demonstration of phagocytic and antigen-presenting activities. Furthermore, these cell lines, stimulated with LPS, secreted considerable amounts of a cytotoxic factor and interleukin 1. Cultured cells of various tumor cell lines were sensitive to the cytotoxic factor, but normal thymocytes, spleen cells, and liver cells were not killed by the factor.     

Murine T-cell hybridomas that produce lymphokine with macrophage-activating factor activity as a constitutive product

Responder spleen cells primed to alloantigens in vivo could generate high degree of cytotoxicity against low- or nonimmunogenic stimulators such as thymocytes or uv light-treated spleen cells in vitro. However, a removal of adherent cells from primed responder cells remarkably reduced the cytotoxicity after stimulation with such low-immunogenic stimulators. Adding a small number of peritoneal adherent cells (PACs) also suppressed the cytotoxic activity of unseparated responders against low-immunogenic stimulators. These suppressive effects by PACs were blocked by indomethacin. By adding prostaglandin E₂, cytotoxic T lymphocyte (CTL) generation of primed unseparated responders against low-immunogenic stimulators was suppressed; however, cytotoxic activity against mitomycin C-treated stimulators was not suppressed. These results suggested that prostaglandins released from PACs selectively inhibited the function of splenic adherent cells that were required for CTL generation of primed responder spleen cells against low-immunogenic stimulators in vitro.     

Establishment of rat-mouse T cell hybridomas that constitutively produce a soluble factor that is needed for the generation of cytotoxic cells: biochemical and functional characterization

Spleen cells from Lewis rats were cultured with 4 micrograms/ml Con A. These cells were then fused with BW 5147 mouse T lymphoma cells. Two hybrid clones (6B2-B8 and 6B2-E6) obtained by fusion formed CGF effectively. It was found that hybrid cells can be boosted to produce higher levels of CGF upon stimulation with Con A. 6B2-B8 express rat T cell markers. CGF formed by 6B2-B8 had a m.w. of 23,000 and 40,000. CGF was eluted from a Mono Q anion-exchange column with an FPLC system at 0.4 to 0.6 M NaCl as a major peak and at 0.8 M NaCl as a minor peak. CGF was eluted as three peaks with pH 4.1, 4.8, and 5.2 from a Mono P chromatofocusing column. CGF from 6B2-B8 does not contain IL-1, IL-2, IL-3, or CSF.     

Demonstration of a novel tumor-killing factor secreted from human macrophage-monocyte hybridomas

We constructed human macrophage-monocyte hybridomas between a thymidine kinase-deficient human macrophage-like cell line, designated as TAM-2, and human peripheral blood monocytes in order for the study of cytokines from human monocytes. The hybrid and macrophage-monocyte nature of the growing cells was confirmed by the following facts: 1) All of the hybridomas established possess TK activity, whereas the TAM-2 cells are TK negative. 2) Most but not all of the hybridomas express the MaG-1 Ag which was shown to be a human macrophage-granulocyte specific Ag, but not T- and B-specific Ag. In the assay for cytokine, a few of the hybridomas produced a novel tumor-killing factor (TKF) after stimulation with PMA, polypeptone, and retinoic acid. Chemical nature of the TKF from the 3-63 hybrid clone was characterized and compared to those of well-known TNF and lymphotoxin. The TKF from a hybridoma was basic protein and had binding capacity to Con A-Sepharose, whereas TNF had an opposite nature. Moreover, TKF activity was not neutralized by both a murine monoclonal antibody against human TNF and rabbit antisera against human lymphotoxin. Thus, these results strongly indicate that the TKF is a novel TKF produced by human monocytic cells.     

The production of a cytotoxic factor by mouse peritoneal macrophages and macrophage hybridomas treated with various stimulating agents

Murine peritoneal macrophages elicited with a streptococcal preparation, OK-432, produced as much of a cytotoxic factor after stimulation with lipopolysaccharide (LPS) as BCG-elicited macrophages did. Proteose peptone-elicited macrophages produced a very small amount, if any, of the factor, and resident peritoneal macrophages did not release it at all even after LPS-stimulation. A newly established macrophage hybridoma, D/O-3.3, produced the factor after LPS-stimulation, but another hybridoma, D/O-3.2, did not. Experiments using these peritoneal macrophages and macrophage hybridomas demonstrated that macrophages can be divided into three subpopulations with regard to stages of activation for production of the cytotoxic factor. The first is fully activated macrophages which produce the factor after stimulation with LPS or MAF-C alone, the second is partially activated macrophages which produce the factor only after stimulation with a combination of recombinant interferon-gamma (rIFN-gamma) and LPS or rIFN-gamma and macrophage activating factor for cytotoxicity (MAF-C), and the third is nonactivated macrophages which cannot produce the factor at all.     

Cultured human foreskin fibroblasts produce a factor that stimulates their growth with properties similar to basic fibroblast growth factor

Summary To determine if fibroblasts could be a source of fibroblast growth factor (FGF) in tissue, cells were initiated in culture from newborn human foreskin. Cells were studied in Passages 2 to 8. Fibroblast cell lysates promoted radiolabeled thymidine uptake by cultured quiescent fibroblasts. Seventy-nine percent of the growth-promoting activity of lysates was recovered from heparin-Sepharose. The heparin-binding growth factor reacted on immunoblots with antiserum to human placenta-derived basic FGF and competed with iodinated basic FGF for binding to antiserum to (1-24)bFGF synthetic peptide. To confirm that fibroblasts were the source of the growth factor, cell lysates were prepared from cells incubated with radiolabeled methionine. Heparin affinity purified material was immunoprecipitated with basic FGF antiserum and electrophoresed. Radiolabeled material was detected on gel autoradiographs in the same molecular weight region as authentic iodinated basic FGF. The findings are consistant with the notion that cultured fibroblasts express basic FGF. As these cells also respond to the mitogen, it is possible that the regulation of their growth is under autocrine control. Fibroblasts may be an important source of the growth factor in tissue. Supported in part by grant DK 31063 from the National Institutes of Health, Bethesda, MD.     

Detection of human factor B biosynthesis in culture supernatants and cell lysates by ELISA

We report here on the development of a simple, sensitive, convenient, and quantitative enzyme-linked immunosorbent assay for human factor B, a protein of the alternative complement pathway, by the sandwich method using goat anti-human factor B antibody. The assay described herein is reproducible and highly specific for human factor B. The assay was used to determine biosynthesis (cell lysates or extracts) and secretion (supernatants) of human factor B using human monocyte cell line U937. Phorbol myristate acetate strongly enhanced (10- to 20-fold) biosynthesis of factor B by U937. The combination of a sensitive enzyme-linked immunosorbent assay and phorbol myristate acetate enabled us to use a microculture system.     

Coexistence of a chemotactic factor and a retroviral P15E-related chemotaxis inhibitor in human tumor cell culture supernatants

Two sets of seemingly contradictory evidence have been reported concerning the effects of tumor cell products on the regulation of monocyte migration in vitro and presumably the extravasation of macrophages into tumors in vivo. The present study was designed to explore the relationship between chemotactic and anti-chemotactic products related to tumor cells: a tumor-derived chemotactic factor (TDCF) and retroviral P15E-related inhibitor(s) of chemotaxis. Culture supernatants of the human 8387 sarcoma and SW626 ovarian carcinoma were depleted of P15E-related antigens with immobilized anti-P15E monoclonal antibodies. This treatment produced a significant and consistent increase of the polarizing and chemotactic activity in the tumor cell supernatants. The material eluted from Sepharose-bound anti-P15E antibodies was devoid of chemotactic and polarizing activity and suppressed the polarization and migration of monocytes in response to chemoattractants. These results demonstrate the coexistence in culture supernatants of two human tumor cell lines of factors with opposite influences on monocyte chemotaxis. The data suggest that the entry of monocytes into neoplastic tissue may be regulated by the interplay of chemotactic and anti-chemotactic principals produced by tumor cells.     

Generation of transgenic chickens that produce bioactive human granulocyte-colony stimulating factor

We report here the generation of transgenic chickens that produce human granulocyte-colony stimulating factor (hG-CSF) using replication-defective Moloney murine leukemia virus (MoMLV)-based vectors packaged with vesicular stomatitis virus G glycoprotein (VSV-G). The recombinant retrovirus was injected beneath the blastoderm of nonincubated chicken embryos (stage X). Out of 140 injected eggs, 17 chicks hatched after 21 days of incubation and all hatched chicks were found to express vector-encoded hG-GSF gene. The biological activity of the recombinant hG-CSF was significantly higher than its commercially derived E. coli-derived counterpart. Successful germline transmission of the transgene was also confirmed in G(1) transgenic chicks produced from the cross of Go transgenic roosters with nontransgenic hens, but most of the G(1) progeny were dead within 1 month of hatching.     

Production of T cell differentiation factor in syngeneic lymphocyte macrophage culture for cytotoxic T lymphocyte generation

This study demonstrated that T cell differentiation factor (TCDF) was produced in syngeneic lymphocyte-macrophage cultures. Conditioned medium containing TCDF and interleukin 2 (IL 2) induced the differentiation of leukoagglutinin (LA)-activated cytotoxic T lymphocyte precursors (CTLp) into cytotoxic T lymphocyte (CTL) effectors. The production of TCDF and IL 2 peaked at day 4 to 5 in cultures containing normal spleen cells, syngeneic peritoneal macrophages, and indomethacin. Macrophages and T cells with Thy-1+, L3T4+, and Lyt-2- phenotype were needed for TCDF production. There was no requirement for xenogeneic serum in the culture medium; thus, TCDF could be produced in a syngeneic system. Recognition of self Ia molecules appeared to be essential for TCDF production, which was completely abolished by the addition of monoclonal anti-Ia antibody. In our experiments, removal of IL 2 from conditioned medium containing TCDF abolished its ability to generate LA-activated CTL. However, the cytotoxic response could be restored by the addition of a small amount (5 U/ml) of purified human recombinant IL 2 (HRIL 2), which alone was unable to generate LA-activated CTL at this dose. The generation of LA-activated CTL by high dose HRIL 2 (greater than 50 U/ml) was likely due to the endogenous production of TCDF. The bulk of TCDF could be separated from IL 2 by gel filtration in a Sephadex G-100 column. The peak of TCDF activity was concentrated at a m.w. of 16K dalton, and there was very little IL 2 activity in these fractions. When added alone to the LA-activated lymphocyte cultures, these active fractions were unable to induce CTL; supplementation of exogenous IL 2 was needed to restore the cytotoxic responses. Our findings indicate that both IL 2 and TCDF, which are needed in CTL generation. are produced in syngeneic cultures in the absence of antigenic or mitogenic stimulation.     

Characterization of macrophage activation factor, a lymphokine that causes macrophages to become cytotoxic for tumor cells.

Macrophage activation factor (MAF) was isolated from PPD-stimulated, BCG-immune mouse spleen cell culture fluids. In nine gel filtration runs on Sephadex G-100 or G-200, MAF was eluted in a single peak corresponding to a MW of 55,000 ± 1600. Recovery of activity was about 65%. Since the relative concentration curve of eluted MAF was wider than that of a single protein, MAF activity may be due to more than one protein with similar molecular weights. This possibility is strengthened by a broad elution range on DEAE cellulose chromatography, from a specific conductance of 3.5 to 8.5 mmho/cm, at pH 7.9. MAF was labile at both pH 4 and 10, and was destroyed by proteolytic enzymes. Eighty percent was destroyed by heating at 56 °C for 30 min. In affinity chromatography experiments, MAF did not bind to Con-A Sepharose; but it was bound to insolubilized Cibacron-blue and was eluted by an increase in ionic strength.     

Partial characterization of the macrophage factor that stimulates fibroblasts to produce collagenase and to degrade collagen

Rabbit bone marrow-derived macrophages in culture produce and release a soluble factor that activates collagenase secretion and collagen degradation by cultured skin fibroblasts from either rabbit, mouse or human origin. The factor is heat-labile and is inactivated by phenylglyoxal. After gel filtration, it is recovered in both an apparent high-Mr (67000-76000) and a low-Mr (9000-14000) form. Chromatography on cation exchangers suggests two molecular species with different charge properties. These characteristics are compatible with known properties of rabbit interleukin 1.     

Characterization of the human blood lymphocytes that produce a histamine-induced suppressor factor (HSF)

The cells which elaborate a soluble suppressor factor in vitro in response to histamine (histamine-induced suppressor factor or HSF) were partially characterized in the present studies. Human blood T- and B-cell populations were purified by affinity chromatography with rabbit anti-human F(Ab′)₂ and examined for their ability to make HSF. Highly purified populations of T cells, but not B cells, produced HSF in response to varying concentrations of histamine (10^?4 to 10^?4M). The HSF-producing cells were characterized further by means of affinity chromatography with columns containing conjugates of insolubilized histamine as well as by rosette formation with IgG (Tγ)- or IgM (Tμ)-coated ox red blood cells. These studies revealed the following: (a) Cells that synthesize HSF are retained on histamine (but not control) columns; (b) cells with histamine receptors comprise approximately 50% of the Tγ subpopulation but are not found in the Tμ subpopulation; (c) cells not retained by histamine columns have a reduced capacity to develop into suppressor cells following stimulation by concanavalin A or specific antigen (compared to unfractionated or control column passed cells). In addition, it was shown that cells synthesizing HSF predominantly express histamine type 2 receptors: (d)4-Methyl histamine (H₂ agonist), but not 2-methyl histamine (H₁ agonist), was capable of inducing HSF production; (e) cimetidine (H₂ antagonist) inhibited HSF production but chlorpheniramine (H₁ antagonist) did not. Taken together, these experiments suggest that T lymphocytes capable of expressing suppressor function following activation by histamine, specific antigen, concanavalin A, or perhaps through their Fc receptors may either be heterogeneous within the same subpopulation or more likely be the same cell with the complement of receptors described above.     

A human macrophage hybridoma producing a cytotoxic factor distinct from TNF,LT, and IL-1

Summary A stable human macrophage hybridoma was established by somatic cell fusion between human peripheral blood monocyte-derived macrophages and an 8-azaguanine resistant clone of a human histiocytic lymphoma cell line U-937 (clone U-937-F9). The hybrid cell line (F9P) exhibited typical macrophage-like morphology and had 30 more chromosomes than U-937-F9 cells. Its macrophage characteristics were confirmed by the manifestation of intracellular nonspecific esterase, the detection of Mo-2 and LEU-M3 antigens on the cell surface, and the demonstration of phagocytic activity. Furthermore, when stimulated with lipopolysaccharide (LPS), this cell line could secrete a considerable amount of a cytotoxic factor (CTF). Distinct from the hybrid cell line, the parental U-937-F9 cells expressed neither Mo-2 nor LEU-M3 antigens on the cell surface, did not show phagocytic activity, and their culture supernatants did not show cytotoxic activity even after LPS stimulation. The activity of CTF in the culture supernatant of the LPS-stimulated hybrid cells could not be neutralized with anti-tumor necrosis factor, anti-interleukin-1, or anti-lymphotoxin antibodies. The CTF had a relative molecular mass of 45–60×10³ daltons as determined by gel filtration on a column of Superose 12, and an isoelectric point of 5.1. The cytotoxic activity was also induced when the hybrid cells were stimulated with the concentrated supernatants of a human T-cell hybridoma containing macrophage activating factor for cytotoxicity or with LP3 tumor cells which were used as target cells.     

Purification and characterization of a cytotoxic factor produced by a mouse macrophage hybridoma

A mouse macrophage cytotoxic factor was purified to homogeneity from the serum-free culture supernatant of a mouse macrophage hybridoma clone, N/P-7-1, stimulated with lipopolysaccharide by gel filtration, affinity chromatography, anion-exchange chromatography, and polyacrylamide gel electrophoresis. The purified material was judged to be homogeneous as to the criteria of sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), and has a relative molecular mass of 17,500, as determined by SDS-PAGE, or 55,000, as determined by gel filtration on columns of both Sephacryl S-200 and TSK G3000SW. It has an isoelectric point of 5.0, and is trypsin sensitive, stable at 56 degrees C and labile at pH less than 6. The cytotoxic activity of the purified factor could not be inhibited by various sugars and lectins. The production of the factor from N/P-7-1 triggered by macrophage-activating factor for cytotoxicity, but not by mouse recombinant gamma-interferon. The factor should be synthesized after lipopolysaccharide stimulation because treatment of N/P-7-1 cells with a metabolic inhibitor, emetine or actinomycin D, prevents the production.     

Helper factors for hapten-self cytotoxic T cells occur in NZB culture supernatants despite deficient AMLR

The ability of helper T cells from NZB mice to produce non-interleukin 2 (IL-2) lymphokines in the autologous mixed lymphocyte reaction (AMLR) was examined. Factors present in normal AMLR culture have been previously reported to mediate the development of a cytotoxic T-cell response to trinitrophenyl (TNP)-modified syngeneic thymocytes. Young NZB mice, like the normal strains, were able to produce the helper factors in the AMLR and to utilize these mediators in the cytotoxic induction system. Old autoimmune NZB mice demonstrated a poor proliferative response in the AMLR and were unable to activate hapten-specific cytotoxic cells in the presence of AMLR culture supernatant from either young or old mice. This was not due to a lack of cytotoxic precursors, nor was it a normal consequence of aging, but may be related to decreased IL-2 production by helper T cells. Interestingly, supernatant from AMLR proliferation deficient old NZB mice contained normal amounts of the AMLR helper factor. These data suggest that AMLR helper factor production is not directly related to the proliferative response and that two different helper-T-cell subpopulations may be responsible for these activities. The production of these mediators in mice which cannot utilize them raise questions about their role in autoimmunity.     

Production of human/mouse hybridomas secreting a human lymphokine,osteoclast activating factor

A human/mouse hybridoma was developed which has the property of secreting a human bone resorbing factor similar or identical to the osteoclast activating factor (OAF) isolated from human tonsil lymphocytes. Mouse plasmacytoma cells negative for OAF production were fused with an enriched subpopulation of human tonsil lymphocytes that had been activated with phytohemagglutinin (PHA) to produce OAF (G. E. Nedwin, M. A. Mohler, and R. A. Luben, submitted for publication). Culture supernatants from mixed hybridomas contained a bone resorbing protein shown to cause the release of ⁴⁵Ca from previously labeled mouse calvaria. The bone resorbing activity from these hybridomas was inhibited by the presence of OAF-specific monoclonal antibodies. Several hybridomas retained OAF production following limited dilution cloning. One clone, CD6.20, showed a biphasic dose-response curve for bone resorption similar to that of purified OAF from PHA-activated human tonsil lymphocytes. OAF production in the CD6.20 cell line has been retained for over 100 passages. Karyotype analysis of this cell shows the presence of human chromosomes 10 and 18 and the X chromosome.     

Platelet-activating factor acetylhydrolase increases during macrophage differentiation. A novel mechanism that regulates accumulation of platelet-activating factor

Monocytes and macrophages produce bioactive lipids, such as platelet-activating factor (1-O-alkyl-2-acetyl-sn-glycero-3-phosphocholine, PAF), that mediate inflammation. These cells synthesize PAF following their activation, but not constitutively. Previous studies have demonstrated that PAF accumulation is regulated by the activity of the synthetic enzymes. We observed that the accumulation of PAF in stimulated human monocytes decreased by 90% as they differentiated into macrophages. There was no decrease in the activities of the synthetic enzymes; however, the activity of the degradative enzyme, PAF acetylhydrolase, increased 260-fold. The increase in PAF acetylhydrolase activity appeared to result from a net increase in the synthesis of a new enzyme. These studies demonstrate a novel mechanism in which an increase of the degradative enzyme regulates the accumulation of PAF. This may be an important mechanism by which macrophages modulate inflammatory responses.     

Heterogeneous profiles of a factor that renders neutrophils cytotoxic obtained from a concanavalin A-stimulated spleen cell culture in partial purification process

Concanavalin A (Con A)-stimulated rat spleen cells were cultured in a serum-free conditioned medium. This culture supernatant contained a certain factor(s) that renders neutrophil cytotoxic for various tumor cells. The factor was tentatively termed neutrophil-activating factor (NAF). Rat NAF was partially purified from the serum-free culture supernatant by using ion exchange chromatography of DEAE-Sephadex A-50, gel filtration of Sephadex G-100, and affinity chromatography of Con A-Sepharose 4B. NAF activity was eluted in broad fractions by the ion exchange chromatography and the gel filtration. Moreover, on the Con A column, some NAF activities were bound to the column, but other activities passed through the column. These results showed the heterogeneity or polydispersity of NAF activity in both molecular size and charge-based separation properties. Monoclonal antibodies were produced by fusing BALB/c myeloma cells (P3-X63 Ag8.653) with spleen cells from syngeneic mice immunized with partially purified NAF (pNAF) obtained from the gel filtration. Absorbent beads which were linked with one monoclonal antibody (ANAF-10) partially absorbed NAF activity from supernatants of a Con A-stimulated spleen cell culture. Further purification of pNAF was performed with the use of affinity chromatography of ANAF-10-linked Sepharose. Through these procedures, the NAF activity was concentrated about 10,000-fold. Heterogeneity of NAF activity, however, did not disappear in even this affinity chromatography. On the other hand, 125I-labeled material of the final product migrated to one major band corresponding with an m.w. of about 20,000 as determined by SDS-PAGE analysis, and NAF activity was detected in the same band.