Dominant-negative mutants of platelet-derived growth factor revert the transformed phenotype of human astrocytoma cells.

Malignant astrocytoma is the most common primary human brain tumor. Most astrocytomas express a combination of platelet-derived growth factor (PDGF) and PDGF receptor which could close an autocrine loop. It is not known whether these autocrine loops contribute to the transformed phenotype of astrocytoma cells or are incidental to that phenotype. Here we show that dominant-negative mutants of the PDGF ligand break the autocrine loop and revert the phenotype of BALB/c 3T3 cells transformed by the PDGF-A or PDGF-B (c-sis) gene. Then, we show that these mutants are selective in that they do not alter the phenotype of 3T3 cells transformed by an activated Ha-ras or v-src gene or by simian virus 40. Finally, we show that these mutants revert the transformed phenotype of two independent human astrocytoma cell lines. They have no effect on the growth of human medulloblastoma, bladder carcinoma, or colon carcinoma cell lines. These observations are consistent with the view that PDGF autocrine loops contribute to the transformed phenotype of at least some human astrocytomas.     

A cell line of human malignant astrocytoma producing autocrine growth factor

Summary A cell line was established from an anaplastic astrocytoma from a 69-yr-old female. The cells have been serially subcultured over 300 times for 6 yr without showing any sign of cell senescence. Their doubling time is about 36 h. The cells are fusiform and often hexagonal in sparse culture, but become spindle-shaped and formed mosaic structure in confluent culture. Under electron microscopy, intermediate filaments were randomly distributed in the cytoplasma, especially in the perinuclear space. The chromosome number was near tetraploid and varied from 86 to 94 chromosomes with a modal number of 91. The alpha and beta subunits of S-100 protein, vimentin, and glial fibrillary acidic protein (GFAP), which are reliable markers of astrocytic cells, were demonstrated in a large number of cells by immunoperoxidase staining. The results of immunoblotting showed that the expression of vimentin was much higher than that of GFAP. The tumorigenicity of the cells was revealed by xenografting into nude mice, which were X-irradiated before inoculation. Culture medium conditioned by the cells promoted growth of these cells in serum-free conditions and of normal rat glial cells in serum-depleted culture. The growth-promoting effect of conditioned medium was lost by trypsinization and reduced by boiling. These findings suggest that these cells are derived from neoplastic astrocytic cells and secrete a self-acting polypeptide growth-promoting factor into the culture medium. This study was supported in part by a Grant-in-Aid for Scientific Research from the Ministry of Education, Science, and Culture of Japan.     

Differentially regulated production of platelet-derived growth factor and of transforming growth factor beta by a human teratocarcinoma cell line

The human teratocarcinoma stem cell line Tera-2 clone 13 is induced by retinoic acid to differentiate in vitro into endodermal or neuroectodermal cell types. In the absence of externally added growth factors, Tera-2 clone 13 cells proliferated at the same rate as in the presence of serum growth factors. Analysis of serum-free medium conditioned by Tera-2 clone 13 cells showed the presence of a polypeptide immunologically and biochemically related to platelet-derived growth factor (PDGF). In addition transforming growth factor beta (TGF-beta), but no TGF-alpha production could be detected. Tera-2 clone 13 cells specifically expressed high levels of the A-chain mRNA, but not the B-chain mRNA of PDGF. During retinoic acid induced differentiation the level of A-chain mRNA became markedly reduced. In contrast the TGF-beta mRNA levels increased significantly upon differentiation. The implications of these findings are discussed in terms of regulation of growth and differentiation in early embryos as well as in (human) teratocarcinomas.     

Migratory and proliferative effect of platelet-derived growth factor in rabbit retinal endothelial cells: Evidence of an autocrine pathway of platelet-derived growth factor

Angiogenesis is a crucial event in the progression of diabetic retinopathy. Migration and proliferation of endothelial cells (EC) are important steps in angiogenesis and are caused by angiogenic factors such as basic fibroblast growth factor (bFGF). In this work, capillary EC were isolated from rabbit retinal tissues and rabbit retinal EC (RREC) were found to secrete a migration factor for RREC in conditioned medium (CM). The activity was inhibited by an anti-platelet-derived growth factor (PDGF) antibody, but not by an anti-bFGF antibody. We also found that RREC showed a migratory response to PDGF. The response was induced by PDGF-BB and PDGF-AB dose dependently, but not by PDGF-AA, indicating that it was mediated by PDGF-β receptor-dependent pathways, and that the PDGF-like factor was PDGF-BB or -AB. In addition, PDGF-BB induced the proliferation of RREC as well as bFGF. These data indicate that RREC have an autocrine pathway of PDGF by the secretion of and the response to PDGF. PDGF may play significant parts in angiogenesis in the progression of diabetic retinopathy. © 1994 Wiley-Liss, Inc.     

Reversion of autocrine transformation by a dominant negative platelet-derived growth factor mutant.

A non-receptor-binding mutant of the platelet-derived growth factor (PDGF) A chain, PDGF-0, was generated by exchanging 7 amino acids in the sequence. The mutant chains formed dimers that were similar to wild-type PDGF-AA with regard to stability and rate of processing to the mature 30-kDa secreted forms. Moreover, the mutant chains formed disulfide-bonded heterodimers with the PDGF B chain in NIH 3T3 cells heterodimer underwent the same processing and secretion as PDGF-AB. Transfection of c-sis-expressing 3T3 cells with PDGF-0 significantly inhibited the transformed phenotype of these cells, as determined by the following criteria. (i) Compared with PDGF-0-negative clones, PDGF-0-producing clones showed a reverted morphology. (ii) Clones producing PDGF-0 grew more slowly than PDGF-0-negative clones, with a fivefold difference in cell number after 14 days in culture. (iii) The expression of PDGF-0 completely inhibited the ability of the c-sis-expressing 3T3 cells to form colonies in soft agar; this inhibition was overcome by the addition of recombinant PDGF-BB to the culture medium, showing that the lack of colony formation of these cells was not due to a general unresponsiveness to PDGF. The specific expression of a PDGF-0/PDGF wild-type heterodimer in COS cells revealed that the affinity of the mutant heterodimer for the PDGF alpha receptor was decreased by approximately 50-fold compared with that of PDGF-AA. Thus, we show that a non-receptor-binding PDGF A-chain mutant neutralizes in a trans-dominant manner the autocrine transforming potential of the c-sis/PDGF B chain by forming low-affinity heterodimers with wild-type PDGF chains. This method of specifically antagonizing the effect of PDGF may be useful in investigations of the role of PDGF in normal and pathological conditions.     

High chemotactic response to platelet-derived growth factor of a teratocarcinoma differentiated mesodermal cell line

Summary Evidence is presented that a differentiated mesodermal line (MES-1) from P19 EC cells express a high chemotactic response to platelet-derived growth factor (PDGF) as assayed in a blind-well modified Boyden chamber. Compared to the NIH 3T3 fibroblasts the chemotactic response of MES-1 is increased by 10-fold at 0.3 ng/ml of PDGF, 4-fold at 1.25 ng/ml of PDGF, 2-fold at 2.5 ng/ml of PDGF. In contrast, PDGF induces the same increase in [³H]thymidine incorporation in both cell lines, made quiescent under reduced serum concentration. This high chemotactic response to PDGF seems specific for these mesodermal cells. Among the different teratocarcinoma cells tested, including stem cells (F9, PC 13, PCC4) and endodermal derivatives (PYS, F9 with retinoic acid, PSA 5E), only the visceral endodermlike cells (PSA5E) are slightly attracted by PDGF. This chemotactic response to PDGF is not related to the presence or characteristics of the type B PDGF receptors, which are less numerous in MES-1 cells (10⁵ receptors/cell, KDa 1,2 mM) compared to NIH 3T3 cells (64×10⁴ receptors per cell, KDa 1,8 nM). The MES-1 cell line might be of interest for studying the chemotactic effect of PDGF. These results also suggest a role for this soluble factor in cell migration during early embryogenesis. This investigation was supported by a grant of La Fondation pour la Recherche Médicale.     

Stimulation of human vascular endothelial cell growth by a platelet-derived growth factor and thrombin

Repair of a vascular wound is mediated by migration and subsequent replication of the endothelial cells that form the inner lining of blood vessels. We have measured the growth response of human umbilical vein endothelial cells (HuE) to two polypeptides that are transiently produced in high concentrations at the site of a wound; the platelet-derived growth factor (PDGF) and the protease thrombin. When 10⁴ HuE cells are seeded as a dense island (2-mm diameter) in the center of a 16-mm tissue culture well in medium containing 20% human serum derived from platelet-poor plasma (PDS), no increase in cell number or colony size is observed. With the addition of 0.5 ng/ml partially purified PDGF, colony size increases and the number of cells after 8 days is 4.8 × 10⁴. When human thrombin (1 μg/ml) is added along with the PDGF, the cell number rises to 9.2 × 10⁴. Thrombin alone stimulates no increase in cell number. Although partially purified PDGF stimulates endothelial cells maintained in PDS as well as those maintained in whole blood serum (WBS), pure PDGF is active only when assayed in medium that contains WBS and is supplemented with thrombin. These results suggest the existence of a second class of platelet-derived factors that enable HuE cells to respond to the mitogenic activity of the purified platelet mitogen and thrombin.     

Interleukin-1 derived from human monocytic leukemia cell line JOSK-I acts as an autocrine growth factor

Interleukin-1 (IL-1) enhances the growth of human monocytic leukemia cell line JOSK-I cells, which were recently established in our laboratory and which were demonstrated to produce a high level of IL-1 constitutively, in liquid as well as semisolid culture systems. Concomitantly, IL-1 stimulated the prostaglandin E2 synthesis and nitroblue tetrazolium dye-reducing capacity of JOSK-I cells. This indicates that IL-1 may act as autocrine growth factor for monocytes, and also suggests the possibility that this autocrine stimulation may play an important role in the pathophysiology of monocytic leukemia in vivo.     

Biphasic calcium response of platelet-derived growth factor stimulated glioblastoma cells is a function of cell confluence.

BACKGROUND: Previous reports have linked the spiking or two-phased character of calcium transients evoked by platelet-derived growth factor (PDGF) to the position of cells in the cell cycle without regard to cell-cell contact and communication. Because cell confluence can regulate growth factor receptor expression and dephosphorylation, we investigated the effect of cell culture confluence and cell cycle on calcium responses of PDGF-BB-stimulated A172 glioblastoma cells. METHODS: Digital imaging cytometry was used to correlate the peak and duration of calcium response with bromodeoxyuridine positivity and DNA content and with culture confluence on a cell-by-cell basis. RESULTS: In serum-starved cultures, complete two-phase calcium signals and shorter, lower spikes occurred independent of cell cycle phase. However, the confluence of cell culture seemed essential for inducing a complete response because cells in sparse cultures exhibited mostly short spikes with lower peaks or no transients at all. CONCLUSION: Because cell confluence, by virtue of cell-cell contacts, is assumed to be an important regulator of proliferation, one is tempted to speculate that in transformed cells the ability to produce stronger growth signals upon reaching confluence and facing contact inhibition could provide a proliferative advantage.     

Conditional responsiveness of a chemically transformed cell line to growth factor stimulated DNA synthesis

BP3T3, a clonal benzo(a)pyrene-transformed BALB/c-3T3 cell line, is conditionally responsive to growth factor stimulation. Density arrested cell populations deprived of growth factors by pretreatment with 0.5% platelet-poor plasma synthesized DNA both in response to ng/ml concentrations of PDGF, EGF, and somatomedin C, and in response to insulin, plasma, and serum. The above agents acted singly to induce DNA synthesis, but synergism is suggested because a higher percentage of cells were stimulated to enter the S phase when the growth factors were added in combination. Desensitization to growth factors occurred when cultures were pretreated with the high concentration of growth factors present in 10% serum (or plasma). In desensitized cultures none of the above agents, added singly or in combination, stimulated DNA synthesis. This effect appears to be global because pretreatment with one growth factor (e.g., insulin) inhibited the action of another (e.g., PDGF). Cell density appears to play a critical role in regulating DNA synthesis. Unlike nontransformed BALB/c-3T3 cells whose density is regulated by the serum concentration, the density of BP3T3 cells reached a plateau when cultures were grown in a serum (or plasma) concentration of 3% or greater. Such density arrested cultures were growth factor unresponsive; however, the cells rapidly responded to growth factors by synthesizing DNA and replicating when reseeded at a lower cell density. Thus the growth of BP3T3 cells is regulated by both growth factors and cell density.     

Epidermal growth factor receptors in the human glioblastoma cell line SF268 differ from those in epidermoid carcinoma cell line A431

Two established human tumor cell lines, epidermoid carcinoma line A431 and glioblastoma line SF268, were studied to compare the interaction of each with epidermal growth factor (EGF). SF268 cells bound [125I] EGF with 35-40 fold higher affinity than did the A431 cells. The EGF binding sites of both lines were photoaffinity labeled using 2,4-NAPS-[125I] EGF, a photoreactive derivative of EGF. Extracts of photolysed cells analyzed by SDS-PAGE showed a difference between the two cell lines in the high molecular weight component corresponding to the EGF receptor. EGF in a dose range from 0.3-200 nM had no effect on thymidine incorporation by SF268 cells, whereas thymidine incorporation by A431 cells was markedly inhibited by EGF.     

A human glioma cell line secretes three structurally and functionally different dimeric forms of platelet-derived growth factor

A human malignant glioma cell line, U-343 MGa Cl2:6, has previously been shown to secrete platelet-derived-growth-factor(PDGF)-like activity [Nistér, M., Heldin, C.-H., Wasteson, A. and Westermark, B. (1984) Proc. Natl Acad. Sci. USA 81, 926-930]. We report here that this activity consists of three different molecules separable by reversed-phase chromatography and immobilized-metal-ion affinity chromatography. HPLC reversed-phase chromatography resolved two peaks of activity, which were denoted glioma-derived growth factor-I (GDGF-I) and GDGF-II. GDGF-I was purified to greater than 90% purity; in SDS gel electrophoresis, it appeared as a 31-kDa component which by reduction was converted to 17 kDa. Immunoprecipitation of radiolabeled, reduced and alkylated GDGF-I with antisera made against peptides from the A and B chains of PDGF, gave a specific signal only with antiserum against the A chain. Furthermore, when reduced and alkylated GDGF-I was analyzed by reversed-phase HPLC, it eluted at the position of PDGF A chains. We conclude that GDGF-I is a homodimer of a polypeptide similar to the A chain of PGDF. GDGF-II was found to have higher mitogenic activity than GDGF-I. Analysis by immunoprecipitation with PDGF-chain-specific antisera revealed that GDGF-II contained a polypeptide similar to the B chain of PDGF. Immobilized-metal-ion affinity chromatography revealed that 95% of the mitogenic activity of GDGF-II consisted of a heterodimer of one A and one B chain, whereas 5% consisted of a B-chain homodimer. Thus, U-343 MGa Cl 2:6 cells secrete all three possible dimeric forms of PDGF.     

Activated N-ras controls the transformed phenotype of HT1080 human fibrosarcoma cells

To investigate whether the activated N-ras oncogene of HT1080 human fibrosarcoma cells contributes to the expression of the transformed phenotype, we have isolated flat revertants. In two independent revertant lines, an increase in chromosomal ploidy occurred without a concomitant increase in the number of copies of the N-ras transforming allele. Immunoprecipitation confirms that the level of the mutant N-ras p21 gene product in the revertants is correspondingly lower than in HT1080. Analysis of sporadic tumors derived from the revertant cells reveals an increased dosage of the transforming allele. The revertants also retransform after transfection of cloned activated ras oncogenes. These results imply direct participation of an N-ras oncogene in maintaining the transformed phenotype of a human tumor cell line.     

Inhibition of human natural killer cell activity by platelet-derived growth factor

The present report demonstrates that the naturally occurring biologic substance, platelet-derived growth factor (PDGF), substantially inhibits human natural killer (NK) cell activity. More precisely, pretreatment of peripheral blood mononuclear cells for 2 h with nanogram amounts of either partially purified PDGF or highly purified PDGF significantly inhibited peripheral blood NK cell activity (cytotoxicity) in a dose-dependent manner as measured against the NK-sensitive target, K-562. Furthermore, pretreatment of purified NK cells for 2 h with nanogram amounts of purified PDGF also resulted in a significant, dose-dependent inhibition of human NK cell activity (cytotoxicity), as mediated by positively selected, B73.1+ human NK cells sorted on a fluorescence-activated cell sorter. In addition to the inhibition of NK-mediated cytotoxicity, nanogram amounts of purified PDGF also significantly inhibited the single-cell binding of B73.1+ human NK cells to the NK-sensitive target K-562, as determined by routine single-cell-binding assays (i.e. conjugate formation). The implications of these findings are discussed.     

Similar action of platelet-derived growth factor and epidermal growth factor in the prereplicative phase of human fibroblasts suggests a common intracellular pathway

We have investigated the effects of platelet-derived growth factor (PDGF) and epidermal growth factor (EGF) in the prereplicative phase of human foreskin fibroblasts cultured under defined conditions in serum-free MCDB 105 medium. Specific antisera against PDGF and EGF were used to inhibit the stimulation after certain incubation times. It was found that PDGF or EGF had to be present during the major part of the G0/G1 phase (greater than 8 h) in order to cause any appreciable commitment to DNA synthesis; half maximal stimulations were obtained after 9 h and 11 h of incubations with PDGF and EGF, respectively. When tested during a suboptimal period of time (6 h), neither an increase in concentration of PDGF or EGF, nor the addition of both growth factors simultaneously caused any appreciable stimulation of DNA synthesis. However, a suboptimal pulse of PDGF, followed by a suboptimal pulse of EGF, or vice versa, led to commitment to DNA synthesis. This finding indicates that PDGF and EGF, at least in part, induce similar intracellular events that transmit the mitogenic signal.     

Amplified gene for the epidermal growth factor receptor in a human glioblastoma cell line encodes an enzymatically inactive protein.

The gene encoding the receptor for epidermal growth factor was amplified two- to fivefold in the human glioblastoma cell line SF268. The amplified gene gave rise to abundant quantities of receptor that bound EGF with a high affinity (Kd, 0.35 nM). The binding of ligand failed to elicit cellular DNA synthesis, however, and the receptor was enzymatically inactive. We presume that the amplified receptor gene carries a mutation(s) that affects several aspects of the receptor's function. Characterization of the mutation(s) may illuminate how structure dictates function in the receptor protein.     

Down-modulation of epidermal growth factor receptor accompanies TNF-induced differentiation of the DiFi human adenocarcinoma cell line toward a goblet-like phenotype

Although the biologic response modifier tumor necrosis factor-alpha (TNF) is a known differentiation Inducer in hematopoietic cells, its role in differentiation of other tissue types has yet to be elucidated. In the studies presented here, TNF treatment of the human rectal adenocarcinoma cell line, DiFi, elicits characteristics of early stage differentiating, mucin-producing colonocytes. Not only are TNF-treated DiFi cells growth-inhibited by TNF, but they also display a unique morphology. Additionally, TNF treatment of DiFi cells enhances > fivefold the expression of high molecular weight mucin glycoproteins, as measured by [¹²⁵I]-wheat germ agglutinin (WGA) binding and the human milk fat globule-1 (HMFG-1) anti-MUC1 antibody reactivity. The induction of these differentiation characteristics correlates with novel alterations in epidermal growth factor receptor (EGF-R). Following 5-day TNF treatment of DiFi cultures, EGF receptor levels, kinase autophosphorylation activity, and receptor tyrosine phosphorylation are reduced by > fourfold. The establishment of a model system in which goblet-like cell characteristics and alterations in a growth factor receptor can be induced in vitro may be potentially useful in studying the underlying mechanisms of colonic epithelial cell proliferation and differentiation. © 1993 Wiley-Liss, Inc.     

Liver as a source of transformed cell growth factor

Isolated rat hepatocytes release an acidic glycoprotein(s) that can selectively promote the growth of transformed cells. This factor has a molecular weight of 60 000–70 000 D. Liver microsomal and cytosol fractions contain two species of stimulatory activity—44 000 and 3 500 D. Mitochondrial and nuclear fractions contain only the lower molecular weight factor.     

Anti-sense transforming growth factor alpha oligonucleotides inhibit autocrine stimulated proliferation of a colon carcinoma cell line.

Many carcinoma cells secrete transforming growth factor alpha (TGF alpha). A 23 base anti-sense oligonucleotide that recognizes the TGF alpha mRNA inhibits both DNA synthesis and the proliferation of the colon carcinoma cell line LIM 1215. The effects of the anti-sense TGF alpha oligonucleotide are reversed by epidermal growth factor (EGF) at 20 ng/ml. When the LIM 1215 cells are grown under serum free conditions, the anti-sense TGF alpha oligonucleotides have their greatest effects at high cell density (2 x 10(5) cells/cm2), indicating that the secreted TGF alpha is acting as an exogenous growth stimulus. In addition, at higher cell densities, the kinase activity of the EGF receptor is activated and the receptor is down-modulated. The cell density dependent activation of the EGF receptor is inhibited by the application of the antisense TGF alpha oligonucleotides.