Endothelial cells secrete a factor that promotes fibroblast contraction of hydrated collagen gels

Bovine aortic endothelial cells (BAEC), grown in vitro, are shown to synthesize and secrete factor(s) that stimulate fibroblasts to contract collagen matrices. The amount of contraction-promoting activity in the conditioned media is dependent on conditioning time and the number of cells in the culture. Production of the contraction-promoting activity continues at a high stable level for at least 5 d in serum-free medium but is abolished when the cells are exposed to an inhibitor of protein synthesis. The mechanism of action of the contraction factor(s) derived from endothelial cells was compared with that of unidentified serum factors. The endothelial cell-secreted factor(s) depends on active protein synthesis by the target cell but does not need to be present during the contraction process. The serum factors on the other hand promote collagen contraction in the absence of de novo protein synthesis but need to be continuously present. Preliminary biochemical characterization of the contraction-promoting factors produced by endothelial cells revealed properties similar to those of previously identified growth factors. However, the BAEC-secreted factor was found to be distinct from a previously identified contraction-promoting transforming growth factor beta.     

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.     

Identification and partial purification of a novel tumor-derived protein that induces tissue factor on cultured human endothelial cells

Conditioned medium of a human bladder carcinoma cell line (J82) was found to induce tissue factor synthesis in cultured human umbilical vein endothelial cells (HUVEC). A protein present in the J82 conditioned medium was partially purified by FPLC using a combination of MONO Q and Superose 6 columns. The bladder carcinoma-derived cytokine (BCDC) exhibited a Mr of 22 kDa by gel permeation HPLC. Polyclonal antibody against either interleukin-1, tumor necrosis factor, or transforming growth factor-beta failed to inhibit the ability of the conditioned medium to induce HUVEC tissue factor activity, suggesting that this tumor cell line secretes a novel cytokine responsible for HUVEC tissue factor induction.     

Microvascular and macrovascular endothelial cells produce different constrictor substances.

The media from cultured microvascular and macrovascular endothelial cells (conditioned media, CM) were collected and tested for constrictor activity in sheep coronary artery rings and tracheal smooth muscle strips in vitro (isometric force), expressed as percentage of contraction produced by 80 mM KCl. Both microvascular (micro) and macrovascular (macro) CM caused a sustained slow-onset contraction (P less than 0.05) of the coronary artery rings by 71 +/- 10% (micro; n = 7) and 67 +/- 8% (macro; n = 6) and tracheal smooth muscle strips by 33 +/- 14% (micro; n = 6) and 34 +/- 6% (macro; n = 11); the calcium antagonist gallopamil (10(-7) M) attenuated these effects by 25-55%. Unconditioned medium and medium conditioned by cultured tracheal smooth muscle cells had no constrictor activity on coronary artery rings or tracheal smooth muscle strips. Synthetic endothelin (ET-1) also produced contraction of coronary artery rings and tracheal smooth muscle strips. The mean levels of ET-1 measured by radioimmunoassay were 1,200 pg/ml in the macro CM and 33 pg/ml in the micro CM. Depleting macro CM of ET-1 by affinity columns constructed with protein A agarose and anti-ET-1 antibody removed the contractile activity for coronary artery rings and tracheal smooth muscle strips. Thus ET-1 did not appear to be the contractile substance in the micro CM. Preliminary characterization of the contractile substance in micro CM revealed that it was heat stable, had a molecular weight of less than 10,000, was inactivated by trypsin, and retained its activity after two cycles of freeze-thawing.(ABSTRACT TRUNCATED AT 250 WORDS)     

Biosynthesis and modulation of endothelin from bovine pulmonary arterial endothelial cells

The biosynthesis and modulation of the vasoconstrictor peptide endothelin was studied in the conditioned medium from cultured bovine pulmonary artery endothelial (BPAE) cells. Conditioned medium from cultured BPAE cells produced contraction of isolated rabbit aortic rings. Incubation of BPAE cells with the protease inhibitors TPCK or isatoic anhydride attenuated the extent of conditioned medium-induced contractions. Incubation of BPAE cells with thrombin produced an enhancement of conditioned medium-induced contraction by approximately 25%. Endothelin levels in conditioned medium were measured by RIA and incubation of BPAE cells with TPCK or isatoic anhydride significantly reduced endothelin levels, whereas incubation with thrombin or transforming growth factor beta-1 stimulated the levels of endothelin in the conditioned medium. These data indicate that endothelin may be modulated by certain protease inhibitors and by platelet and immune cell mediators and suggest a potential new mode of vascular tone regulation.     

Qualitative and quantitative differences in protein synthesis comparing fetal lamb ductus arteriosus endothelium and smooth muscle with cells from adjacent vascular sites

During late gestation, intimal cushions form in the ductus arteriosus (DA) and these cause the vessel to close when it constricts in the postnatal period. The formation of intimal cushions suggests highly specialized functions of DA endothelial and smooth muscle cells. To investigate these properties, we established, from fetal lambs on Day 138 of a 148-day term gestation, primary cell cultures of DA endothelium and smooth muscle and compared them to cells derived from the adjacent pulmonary artery and aorta. Purity of the endothelial cell cultures from each vascular site was assessed by the contact inhibited "cobblestone" monolayer phenotype, by positive immunofluorescence for factor VIII and by angiotensin converting enzyme activity. Purity of smooth muscle cell cultures at each vascular site was assessed by the "hills and valleys" phenotype and by positive immunofluorescence with a smooth muscle actin specific monoclonal antibody. Endothelial and smooth muscle cells had different growth curves, ultrastructural features, and protein profiles on single and two-dimensional SDS-polyacrylamide gel electrophoresis (PAGE), but vascular sites were similar. To further determine whether differences related to DA origin were indeed present, endothelial and smooth muscle cells from all three vascular sites were incubated with the radiolabeled amino acids [14C]leucine, [14C]proline, and [14C]valine and the proteins in both the cells and the conditioned medium were analyzed by autoradiography after SDS-PAGE. A dense band corresponding to a 42-kDa protein was observed in valine-labeled DA endothelial cells and conditioned medium and a 52-kDa protein was observed in the conditioned medium of leucine-labeled DA smooth muscle cells only. Further isolation and characterization of these endothelial and smooth muscle proteins will be necessary to determine whether they are related to the mechanism of intimal cushion formation in the late gestation DA or are present abnormally in association with the intimal proliferation observed in pulmonary and systemic vascular disease.     

Endothelial monocyte-activating polypeptide II. A novel tumor-derived polypeptide that activates host-response mechanisms.

An important means by which tumor cells influence the vasculature is through the production of soluble mediators altering vascular properties. A approximately 22-kDa polypeptide was purified to homogeneity from conditioned medium of murine methylcholanthrene A (meth A) fibrosarcoma cells by ion-exchange chromatography and preparative sodium dodecyl sulfate-polyacryl-amide gel electrophoresis (SDS-PAGE), based on its ability to induce tissue factor procoagulant activity in endothelial cells (ECs). The final product migrated as a broad band on reduced and nonreduced SDS-PAGE and had an unique amino-terminal sequence. This meth A-derived polypeptide modulated EC coagulant properties through the induction of tissue factor, induced monocyte migration and tissue factor expression, and was also chemotactic for granulocytes. Injection of the polypeptide into mouse footpads resulted in an inflammatory response with tissue swelling and polymorphonuclear leukocyte infiltration. The ability of this mediator to activate ECs and monocytes has led us to name it EMAP II (endothelial monocyte-activating polypeptide). EMAP II is distinct from a previously described approximately 40-kDa meth A-derived polypeptide termed EMAP I. Through its potential to activate host effector mechanisms, EMAP II could contribute to the biology of immunogenic tumors, such as the meth A fibrosarcoma.     

Endotoxin induction of an inhibitor of plasminogen activator in bovine pulmonary artery endothelial cells

We have examined the effects of bacterial lipopolysaccharide (endotoxin) on the fibrinolytic activity of bovine pulmonary artery endothelial cells. Endotoxin suppressed the net fibrinolytic activity of cell extracts and conditioned media in a dose-dependent manner (threshold dose, 0.1 ng/ml; maximal dose, 10-100 ng/ml). The effects of endotoxin required at least 6 h for expression. Cell extracts and conditioned media contained a 44-kDa urokinase-like plasminogen activator. Media also contained multiple plasminogen activators with molecular masses of 65-75 and 80-100 kDa. Plasminogen activators in extracts and media were unchanged by treatment of cells with endotoxin. Diisopropyl fluorophosphate (DFP) abolished fibrinolytic activity of extracts and conditioned media. DFP-treated samples from endotoxin-treated but not untreated cells inhibited urokinase and tissue plasminogen activator, but not plasmin. Inhibitory activity was lost by incubation at pH 3 or heating to 56 degrees C for 10 min. These treatments did not affect inhibitory activity of fetal bovine serum. Incubation of 125I-urokinase with DFP-treated medium from endotoxin-treated cells produced an inactive complex with an apparent molecular mass of 80-85 kDa. The complex could be detected by chromatography on Sephadex G-100, but not by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. These findings suggest that low doses of endotoxin suppress fibrinolytic activity in endothelial cells by stimulating the production or expression of a fast-acting, relatively labile inhibitor of plasminogen activator.     

Upregulation of cAMP is a new functional signal pathway of Klotho in endothelial cells

We measured angiotensin I-converting enzyme (ACE) activity in a human endothelial cell to characterize the intracellular signal pathways of Klotho. COS-1 cells transfected with naked mouse membrane-form klotho plasmid DNA (pCAGGS-klotho) translated proper Klotho protein. This translated Klotho protein was secreted into the culture medium. Furthermore, ACE activity in human umbilical vein endothelial cells (HUVEC) was upregulated when HUVEC were co-cultured with COS-1 cells that were pre-transfected with pCAGGS-klotho. The conditioned medium from COS-1 cells pre-transfected with pCAGGS-klotho also dose-dependently upregulated ACE in HUVEC. In addition, the conditioned medium induced time- and dose-dependent enhancement of cAMP production in HUVEC. Rp-cAMP, an inhibitor of cAMP-dependent protein kinase A (PKA), inhibited the upregulation of ACE by Klotho protein. Our results suggest that mouse membrane-form Klotho protein acts as a humoral factor to increase ACE activity in HUVEC via a cAMP-PKA-dependent pathway. These findings may provide a new insight into the mechanism of Klotho protein.     

Production and characterization of mammary-derived growth factor 1 in mammary epithelial cell lines.

A mammary-derived growth factor, MDGF1, which stimulates collagen synthesis and proliferation in mammary epithelial cells was previously detected and purified from human milk and primary human breast tumors. MDGF1 binds to putative cell-surface receptors of 120-140 kDa and stimulates proliferation of normal and malignant human mammary epithelial cells. Partial protein sequence (N-terminal 18 amino acid sequence) shows that MDGF1 has no homology to any other known growth-promoting peptides. Polyclonal antiserum raised against this synthetic peptide recognizes native milk-derived MDGF1. We hypothesize that MDGF1 might be an autocrine or paracrine factor produced by and acting on normal and malignant human breast epithelial cells possessing MDGF1 receptors. As a first step in testing this possibility, we examined whether human breast epithelial cells in culture produce the growth factor. A protein with the size of MDGF1 was immunologically detected in the concentrated conditioned medium prepared from human breast cancer cell line MDA-MB 231, the mammary-derived but nontumorigenic HBL-100 line, and the normal reduction mammoplasty-derived, nonimmortalized 184 cell strain. A competitive radioreceptor assay (RRA) was used to estimate the level of MDGF1 in the conditioned medium. MDGF1 was present in the nanogram range per 1 million cells. A 62-kDa protein was detected in the above cell lysates by Western immunoblotting or by immunoprecipitation of metabolically labeled cell-conditioned media. The polyclonal antisera directed against the 18 amino acid peptide sequence from milk-derived MDGF1 could adsorb MDGF1 biological activity from conditioned medium. In vitro translation of cell mRNA yielded a protein of 55 kDa which was immunoprecipitated by anti-MDGF1 antibody.(ABSTRACT TRUNCATED AT 250 WORDS)     

Human endomucin is an endothelial marker

The identification of novel endothelial markers is important in the study of angiogenesis, and may have potential uses in cancer diagnosis and treatment. We have isolated potential markers of tumor angiogenesis by screening human umbilical vein endothelial cells (HUVECs) treated with tumor conditioned media. Using suppression subtractive hybridization (SSH), we found endomucin, a potential cell surface marker upregulated in this system. Human endomucin is predicted to encode a 261-aa, 27.5-kDa protein with a transmembrane sequence and multiple glycosylation sites. Northern and in situ hybridization studies show that human endomucin expression is largely, if not uniquely, endothelial cell-specific. Human endomucin is present abundantly in highly vascular tissues such as heart, kidney, and lung. It is seen in human aortic endothelial cells (HAECs) as well as in human microvascular endothelial cells (HMVECs). Furthermore, its expression is increased when endothelial cells are proliferating or are stimulated by tumor-conditioned media or specific angiogenic factors such as bFGF (basic fibroblast growth factor) and TNFalpha (tumor necrosis factor), suggesting that endomucin may have a role in tumor angiogenesis.     

Isolation and characterization of a Mr = 38,000 protein from differentiating smooth muscle cells

In culture, vascular smooth muscle cells grow and form a confluent monolayer of cells. Under appropriate conditions, regions of the monolayer can be induced to draw away from the substrate and form multicellular nodules. The ultrastructure of the cells in the nodules appears to be similar to that of differentiated smooth muscle cells. The process of nodulation is associated with the synthesis of a unique protein whose molecular weight is estimated from gradient gel electrophoresis to be 38,000 (38-kDa Protein). The protein is secreted into the culture medium and can be detected either by metabolic labeling or by staining with Coomassie Blue. Partial purification of 38-kDa Protein was achieved using affinity chromatography. The protein is adsorbed to heparin-agarose, but not to gelatin-agarose. The concentration of 38-kDa Protein in nodular conditioned medium is estimated at 1.9 micrograms/ml and less than 0.01 microgram/ml in conditioned medium made from monolayer cells. The presence of 5% fetal bovine serum in the labeling medium does not affect 38-kDa Protein synthesis. Cross-reactivity with fibronectin was evaluated using polyvalent antibodies to 38-kDa Protein. The 38-kDa Protein is not antigenically related to fibronectin. Furthermore, we establish that the protein is not qualitatively influenced by the presence of ascorbate (50 micrograms/ml), beta-aminoproprionitrile fumarate (50 micrograms/ml) heparin (10 ng/ml), or fibronectin (20 micrograms/ml) in the culture medium. We find that the added components neither suppress 38-kDa Protein synthesis in nodular cultures nor enhance 38-kDa Protein synthesis in monolayer cultures. The 38-kDa Protein is not detected in either monolayer or nodular cell layers and appears to be a secreted protein. Its appearance in nodular conditioned medium during nodulation suggests a relationship with that process.     

Characterization and partial purification of human epithelial transforming growth factor

A polypeptide growth factor has been partially purified from medium conditioned by the human adrenocortical carcinoma cell line SW13. This factor, designated h-TGFe, stimulates anchorage-independent growth of the SW13 cells. Similar activity was observed in human milk, and in conditioned media from seven of 14 epithelial cell lines. The SW13-derived activity is stable to low pH and 8M urea but labile to dithiothreitol and 2% sodium dodecyl sulfate. Human TGFe does not bind to heparin and fails to stimulate growth of endothelial cells in monolayer culture. The apparent molecular weight of h-TGFe is 59k by size exclusion chromatography in the presence of 8M urea and the activity binds strongly to cation exchangers. The activity elutes at 15-30% acetonitrile from a C18 reverse-phase column and has been partially purified by using a four-step chromatographic procedure. TGFe appears to be a novel growth factor produced by many epithelial cells and tissues.     

Purification and sequence analysis of two rat tissue inhibitors of metalloproteinases.

Two protein inhibitors of metalloproteinases (TIMP) were isolated from medium conditioned by the clonal rat osteosarcoma line UMR 106-01. Initial purification of both a 30-kDa inhibitor and a 20-kDa inhibitor was accomplished using heparin-Sepharose chromatography with dextran sulfate elution followed by DEAE-Sepharose and CM-Sepharose chromatography. Purification of the 20-kDa inhibitor to homogeneity was completed with reverse-phase high-performance liquid chromatography. The 20-kDa inhibitor was identified as rat TIMP-2. The 30-kDa inhibitor, although not purified to homogeneity, was identified as rat TIMP-1. Amino terminal amino acid sequence analysis of the 30-kDa inhibitor demonstrated 86% identity to human TIMP-1 for the first 22 amino acids while the sequence of the 20-kDa inhibitor was identical to that of human TIMP-2 for the first 22 residues. Treatment with peptide:N-glycosidase F indicated that the 30-kDa rat inhibitor is glycosylated while the 20-kDa inhibitor is apparently unglycosylated. Inhibition of both rat and human interstitial collagenase by rat TIMP-2 was stoichiometric, with a 1:1 molar ratio required for complete inhibition. Exposure of UMR 106-01 cells to 10(-7) M parathyroid hormone resulted in approximately a 40% increase in total inhibitor production over basal levels.     

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.     

Receptor-induced phosphorylation by mammary-derived growth factor 1 in mammary epithelial cell lines.

Previous work has shown that a mammary-derived growth factor (MDGF1), a human milk-derived, acidic, 62-kDa, N-glycosylated growth factor binds to cell surface receptors and stimulates proliferation of mammary epithelial cells. An 18-amino acid N-terminal partial sequence of the factor did not show any homology to other known growth factors or proteins. Using polyclonal antiserum raised against the synthetic peptide, we demonstrated that conditioned medium prepared from human breast cancer cell lines contains the factor. The antibody could adsorb the biological activity of the factor present in the conditioned medium. Earlier experiments on receptor cross-linking indicated that the receptor was approximately 120-140 kDa. Since tyrosine phosphorylation plays a crucial role in cell proliferation and cell transformation, experiments were conducted to find out whether MDGF1 induces the appearance of phosphotyrosine in MDGF1-receptor-positive MDA-MB 468, MCF-7, and 184A1N4 cell lines compared to receptor-negative lines. Western blot analysis using monoclonal antiphosphotyrosine indicated that MDGF1 induces phosphotyrosine in a 180-185-kDa protein in MDGF1 receptor-positive cell lines. Phosphorylation was not blocked and phosphorylated proteins were not immunoprecipitated by an antibody directed against the binding site of the EGF receptor. Cell membrane fractionation demonstrated that phosphorylation induced by MDGF1 was membrane-associated. The nature of this 180-185-kDa protein and its possible relationship to the MDGF1 receptor are under investigation.     

Translocation of FGF2 to the cell surface without release into conditioned media

Like most cells in culture, stably transfected COS-1 cells (CF18) that constitutively overexpress basic fibroblast growth factor (FGF2) do not release the growth factor into conditioned media. Yet, when cells were biotinylated, 30% of the total cell-associated immunoreactive FGF2 was detected on the cell surface. Under similar conditions, up to 70% of the total immunoreactive FGF2 in transfected endothelial cells (MAE ZIP) or untransfected rat (C6) and human (U87MG) glioblastoma cell lines was detected on their cell surface. When peripheral plasma membrane proteins were removed from the cell surface with 0.1 M sodium carbonate, the amount of exported FGF2 was significantly reduced, whereas cell viability was unaffected. FGF2 then reappeared on the cell surface in a time-dependent manner. Ouabain, a cardenolide previously shown to inhibit the export of FGF2 from transiently transfected COS-1 cells, blocked the appearance of FGF2 onto the surface of transfected CF18 cells and MAE ZIP cells but had no detectable effect on C6 and U87MG cells. The observation that the translocation of FGF2 onto the cell surface is dissociated from its release into conditioned medium is consistent with FGF2's being rarely found in biological fluids but always cell associated and in the extracellular matrix. The findings point to a role played by the protein export pathway in controlling FGF2 activity and the normal physiological function that this growth factor plays in cell growth and differentiation. The widely accepted presumption that the absence of FGF2 in conditioned media reflects its inability to exit the cell needs to be reevaluated.