Cultured vascular endothelial cells secrete a protein factor(s) that promotes the contraction of collagen lattices made with fibroblasts

Conditioned media collected from arterial endothelial cells contain protein factor(s) that promotes the contraction of collagen lattices made with skin fibroblasts. Based on the lattice contraction-promoting activity, a protein with an apparent molecular weight of 22 kDa was identified. This 22-kDa protein stimulated lattice contraction in both serum-containing and serum-free media. When assayed at a 30% equivalent of the conditioned medium, the contraction-promoting activity of the purified factor was about 50 to 60% of that elicited by the unfractionated conditioned medium. Some contraction-promoting activity was also present in certain subfractions of the conditioned medium generated during the separation of the 22-kDa protein. Taken together, the results indicate that the lattice contraction-promoting activity in the endothelial cell-conditioned medium is probably aided by multiple active principles. The biochemical and biological characteristics indicated that the 22-kDa protein is not a transforming growth factor-beta-related factor nor a fibroblast growth promoter.     

Basic fibroblast-like growth factor is present in the conditioned medium of simian sarcoma virus transformed NRK cells

The conditioned medium of Simian sarcoma virus (SSV)-transformed NRK cells contains at least two activities that down regulate the epidermal growth factor receptor. To identify these activities, we analyzed the medium for the presence of factors both related to and distinct from the v-sis oncogene product. Fractionation of the conditioned medium from SSV-transformed NRK cells by chromatography on heparin-Sepharose yielded two active fractions capable of inhibiting EGF binding. The first component, which eluted at 0.8 M NaCl, is able to induce autophosphorylation of the platelet-derived growth factor (PDGF) receptor, is a mitogen for Swiss 3T3 cells and corresponds to the PDGF B chain product of the v-sis oncogene. The second component requires 2 M NaCl for elution, is mitogenic for Swiss 3T3 cells and inhibits high affinity EGF binding through a protein kinase C-independent pathway, all properties of basic FGF. These results suggest that the conditioned medium of v-sis-transformed cells contains at least two factors that can act in an autocrine capacity, one derived from v-sis and one corresponding to basic FGF.     

Endothelial cells produce a latent inhibitor of plasminogen activators that can be activated by denaturants

Conditioned medium from cultured bovine aortic endothelial cells contains an inactive plasminogen activator inhibitor (PAI). This latent PAI can be "activated" with denaturants. For example, less than 0.01 units/microliter of PAI activity was detected in untreated conditioned medium, but medium treated with sodium dodecyl sulfate (1.7 mM), guanidine HCl (4 M), urea (12 M) or KSCN (6 M) contained 0.9, 1.9, 0.8, and 0.5 units/microliter, respectively. This effect was dose-dependent with respect to the particular reagent used, and the same concentration of reagent which induced PAI activity also stimulated the ability of a component in conditioned medium to form sodium dodecyl sulfate-stable complexes with exogenously added plasminogen activators. Neither activity was stimulated by extensive dialysis or by treatment with NaCl (5 M), Na2SO4 (2.8 M), or dicetyl phosphate (0.1%). Analysis of treated and untreated conditioned medium by gel filtration revealed that the latent and active PAIs migrated with apparent Mr values of 30,000 and 50,000, respectively. Thus, "activation" is associated with an increase in the apparent Mr of the molecule. These observations suggest that activation does not result from the removal of either a small dialyzable component from the medium, or of a large Mr component that is bound to the latent PAI. Other possible mechanisms of activation are discussed. We recently isolated an active PAI from bovine endothelial cells (van Mourik, J.A., Lawrence, D.A., and Loskutoff, D.J. (1984) J. Biol. Chem. 259, 14914-14921). Monospecific antiserum to this active PAI selectivity immunoprecipitated the latent PAI from conditioned medium. These results indicate that the two PAIs are immunologically related and suggest that the latent form is converted into the active form by the sodium dodecyl sulfate present during the purification.     

Characterization of the factor in L-cell conditioned medium capable of stimulating colony formation by mouse marrow cells in culture

Medium harvested from cultures of mouse L-cells contains “conditioning factor activity” (CFA) that may be detected by its ability to stimulate colony formation by mouse marrow cells in culture. The active material has been characterized and appears to be a glycoprotein with properties similar to those reported for the colony-stimulating activity in human urine. Characterization of trypsin-digested material indicated that only part of the molecule is essential for biological activity. The CFA has been partially purified from serum-free L-cell conditioned medium, and evidence has been obtained that radioactivity derived from labelled valine or glucosamine may be incorporated into the factor. L-cell conditioned medium appears to be a convenient source of partially-purified, highly active material, suitable for use in studies on its mechanism of action.     

Conditioned medium from cultured rat hepatocytes completely blocks induction of glutamine synthetase by dexamethasone in several rat liver epithelial cell lines

A variant RL-ET-1G of a rat liver epithelial cell line (RL-ET-1) characterized by a very high inducibility for glutamine synthetase (GS) in response to dexamethasone was established by cultivation in glutamine-free, glutamate-supplemented culture medium. Using this cell line, conditioned medium produced by periportal hepatocytes in primary culture was found to suppress this induction, acting with a lag-phase of about 8 h irrespective whether the GS activity was basal or preinduced. Analysis of the response of several epithelial cell lines to the conditioned medium showed a reciprocal relationship between the dexamethasone-dependent induction and the residual activity after exposure to the conditioned medium, indicating that a hypothetical factor in the conditioned medium was interfering with the induction process but not with the basal GS level of these cells. Careful analysis revealed that the effect of the conditioned medium was neither due to deficiency of a component used up by the hepatocytes, nor due to glutamine or ammonia, both of which affected GS activity at concentrations above 0.5 mmol/L. The hypothetical factor was found to be quite small (molecular mass range 100–500 Da), heat and acid stable, as well as highly water soluble. Most interestingly, the conditioned medium did not suppress GS induction in astroglial cells and in the two hepatoma cell lines C2 and FAO, but strongly diminished the spontaneous induction of GS in cocultured pig hepatocytes, suggesting that the hypothetical factor acts primarily on normal nontransformed liver-derived cell populations.     

Factors regulating the metabolism of low-density lipoprotein-proteoglycan complex in macrophages

We studied the factors regulating the metabolism of low-density lipoprotein (LDL)-proteoglycan complex, LDL and acetyl-LDL in mouse peritoneal macrophages. Macrophage conditioned medium stimulated the degradation of LDL-proteoglycan complex and acetyl-LDL in a dose-dependent manner and enhanced cholesteryl ester synthesis mediated by these ligands. The conditioned medium had no such effect in a cell-free system. The conditioned medium enhanced the degradation of both the LDL and proteoglycan components of the complex. The degradation of LDL was not affected by the conditioned medium. The active factor in the conditioned medium was labile to boiling, suggesting that it may be protein in nature. The conditioned medium also lost its stimulatory activity after dialysis through a membrane with an exclusion limit of 25,000 daltons, suggesting the involvement of cytokines and/or other growth factors. Macrophage activation was accompanied by a 2-3-fold increase in the degradation of LDL-proteoglycan complex and acetyl-LDL as compared to the degradation of these ligands in resident macrophages; however, this had no effect on LDL degradation. The degradation of all three ligands increased markedly with decreasing cell density. Preincubation of macrophages for 48 h with increasing concentrations of fetal bovine serum produced a substantial increase in the subsequent degradation of LDL-proteoglycan complex and acetyl-LDL, while it had very little effect on the degradation of LDL. The active factor in serum was destroyed by boiling, suggesting that it may be a protein. These results show that the scavenger receptor, mediating the uptake and degradation of LDL-proteoglycan complex and acetyl-LDL and LDL receptor are regulated differently in mouse peritoneal macrophages.     

Transforming growth factor-beta-like activity is secreted by rabbit renal cortical tubular cells in primary culture.

The activity of an autocrine growth factor in a medium conditioned by cultured rabbit renal cortical tubular cells was investigated. Little stimulatory growth activity for tubular cells was observed in the conditioned medium, and inhibitory activity was seen only in acidified conditioned medium. This factor stimulated the colony formation of NRK 49F cells in soft agar only with epidermal growth factor and inhibited the DNA synthesis of primary cultured rat hepatocytes, and its molecular weight was about 25 kDa. The factor was neutralized by the specific antibody to transforming growth factor (TGF)-beta 1. These results indicate that renal tubular epithelial cells can produce latent TGF-beta in primary culture.     

AN ANALYSIS OF THE EFFECT OF "CONDITIONED MEDIUM" UPON THE CELL CULTURE AT LOW DENSITY

A favorable effect of “conditioned medium” upon outgrowth of the cell culture with low density in vitro was analysed with the cells of chicken embryos. For preparing “conditioned medium”, cultures with a large number of cells were made with muscle, kidney, lung, liver and skin, while the biological activity of the medium was assayed by using the culture of a small number of the lung secondary cells. A use of “conditioned medium” was found to be necessary for encouraging the outgrowth of the cultured cells below a critical inoculum size. Of the various types of the media tested, the medium conditioned with muscle was most effective. “Conditioned medium” contained at least two different active factors, the first to enhance the plating efficiency of the inoculated cells to the surface of the culture dish, and the second to promote further outgrowth of the plated cells. “Conditioned medium” taken out of the mass culture at its exponentially growing phase had only the second factor, while that taken out of that at its stationary phase contained both factors. An activity of the first factor was not detected, when the mass culture was kept in such condition that the collagen synthesis was inhibited. The factor for enhancing the plating efficiency was eliminated from “conditioned medium” by preincubating the cells, before assaying the effect of the medium.     

Specificity and partial purification of a factor in spent media from Sertoli cell-enriched cultures that stimulates steroidogenesis in Leydig cells

There is increasing evidence that factors derived from the seminiferous tubules influence Leydig cell function in a paracrine way. In previous experiments we demonstrated that conditioned media from Sertoli cell-enriched cultures contain a protein with stimulatory activity on prepubertal rat Leydig cells. In this paper we further studied the specificity of this factor. In addition we describe a simple but efficient partial purification procedure. It is demonstrated that Sertoli cell conditioned media contain a factor that stimulates the testosterone output from prepubertal and adult Leydig cells. The effects are evident within the first hour of incubation and can be observed in the presence as well as in the absence of LH. Peritubular cells do not produce a similar factor but enhance the production of the Leydig cell stimulating factor when cocultured with Sertoli cells. The Sertoli cell factor acts on rat as well as on mouse Leydig cells. It barely influences the adrenostenedione output of ovarian stromal cells or the corticosterone output of adrenal cells. The production of this factor is enhanced by dbcAMP, FSH, L-isoproterenol and glucagon but is not affected by androgens. The characteristics of the Sertoli cell factor have been compared with those of a Leydig cell stimulating factor in the medium from an established rabbit kidney cell line: RK13. It is shown that the active principle in RK13 conditioned medium is also a thermolabile trypsin-sensitive protein with a mol. wt of more than 10,000. Nonetheless, the RK13 and Sertoli cell derived factors act by different mechanisms since at maximally effective concentrations their effects are additive. Finally it is demonstrated that molecular weight fractionation of Sertoli cell conditioned medium using an Amicon ultrafiltration system results in a 50- to 130-fold increase in Sertoli cell factor activity in a fraction corresponding to a mol. wt of 10,000 up to 30,000.     

Bone marrow extracellular matrix induces HL-60 cells to produce an autonomous differentiation factor.

Conditioned medium from cultures of HL-60 myeloid leukemia cells grown on extracellular bone marrow matrix induces macrophage-like differentiation of fresh HL-60 cells. The active medium component is sensitive to protease treatment, indicating that it is a protein, but it is heat stable. Conditioned medium from HL-60 cells grown on protease-treated bone marrow matrix still contains the active component. Thus, it appears that the differentiation-inducing protein is produced by HL-60 cells and is not released from the bone marrow matrix. To identify this differentiation factor, RNA was isolated from HL-60 cells grown on bone marrow matrix and assayed by Northern analysis for expression of mRNA for human differentiation factor, tumor necrosis factor, and macrophage colony-stimulating factor, all inducers of monocyte/macrophage differentiation. Expression of differentiation factor, tumor necrosis factor, or macrophage colony-stimulating factor mRNA was not enhanced in HL-60 cells grown on matrix compared to cells grown on uncoated plastic flasks. Thus, the maturation factor does not appear to be differentiation factor, tumor necrosis factor, or macrophage colony-stimulating factor within the limits of detection of Northern analysis. Elution of the active conditioned medium fraction on a Sephacryl S-200 column revealed a molecular weight of approximately 40,000. The active protein eluted on a DEAE-cellulose ion-exchange column at an ionic strength of 0.3 M NaCl, indicating that it is fairly anionic. Thus, bone marrow matrix is able to induce HL-60 cells to produce a maturation-inducing 40 kilodalton protein.(ABSTRACT TRUNCATED AT 250 WORDS)     

Endotoxin stimulation of liver parenchymal cell phosphofructokinase activity requires nonparenchymal cells.

The rate of carbohydrate flux through phosphofructokinase (measured as the rate of [3-3H]glucose detritiation) was increased fourfold in rat liver parenchymal cells incubated with conditioned medium from lipopolysaccharide-stimulated adherent liver non-parenchymal cells. The rate was not affected in parenchymal cells incubated either with lipopolysaccharide directly or with conditioned medium from non-stimulated non-parenchymal cells. The stimulation of carbohydrate flux through phosphofructokinase by conditioned medium was not duplicated by peptide cytokines known to be released by lipopolysaccharide-activated liver non-parenchymal cells (interleukin-1, interleukin-6, tumor necrosis factor-alpha, and transforming growth factor-beta) or platelet activating factor. Furthermore, formation of the active conditioned medium was not prevented by inclusion of cycloheximide or dexamethasone to inhibit cytokine synthesis, or indomethacin or BW755c to inhibit arachidonic acid metabolism, during lipopolysaccharide-stimulation of the non-parenchymal cells. The results indicate that intercellular communication between lipopolysaccharide-stimulated liver non-parenchymal cells and parenchymal cells by soluble mediators is responsible for the stimulation of liver phosphofructokinase activity during endotoxin-induced shock. Studies to isolate and identify the factor(s) in the conditioned medium are currently in progress.     

Purification of an autocrine growth factor in conditioned medium obtained from primary cultures of scleral fibroblasts of the chick embryo

Scleral fibroblasts of the chick embryo were found to secrete autocrine growth factors. One of the factors was purified from conditioned medium collected from growing-phase cultures of these cells by DEAE-Sepharose column chromatography and following non-denaturing polyacrylamide gel electrophoresis. The specific activity was increased 1100-fold by this purification. The chromatographically purified growth factor was still active after incubation at 95 degrees C, at pH 10 or pH 3, or with glycosidase H, but inactive after incubation with dithiothreitol or trypsin. An active protein having a molecular weight of 32 kDa was found to be the major component of the final preparation.     

Endothelins produced by endothelial cells promote collagen gel contraction by fibroblasts

Endothelial 1 (E1) is identified as an endothelial cell secreted factor that stimulates collagen gel contraction by fibroblasts. This identification is based on (a) co-localization of stimulatory activity in endothelial cell conditioned media with synthetic E1 in reversed phase analysis; (b) removal of the activity from conditioned media with antiserum directed against E1; and (c) the activity of synthetic E1. Treatment of endothelial cell conditioned media with immobilized anti-E1 antibodies removed 59% of the activity from the pool suggesting that E1 is the major contraction promoter in endothelial cell conditioned medium. The mechanism of action of E1 is shown to be different from serum in that E1-promoted contraction is dependent upon the synthesis of an unknown effector protein. Synthetic E1 is shown to be a potent promoter of gel contraction with half-maximal activity occurring at 32 pM. Two other endothelins, E2 and VIC, are slightly less active than E1. A fourth endothelin species, E3, is substantially less active. A comparison of E1 with other contraction promoting peptides revealed that E1 and platelet-derived growth factor are essentially equal in specific activity, whereas TGF beta is approximately 50-fold more potent.     

Biochemical characterization of extracellular cAMP-dependent protein kinase as a tumor marker

In a recent report (Cho et al., Proc. Natl. Acad. Sci. USA 97, 835-840, 2000), we showed that cancer cells of various cell types secrete cAMP-dependent protein kinase (PKA) into the conditioned medium and that in the serum of cancer patients this extracellular PKA (ECPKA) is upregulated 10-fold as compared with normal serum. Here, we characterized the enzymatic properties of ECPKA that is present in the conditioned medium of PC3M prostate cancer cells and in the serum of cancer patients, and we compared ECPKA with PKA found in the cell extracts of PC3M cells. ECPKA present in the conditioned medium and human serum was not activated by cAMP addition, but intracellular PKA activity was totally dependent on the addition of cAMP. This indicates that the ECPKA is present in active, free C subunit form, whereas intracellular PKA is present in inactive holoenzyme form. ECPKA activity increased in a substrate concentration- and time-dependent manner, as did intracellular PKA. Both ECPKA and intracellular PKA activities were specifically inhibited by the PKA inhibitor protein, PKI. However, ECPKA activity was more temperature-sensitive than intracellular PKA; after two cycles of freezing/thawing, only 20% of initial ECPKA activity was detected compared with over 40% of intracellular PKA activity. Western blot analysis revealed the presence of a 40 kDa C(alpha) subunit of PKA in both conditioned medium and in the serum of cancer patients. These results suggest that ECPKA, out of the context of cAMP regulation, may function as a growth factor promoting cell growth and transformation; thus, it may serve as a tumor biomarker.     

Growth control in cultured 3T3 fibroblasts II. Molecular properties of a fraction enriched in growth inhibitory activity

Treatment of sparse, proliferating cultures of 3T3 cells with medium conditioned by exposure to density-inhibited 3T3 cultures resulted in an inhibition of growth and division in the target cells when compared to similar treatment with unconditioned medium. This growth inhibitory activity was fractionated by ammonium sulfate precipitation and gel filtration, yielding one fraction that was 35-fold enriched in specific activity. Analysis of the chemical and biological properties of this highly active fraction indicated that: (a) it is an endogenous cell product, synthesized by the 3T3 cells and shed into the medium; (b) it is a protein and its activity is sensitive to treatment with pronase; (c) the constituent polypeptide chains have molecular weights of 10,000 and 13,000; and (d) it is not cytotoxic and its effect on target cells are reversible. These results suggest that we have partially purified from conditioned medium an endogenous growth regulatory factor that may play a role in density-dependent inhibition of growth in cultured fibroblasts. We propose the term Fibroblast Growth Regulator to describe this class of molecules.     

Induction of angiogenesis by smooth muscle cell-derived factor: Possible role in neovascularization in atherosclerotic plaque

The development of atherosclerotic plaque is associated with neovascularization in the thickened intima and media of vascular walls. Neovascularization may have a role in the progression of atherosclerotic plaque as well as in the development of intraplaque hemorrhage. However, the mechanism and stimulus for neovascularization in atherosclerotic plaque are unknown. We postulated that smooth muscle cells (SMCs), a major cellular component in the vascular wall, might contribute to the induction of neovascularization in atherosclerotic plaque through the secretion of an angiogenic factor. We observed that endothelial cells (ECs) cultured on collagen gel with SMC-conditioned medium became spindle shaped, invaded the underlying collagen gel, and organized a capillary-like branching cord structure in the collagen gel. The conditioned medium also stimulated EC proliferation and increased the EC-associated plasminogen activator activity. The angiogenic factor in SMC-conditioned medium was retained in a heparin-Sepharose column and eluted with 0.9 M NaCl. Neutralizing anti-vascullar endothelial growth factor (VEGF) antibody attenuated the angiogenic activity in the conditioned medium, including the induction of morphologic changes in ECs, mitogenic activity, and increased plasminogen activator activity associated with ECs. Immunoblotting analysis confirmed the secretion of VEGF from SMCs. These observations indicate that SMC may be responsible for the neovascularization in atherosclerotic plaque through the secretion of VEGF. © 1995 Wiley-Liss, Inc.     

Stimulation of embryonic mouse limb bud mesenchymal cell growth by peptide growth factors

The possible role of peptide growth factors in mammalian intrauterine cell growth has been investigated using primary cultures of undifferentiated mesenchymal cells from 11-day mouse embryo limb buds. When grown as monolayer cultures, proliferation is greatly favored by high cell densities. In medium containing 0.2% serum, purified epidermal growth factor (EGF), fibroblast growth factor (FGF), multiplication stimulating activity (MSA), insulin, and somatomedin-C (Sm-C) do not increase cell growth, but a 30-40,000 molecular weight component of mouse fetal liver conditioned medium is stimulatory. On the other hand, when limb bud cells are grown as high density or micromass cultures, a method which better approximates in vivo growth conditions, all of the purified growth factors tested stimulate cell growth significantly. These growth factors have additive effects when used in combination, the best stimulation being observed with liver medium (10% v/v), EGF (10 ng/ml), FGF (200 ng/ml), and either insulin (1 microgram/ml) or Sm-C (20 ng/ml). We conclude that the response of limb bud cells to growth stimulation is influenced by the manner in which the cells are cultured and that at least four different growth factors are required for optimal in vitro proliferation. One of these, the active component of liver medium, appears to be a previously uncharacterized growth factor.     

Regulation of extracellular plasminogen activator by human fibroblasts. The role of protease nexin

When the plasminogen activator urokinase was radioiodinated and incubated at 40 ng/ml in medium conditioned by human foreskin (HF) cells, within 30 min over 80% of the added plasminogen activator was complexed to cell-released protease nexin (PN). The urokinase complexed to PN had little if any activity. Incubation of purified PN with urokinase confirmed that PN is an inhibitor of this plasminogen activator. However, a widely used plasminogen-dependent fibrinolysis assay for plasminogen activator indicated that abundant endogenous plasminogen activator activity co-existed with PN in HF cell-conditioned medium. The source of this activity was electrophoretically and immunologically indistinguishable from urokinase. Furthermore, gel exclusion chromatography showed that about 90% of the urokinase antigen detected in conditioned medium had a molecular weight similar to that of free active urokinase. These paradoxical findings are resolved by evidence that this "PN-resistant urokinase-like" plasminogen activator is actually urokinase proenzyme that is activated by plasmin or conditions in the fibrinolysis assay for plasminogen activator. It is shown that the activated form of HF cell plasminogen activator is sensitive to inhibition by PN. PN may thus be an important component in the cellular regulation of endogenous plasminogen activator activity.     

Loss of viability in hybridoma cell culture—A kinetic study

In the cultivation of hybridoma cells HB8178 in suspension, exponential growth was followed by cell death after reaching a maximum cell concentration. We examined the cause of such transition from growth to death. Exogenously added lactate and ammonium did not cause cell death at the concentrations observed at the end of exponential growth. The rate of cell death decreases by diluting the conditioned medium with phosphate buffer saline, suggesting the presence of inhibitory factor(s) in the conditioned medium. This inhibitory factor(s) is dialyzable. Furthermore, the conditioned medium obtained from HB8178 culture also causes transition to death phase for another hybridoma cell line AFP.