Secretion by human fibroblasts of monocyte chemoattractant protein-1, the product of gene JE

We recently purified human monocyte chemoattractant protein-1 (MCP-1) from culture fluids of either human glioma cell lines or mitogen-stimulated human peripheral blood mononuclear leukocytes. It has now been shown that MCP-1 is the product of the gene JE, which was first recognized by its expression in fibroblasts stimulated with platelet-derived growth factor (PDGF). We therefore studied secretion of MCP-1 by three human fibroblast cell lines. Monocyte chemotactic activity was found in culture fluids of all three lines after growth to confluence in DMEM-10% FCS, and the amounts secreted per cell were comparable for the three lines. The MRC-5 line was chosen for further study. Monocyte chemotactic activity secretion by confluent MRC-5 cultures continued after a switch to serum-free medium and was not inhibited by anti-PDGF antibody, indicating that secretion may not have been caused by autocrine release of PDGF. When concentrated serum-free MRC-5 culture fluid was injected into an HPLC gel filtration column, only one chemotactic activity peak was observed, which was in the same location as glioma-derived MCP-1. The activity was completely absorbed out by an anti-MCP-1 affinity column, which indicates that all the chemotactic activity in MRC-5 culture fluid was accounted for by MCP-1. PDGF caused a marked increase in chemotactic activity over that found in serum-free culture fluid of MRC-5 or 501T cells. Immunoprecipitation by anti-human MCP-1 showed two bands, corresponding to the two forms of MCP-1 previously described (MCP-1 alpha and beta); and the amounts increased in response to PDGF stimulation. Thus, the reported increase in human fibroblast JE mRNA in response to PDGF-containing serum stimulation is reflected in increased secretion of the MCP-1 gene product.     

Human platelet lysate contains growth factor activities for established cell lines derived from various tissues of several species

Summary Factors have been studied from human platelets that promote the growth of a hormone-responsive rat mammary adenocarcinoma cell line MTW9/PL, the BALB/c 3T3 mouse embryo fibroblasts, and numerous other established cell lines. A wide variety of the commonly employed cell lines, including lines of human, mouse, monkey, chicken, rat, Chinese hamster, and Syrian hamster origin, were tested for their growth response to a standard concentration of 200 μg/ml human platelet lysate, and the lysate was found to contain mitogenic activity for 24 of the 29 different lines assayed. A comparison was made between the platelet growth activity for the MTW9/PL cells and the well characterized platelet mitogen for the BALB/c 3T3 cells, platelet-derived growth factor (PDGF). When the platelet lysate was subjected to digestion by highly purified trypsin, the mitogenic activity for the MTW9/PL cells was not affected whereas that for the BALB/c 3T3 cells was essentially destroyed. Crude PDGF was prepared by heating the human platelet lysates at 100°C for 2 min followed by clarification, dialysis, lyophilization, and reconstitution. This PDGF material had no apparent growth activity for MTW9/PL cells, although chromatography of this material on Biogel P-100 revealed a high molecular weight (approximately 40,000 daltons) activity for the BALB/c 3T3 cells (presumably PDGF) and two growth activities for the MTW9/PL cells, one high molecular weight activity and a second activity of molecular weight less than 10,000. These studies demonstrated a form of epithelial tumor cell growth activity separable from the 3T3 type PDGF in crude heated extracts. This work was supported by American Cancer Society Grant BC-255B and NIH Grant CA 26617.     

Cultured endothelial cells produce multiple growth factors for connective tissue cells

Cultured bovine aortic endothelial cells (BAEC) secrete into their medium a growth-promoting factor that stimulates many connective tissue cells in culture. We now report that this growth-promoting activity is due to at least two different proteins which are biochemically separable and immunologically distinct. Cation exchange chromatography (Carboxymethyl-Sephadex) of concentrated BAEC-conditioned medium yields two major peaks of growth-promoting activity which adsorb at pH 8 and elute with a salt gradient. One of these peaks contains as well a protein that inhibits the binding of radioiodinated platelet-derived growth factor (PDGF) to its receptor on target cells. The PDGF-like mitogen is purified approx. 25-fold by this chromatographic step. A second peak of mitogenic activity exhibits no binding to the PDGF receptor. Both the PDGF-like mitogenic activity and the PDGF-distinct mitogenic activity are highly cationic, stable to boiling, sensitive to beta-mercaptoethanol, and between 30 and 50 kD in molecular weight. Complementary studies with human umbilical vein endothelial cells in culture were performed. These human cells also produce both growth-promoting activity and a protein that binds to the PDGF receptor. The latter activity is greatly inhibited by a specific antiserum to human PDGF, whereas the growth-promoting activity of the conditioned medium is minimally affected. The degree of inhibition of the two activities is, however, quantitatively consistent: 3.5 ng of PDGF-like activity in the radioreceptor assay is inhibited, while 5 ng of PDGF-like activity in the DNA synthesis assay is inhibited. The data from the two species are consistent with the proposal that cultured endothelial cells produce at least two distinct mitogens, one of which is biochemically and immunologically related to PDGF.     

Platelet-derived growth factor stimulates osteoprotegerin production in osteoblastic cells

Osteoprotegerin (OPG) is a major regulator of osteoclastogenesis, bone resorption and vascular calcification. OPG is produced by various cell types including mesenchymally derived cells, in particular, osteoblastic cells. Here we show OPG production by osteoblastic cells was stimulated by platelet-derived growth factor (PDGF) in two human osteosarcoma cell lines (MG63, Saos-2), a mouse pre-osteoblastic cell line (MC3T3-E1) and human bone marrow stromal cells (hMSC) by 152%, 197%, 113% and 45% respectively over 24 h. OPG was measured in the cell culture medium by immunoassay. PDGF isoforms AA, BB and AB show similar stimulation of OPG production. Message for OPG was also increased similarly to the increased secretion into the culture medium. Using specific inhibitors of cell signalling we demonstrate that PDGF acts through the PDGF receptor, PKC, PI3K, ERK and P38 and not via NF-kB or JNK. The importance of PDGF in fracture healing suggests a role for OPG production in countering bone resorption during the early phase of this process.     

Neurofibrosarcoma-derived Schwann cells overexpress platelet-derived growth factor (PDGF) receptors and are induced to proliferate by PDGF BB

Neurofibromatosis type 1 (NF1) is characterized by the formation of neurofibromas, benign tumors of the peripheral nerve consisting essentially of Schwann cells, which can sometimes turn malignant to form neurofibrosarcomas. The mechanism of progression toward a malignant phenotype remains largely unknown. In this report, we show that platelet-derived growth factor (PDGF) BB, and to a lesser extent fibroblast growth factor 2, are mitogenic for two neurofibrosarcoma-derived Schwann cell lines, but not for a Schwann cell line derived from a schwannoma (from a non-NF1 patient) or for transformed rat Schwann cells. Levels of expression of both PDGF receptor α and β are significantly increased in the two neurofibrosarcoma-derived cell lines compared to the non-NF1 Schwann cell lines. The level of tyrosyl-phosphorylated PDGF receptor β is strongly increased upon stimulation by PDGF BB. In comparison, only modest levels of tyrosyl-phosphorylated PDGF receptor α are observed, upon stimulation by PDGF AA or PDGF BB. Accordingly, PDGF AA is only a weak mitogen for the neurofibrosarcoma-derived cells by comparison to PDGF BB. These results indicate that the mitogenic effect of PDGF BB for the neurofibrosarcoma-derived Schwann cell lines is primarily transduced by PDGF receptor β. Neu differentiation factor β, a potent mitogen for normal Schwann cells, was unable to stimulate proliferation of the transformed Schwann cell lines, due to a dramatic down-regulation of the erbB3 receptor. Therefore, aberrant expression of growth factor receptors by Schwann cells, such as the PDGF receptors, could represent an important step in the process leading to Schwann cell hyperplasia in NF1. J. Cell. Physiol. 177:334–342, 1998. © 1998 Wiley-Liss, Inc. The information in the article does not reflect government policy and no official endorsement should be inferred.     

A homologue of platelet-derived growth factor produced by rat alveolar macrophages

Rat alveolar macrophages secrete a growth factor that renders rat lung fibroblasts competent to initiate DNA synthesis in vitro in the presence of platelet-poor plasma. This biological activity resembles that of platelet-derived growth factor (PDGF). After separation from putative associated binding proteins by chromatography under acidic conditions, the macrophage-derived factor exhibited a relative molecular weight similar to that of highly purified human PDGF. The factor bound to a monospecific antibody to human PDGF and thus could be quantitated in an enzyme immunoassay for PDGF. It competed with radiolabeled human PDGF for receptor sites for PDGF on rat lung fibroblasts, and binding to these receptor sites could be specifically inhibited by anti-PDGF. These data strongly support the view that the factor derived from rat alveolar macrophages is homologous to human PDGF and is similar to human macrophage-derived PDGF-like growth factor. Furthermore, we have demonstrated that the lung contains both an effector cell (pulmonary macrophage) and a potential target cell (interstitial fibroblast) for this cytokine. Therefore the rat appears to be an appropriate animal model in which to study macrophage-derived PDGF-like growth factors as mediators of proliferation in pulmonary fibrogenesis.     

Age dependent production of a competence factor by human fibroblasts

Several cell types such as Balb/c 3T3 have been shown to require platelet-derived growth factor (PDGF); however, strains of human fibroblasts from fetal donors have been shown to divide in medium containing plasma free of PDGF. Since human fibroblasts have been demonstrated to secrete other peptide growth factors such as somatomedin-C, we have undertaken a study to determine if fibroblasts derived from fetal donors are capable of producing a mitogen(s) which will substitute for PDGF and support growth in plasma alone. Quiescent human fibroblasts from donors ages 12-wk embryo, newborn, and 3-yr-old were exposed to serum-free minimum essential medium (MEM) for 24 hr. The conditioned media collected from embryonic and newborn fibroblast donors were demonstrated to stimulate growth in the 3-yr-old cells with the addition of plasma alone, whereas conditioned medium from the 3-yr-old donor cells was without effect. The increases in growth and DNA synthesis were dependent upon concentration of media used. Conditioned medium derived from newborn fibroblasts also supported 3-yr-old cell growth but embryonic conditioned medium was more potent. The embryonic conditioned medium factor was heat and acid stable but destroyed by trypsin and excluded by a 5,000 (MW) molecular weight filter. The factor(s) had full competence factor activity since transient exposure to fibroblasts (3-yr-old donor) stimulated 78% nuclear labeling vs. 81% with continuous exposure. These results support the concept that there is an age-dependent production of a competence factor by human fibroblasts which may partially account for their capacity to grow in medium devoid of PDGF and supplemented with plasma alone.     

Transformation of diploid human fibroblasts by DNA transfection with the v-sis oncogene

The simian sarcoma virus (SSV) oncogene (v-sis) has a high degree of homology to the cellular gene coding for the B peptide of human platelet-derived growth factor (PDGF), a potent fibroblast mitogen. The cellular homolog of v-sis is activated in some mesenchymal human tumors and cell lines derived from them. To determine the phenotype produced by v-sis in diploid human fibroblasts, we constructed plasmids containing the SSV provirus and drug-resistance markers and transfected them into early-passage human cells. Fibroblasts that had integrated the plasmid were selected for drug resistance and shown to contain and express the v-sis oncogene by DNA and RNA hybridization. The v-sis-expressing cells grew to higher saturation densities than control cells transfected with the vector plasmid alone and formed large, well defined foci. This allowed selection of transfectants directly for focus formation. The v-sis transformed cells continued to grow well in the absence of serum, whereas age-matched, vector-transfected control cells ceased replicating under these conditions so that the final difference in density between the two populations was tenfold. Incorporation of thymidine in serum-free medium by the v-sis-transformed cells was independent of exogenous PDGF. In contrast, PDGF increased thymidine incorporation in such medium by the control cells to the level found in the v-sis-transformed cells with or without added PDGF. These results suggest that expression of the v-sis oncogene in diploid human fibroblasts causes sufficient endogenous synthesis of the B chain of PDGF to allow transformants to grow to abnormally high cell densities. When individual v-sis-transformed cells were grown on a background of normal cells, this higher cell density at confluence could be visualized as a focus.     

Dopamine D2 receptor stimulation of mitogen-activated protein kinases mediated by cell type-dependent transactivation of receptor tyrosine kinases

Dopamine D2 receptor activation of extracellular signal-regulated kinases (ERKs) in non-neuronal human embryonic kidney 293 cells was dependent on transactivation of the platelet-derived growth factor (PDGF) receptor, as demonstrated by the effect of the PDGF receptor inhibitors tyrphostin A9 and AG 370 on quinpirole-induced phosphorylation of ERKs and by quinpirole-induced tyrosine phosphorylation of the PDGF receptor. In contrast, ectopically expressed D2 receptor or endogenous D2-like receptor activation of ERKs in NS20Y neuroblastoma cells, which express little or no PDGF receptor, or in rat neostriatal neurons was largely dependent on transactivation of the epidermal growth factor (EGF) receptor, as demonstrated using the EGF receptor inhibitor AG 1478 and by quinpirole-induced phosphorylation of the EGF receptor. The D2 receptor agonist quinpirole enhanced the coprecipitation of D2 and EGF receptors in NS20Y cells, suggesting that D2 receptor activation induced the formation of a macromolecular signaling complex that includes both receptors. Transactivation of the EGF receptor also involved the activity of a matrix metalloproteinase. Thus, although D2 receptor stimulation of ERKs in both cell lines was decreased by inhibitors of ERK kinase, Src-family protein tyrosine kinases, and serine/threonine protein kinases, D2-like receptors activated ERKs via transactivation of the EGF receptor in NS20Y neuroblastoma cells and rat embryonic neostriatal neurons, but via transactivation of the PDGF receptor in 293 cells.     

Characterization of two monoclonal antibodies reactive with the external domain of the platelet-derived growth factor receptor

Two monoclonal antibodies against the receptor for platelet-derived growth factor (PDGF) were obtained by immunizing mice with pure PDGF receptor preparations derived from porcine uterus. The antibodies, denoted PDGFR-B1 and PDGFR-B2, both bound to the external domain of the receptor, as demonstrated by indirect immunofluorescence and binding of 125I-labeled antibodies to intact human fibroblasts. Both antibodies precipitated pure 175-kDa 32P-labeled autophosphorylated porcine PDGF receptor as well as a Mr 175,000 glycoprotein from metabolically labeled cells. The monoclonal antibodies did not inhibit binding of 125I-PDGF to human fibroblasts and did not stimulate these cells to undergo mitosis. Both antibodies induced clustering and down-regulation of their antigen. However, this resulted in only a partial loss of cell surface binding sites for PDGF itself, consistent with the conclusion that the monoclonals recognized only one of two or several receptors for PDGF. Clustering and down-regulation were not seen when the cells were incubated with monovalent Fab' fragments of the PDGFR-B2 antibody. The antibodies also stimulated autophosphorylation of pure PDGF receptor, and PDGFR-B2 was shown to stimulate phosphorylation of phosphofructokinase, an exogenous substrate for the PDGF receptor kinase. High concentrations of PDGFR-B2 antibody, or Fab' fragments thereof, failed to enhance the PDGF receptor kinase activity, compatible with the possibility that dimerization was of importance in the antibody-stimulated kinase activity of purified PDGF receptors.     

A comparison of the platelet-derived growth factor-dependent tyrosine kinase activity in sparse and confluent fibroblasts

Confluent (density-inhibited) human foreskin fibroblasts require a higher concentration of platelet-derived growth factor (PDGF) to elicit a mitogenic response than do sparse (nondensity-inhibited) fibroblasts. The PDGF receptor number and apparent affinity were similar in the two preparations of cells. The intrinsic kinase activity of the PDGF receptor from sparse and confluent fibroblasts was therefore examined in an attempt to explain the differential mitogenic response to PDGF. When membranes from sparse and confluent cells containing equal PDGF binding capacity were incubated with increasing concentrations of PDGF, the putative PDGF receptor (a 180-kD component), was phosphorylated on its tyrosyl residues to a similar extent. The time course of tyrosine phosphorylation of the PDGF receptor from sparse and confluent cell membranes was also found to be similar. To determine whether the phosphorylation of the PDGF receptor from isolated membranes differed from the analogous phosphorylation in intact cells, sparse and confluent fibroblasts were metabolically labeled with [32P]H3PO4, stimulated with PDGF, solubilized, and the cell proteins were immunoprecipitated with a phosphotyrosine-specific antibody. The extent of PDGF-dependent tyrosine phosphorylation of the PDGF receptor from sparse vs. confluent fibroblasts was quite similar. The time course of the tyrosine dephosphorylation of the PDGF receptor was also similar in the two populations. Because comparable extents of PDGF-induced tyrosine phosphorylation of the PDGF receptor were observed despite the differential PDGF-induced mitogenic response of sparse and confluent fibroblasts, we tentatively conclude that 1) PDGF-dependent tyrosine phosphorylation of the PDGF receptor is not tightly coupled to the propagation of the mitogenic signal and 2) density-dependent inhibition of growth does not reflect any measurable change in the quantity of kinase activity of the PDGF receptor.     

Platelet-derived growth factor (PDGF)-dependent association of phospholipase C-gamma with the PDGF receptor signaling complex.

We investigated the interaction of phospholipase C-gamma (PLC-gamma) with wild-type and mutant forms of the platelet-derived growth factor (PDGF) beta-receptor both in vivo and in vitro. After PDGF treatment of CHO cell lines expressing wild-type or either of two mutant (delta Ki and Y825F) PDGF receptors, PLC-gamma became tyrosine phosphorylated and associated with the receptor proteins. The receptor association and tyrosine phosphorylation of PLC-gamma correlated with the ability of these receptors to mediate ligand-induced phosphatidylinositol turnover. However, both the delta Ki and Y825F mutant receptors were deficient in transmitting mitogenic signals, suggesting that the PDGF-induced tyrosine phosphorylation and receptor association of PLC-gamma are not sufficient to account for the growth-stimulatory activity of PDGF. Wild-type and delta Ki mutant PDGF receptor proteins expressed with recombinant baculovirus vectors also associated in vitro with mammalian PLC-gamma. However, baculovirus-expressed c-fms, v-fms, c-src, and Raf-1 proteins failed to associate with PLC-gamma under similar conditions. Phosphatase treatment of the baculovirus-expressed PDGF receptor greatly decreased its association with PLC-gamma. This requirement for receptor phosphorylation was also observed in vivo, where PLC-gamma could not associate with a mutant PDGF receptor (K602A) defective in autophosphorylation. PLC-gamma also coimmunoprecipitated with two other putative receptor substrates, the serine-threonine kinase Raf-1 and the 85-kilodalton phosphatidylinositol-3' kinase, presumably through its association with the ligand-activated receptor. Furthermore, baculovirus-expressed Raf-1 phosphorylated purified PLC-gamma in vitro at sites which showed increased serine phosphorylation in vivo in response to PDGF. These results suggest that PDGF directly influences PLC activity by inducing the association of PLC-gamma with a receptor signaling complex, resulting in increased tyrosine and serine phosphorylation of PLC-gamma.     

Sera and conditioned media contain different isoforms of platelet-derived growth factor (PDGF) which bind to different classes of PDGF receptor

Platelet-derived growth factor (PDGF) is encoded by separate genes for two possible subunit chains (A-chain and B-chain) which can form three possible dimers (AA, AB, and BB). We have recently presented evidence that multiple forms of PDGF receptor exist which distinguish between these isoforms (Hart, C. H., Forstrom, J. W., Kelley, J. D., Smith, R. A., Ross, R., Murray, M. J., and Bowen-Pope, D. F. (1988) Science 240, 1529-1531). We used this specificity to determine the amount of PDGF from different sources which is able to bind to each class of receptor and found that each source had a characteristic isoform composition. Levels of total PDGF activity in sera from different species ranged more than 15-fold, from less than 1 ng/ml in dog, chicken, pig, and calf, to greater than 13 ng/ml in mouse and human. Despite these differences in PDGF content, the total mitogenic activities of the sera were comparable indicating that the relative importance of PDGF as a serum mitogen may vary considerably between species. Analysis of the total PDGF into the amounts of each isoform revealed great differences in composition. PDGF-BB constitutes only about 15% of the total binding activity in human PDGF purified by the method of Raines and Ross (Raines, E. W., and Ross, R. (1982) J. Biol. Chem. 257, 5154-5160) but is the predominant isoform in whole blood serum from all other species. In contrast to serum, medium conditioned by cultured PDGF-secreting cell types contained no detectable PDGF-BB except in two cases: medium conditioned by vascular endothelial cells and by cells transformed by simian sarcoma virus. The existence of isoform-specific PDGF receptors and the large variation in PDGF isoform composition dependent upon source may provide an important mechanism through which the effects of PDGF can be targeted to different cell types and/or toward eliciting different cell responses.     

Antagonistic effect of PDGF and NGF on transcription of ribosomal DNA and tumor cell proliferation

The molecular mechanism by which NGF and PDGF affect growth of tumor cells was tested in human melanoma WM 266-4 and colorectal carcinoma SW 707 cell lines. We present evidence that NGF translocated to the nucleus and bound to the chromatin of SW 707 cells, which express the cell surface and the chromatin receptor for NGF, inhibits ribosomal RNA synthesis which in consequence leads to inhibition of cell proliferation. In WM 266-4 cells, which do not express NGF receptor, NGF does not affect cell proliferation. In contrast, PDGF translocated to the nucleus of both SW 707 and WM 266-4 cells activates ribosomal RNA synthesis. We report here that NGF abolishes PDGF-activated ribosomal RNA synthesis and PDGF-stimulated growth of tumor cells.     

Identification of a peptide antagonist for platelet-derived growth factor.

A series of peptides derived from the primary sequence of the B-chain of platelet-derived growth factor (PDGF) was analyzed for their ability to inhibit the binding of 125I-PDGF-AA and 125I-PDGF-BB to PDGF alpha-receptors and PDGF beta-receptors, respectively. A 13-amino acid peptide (ANFLVWEIVRKKP), corresponding to amino acids 116-121 and 157-163 in PDGF B-chain, was found to compete with binding to both alpha- and beta-receptors. Modification of this peptide on the tryptophan residue increased its receptor competing activity. The peptide was found to be a receptor antagonist, since it inhibited dimerization and autophosphorylation of PDGF receptors. When analyzed on intact cells, the peptide was found to have, in addition to the specific inhibitory effect at the receptor level, a nonspecific inhibitory effect on [3H]thymidine incorporation. Our study has identified two regions in PDGF that are of importance for receptor interaction.     

In vivo phosphorylation and dephosphorylation of the platelet-derived growth factor receptor studied by immunoblot analysis with phosphotyrosine antibodies

Antibodies against the synthetic hapten azobenzyl phosphonate which specifically crossreact with phosphotyrosine have been produced and used to detect the proteins phosphorylated in tyrosine following exposure of intact quiescent Swiss 3T3 fibroblasts to the platelet-derived growth factor (PDGF). Western blotting of sodium dodecyl sulfate-polyacrylamide gel electrophoresis-fractionated proteins followed by decoration with phosphotyrosine antibodies and 125I-labeled protein A have been used. The major tyrosine-phosphorylated component was a 170 kDa protein. The following lines of evidence suggest that this protein is the PDGF receptor in its tyrosine-phosphorylated form: (a) both proteins have the same (170 kDa) molecular weight; (b) the phosphorylated 170 kDa protein was detectable only in cell lines bearing the PDGF receptor; (c) the phosphorylation of the 170 kDa protein required PDGF and was dose-dependent. Kinetic studies showed that the phosphorylation of the receptor was maximal after 5-10 min at 37 degrees C and was followed by a rapid decrement of the band. The loss of the 170 kDa component was not prevented by inhibitors of membrane internalization and of lysosomal proteinases, while it was inhibited by lowering the temperature to 5 degrees C. In PDGF-stimulated cells, phosphotyrosine antibodies detected also a minor 36 kDa component phosphorylated at tyrosine.