Involvement of plasma membrane glycoproteins in the contact-dependent inhibition of growth of human fibroblasts

The human embryonal lung fibroblasts used in this study showed a pronounced inhibition of growth when reaching a critical cell density. This effect has been mimicked by the addition of glutaraldehyde-fixed human fibroblasts to sparsely seeded growing cells. Inhibition of growth was not observed when glutaraldehyde-fixed cells were pretreated with galactosidase or with galactose-specific lectins, or when glutaraldehyde-fixed human or rabbit erythrocytes were added to the proliferating fibroblasts. In addition, glutaraldehyde-fixed mitotic cells were without effect on the proliferation, while cells prepared from sparse culture had lesser potency than cells prepared from confluent cultures. Plasma membranes, isolated from cells of confluent cultures, when added to growing cultures of human fibroblasts inhibited DNA synthesis in a concentration-dependent manner. On the other hand, plasma membranes isolated from sparsely seeded cells had only minor inhibitory potency. When the plasma membranes were isolated from cells treated previously with tunicamycin, an antibiotic which inhibits the synthesis of the oligosaccharide portion of asparagine-linked glycoproteins, the inhibitory effect was abolished. The same effect was observed when plasma membranes were pretreated with galactosidase. These data indicate that the growth of cells in vitro is regulated by specific cell-cell contacts. They also show that one of the molecular reactants in this process are membrane glycoproteins with asparagine-linked oligosaccharides.     

Protein synthesis and secretion and RNA and DNA synthesis in human skin fibroblasts in a medium with a low serum content

Human skin fibroblasts, both postnatal and embryonic, were cultured in the stationary phase of growth for 6-10 days in the DMEM with bovine serum (BS), 0.1-0.5% fetal calf serum (FCS) or 1% human serum (HS). On the day 4 of culturing, a considerable increase was observed in the synthesis and secretion of protein by postnatal fibroblasts in the Eagle medium with 0.1-0.5% FCS, or with 0.5% BS, and in medium 199 with 0.1-0.5 BS, or with 0.1 FCS. Maximum synthesis and secretion of 14C-proline labeled protein was observed on day 2 of culturing of cells in the DMEM medium with 1% HS. In the DMEM medium with low serum content, protein synthesis being virtually unchanged, 75-80% of protein was secreted by cells into the culture medium with BS on days 2-4; in the medium with FCS such a high secretion of protein was observed only on day 4. High synthesis of protein by fetal fibroblasts in the DMEM medium with 0.1% BS and high protein secretion in all the media with 0.1% BS or 0.5% FCS were observed. The maximum level of secretion of protein by fibroblasts coincided with a considerable increase in both RNA and DNA syntheses. The data obtained suggest that cells in deep resting state actively react to the composition of the medium as well as to the quality and quantity of the serum. It may also be suggested that the mechanism of protein secretion has an important role in maintenance of the constant level of intracellular proteins in resting cells.     

Human epidermal growth factor and the proliferation of human fibroblasts

The effect of human epidermal growth factor (hEGF), a 5,400 molecular weight polypeptide isolated from human urine, on the growth of human foreskin fibroblasts (HF cells) was studied by measuring cell numbers and the incorporation of labeled thymidine. The addition of hEGF to HF cells growing in a medium containing 10% calf serum resulted in a 4-fold increase in the final density. The presence of hEGF also promoted the growth of HF cells in media containing either 1% calf serum or 10% gamma globulin-free serum. The addition of hEGF to quiescent confluent monolayers of HF cells, maintained in a medium with 1% calf serum for 48 hours, resulted in a 10- to 20-fold increase in the amount of ³H-thymidine incorporation after 20–24 hours. The stimulation of thymidine incorporation was maximal at an hEGF concentration of 2 ng/ml, was dependent on the presence of serum, and was enhanced by the addition of ascorbic acid. In confluent cultures of HF cells, subject to density dependent inhibition of growth, hEGF was able to stimulate DNA synthesis more effectively than fresh calf serum. Human EGF stimulated DNA synthesis in quiescent cultures, however, regardless of cell density. The addition of rabbit anti-hEGF inhibited all effects of this growth factor on HF cells.     

Growth inhibitory factor diffusing from chick embryo fibroblasts

Density-dependent inhibition (DDI) of growth is assumed to be the result of diffusion in the medium of growth inhibitory molecules. In this work, we demonstrate the presence of inhibitory molecules (IDFc: chicken inhibitory diffusible factor) in the medium of chick embryo fibroblasts (CEF) cultures. IDFc partially purified by Bio-Gel P150 chromatography followed by reverse phase FPLC. The dose-response curve showed that 250 ng/ml IDFc inhibited 50% DNA synthesis. IDFc was also able to inhibit the growth of sparse cultures of CEF; this inhibition was reversible. IDFc was unable to prevent the DNA synthesis in cells transformed by v-src gene expression. These results suggest that IDFc is involved in the DDI of CEF growth.     

INHIBITION OF CELL GROWTH IN THE G1 PHASE BY ADENOSINE 3'',5''-CYCLIC MONOPHOSPHATE

Incorporation of tritiated thymidine into acid-precipitable material was used to measure the rate of DNA synthesis in secondary cultures of human diploid fibroblasts. Confluent cultures of human diploid fibroblasts, which are synchronized in the G₁ phase due to contact inhibition, were released from growth inhibition either by the addition of fresh medium to the cultures or by trypsinization and replating at nonconfluent densities. Either treatment resulted in a synchronous wave of DNA synthesis beginning 10–15 h after treatment and peaking at 20–25 h. In confluent cultures stimulated by fresh medium, either the addition of 0.25 mM N⁶, O²-dibutyryl-adenosine 3',5'-cyclic monophosphate (db-cAMP) to the medium in the interval 4–8 h after stimulation or the replacement of the fresh medium in that same 4 h interval with the depleted medium present on the cells for the 2 day period before stimulation delayed the synchronous onset of DNA synthesis in the cultures by about 4 h. In nonconfluent cultures freshly seeded from trypsinized confluent cultures, this same depleted medium obtained after a 2 day incubation of fresh medium on confluent cultures is shown to support the progress of the cells into S phase; however, the addition of 0.25 mM db-cAMP to the medium 3½ h after replating still partially prevented the initiation of DNA synthesis in the cultures. The results are discussed in terms of the role of serum and cAMP in the control of cell growth in fibroblast cultures.     

Differential effect of thrombin on the growth of human fibroblasts

The ability of thrombin to alter the growth of human skin fibroblasts was studied under a variety of experimental conditions. In agreement with previous reports, we obtained a moderate level of cell growth in confluent cultures using 0.5-8.0 U/ml of thrombin. In subconfluent cultures, the effect was strikingly different and was found to be dependent upon the time in culture when the enzyme was added. Cultures exposed to thrombin 24 h after subculturing showed growth stimulation several days later. In contrast, thrombin added at the time of cell plating produced a complete block of DNA synthesis and cell growth that lasted for at least 3 d. Cells exposed to thrombin under these conditions were morphologically altered and smaller. These thrombin- induced effects were reversible and could be completely prevented by pretreatment of the enzyme with hirudin before it was added to the culture medium. Growth inhibition and altered morphology were found to be the result of changes generated in the growth medium by thrombin and could be blocked by higher serum concentrations. The results of this study indicate that thrombin's influence on cell growth can be stimulatory or inhibitory and suggest that the state of the cell surface determines the response.     

Contact inhibition of growth of human diploid fibroblasts by immobilized plasma membrane glycoproteins

The human embryonic fibroblasts used in this study show pronounced inhibition of growth when reaching a critical cell density. High cell density and growth inhibition has previously been mimicked by the addition of glutaraldehyde-fixed cells or of isolated plasma membranes to sparsely seeded proliferating fibroblasts (Wieser, R. J., R. Heck, and F. Oesch, 1985, Exp. Cell Res., 158:493-499). In this report, we describe the successful solubilization of the growth-inhibiting glycoproteins and their covalent coupling to silicabeads (10 microns), which had been derivatized with 3-isothiocyanatopropyltriethoxysilane. The beads, bearing the plasma membrane proteins, were added to sparsely seeded, actively proliferating fibroblasts, and growth was measured by the determination of cell number or of incorporation of [3H]thymidine into DNA. The growth was inhibited in a concentration-dependent manner, whereby 50% inhibition was achieved with 0.3 micrograms of immobilized protein added to 5 X 10(3) cells. Terminal galactose residues of plasma membrane glycoproteins with N-glycosydically bound carbohydrates were responsible for the inhibition of growth. Dense cultures of human fibroblasts are characterized by an accelerated synthesis of procollagen type III. We have found that this cellular response can also be induced by the addition of immobilized plasma membrane glycoproteins to sparsely seeded cells. These observations support the conclusion that the addition of immobilized plasma membrane glycoproteins to sparsely seeded fibroblasts mimics the situation occurring at high cell density. These results show that cell-cell contacts via plasma membrane glycoproteins carrying terminal galactose residues are important for the regulation of the proliferation of cultured human fibroblasts and presumably of the accelerated synthesis of collagen type III.     

EFFECT OF ADENOSINE 3''-5''-CYCLIC MONOPHOSPHATE ON CELL PROLIFERATION

Secondary cultures of human diploid fibroblasts, which demonstrate density-dependent inhibition of cell growth, were used to study the effect of adenosine 3'-5'-cyclic monophosphate (cAMP) on cell proliferation. DNA synthesis in nonconfluent cultures and in contact-inhibited cultures stimulated to grow by refeeding with fresh medium was found to be inhibited by exogenous cAMP. The properties of this inhibition of DNA synthesis, together with the alterations in cAMP metabolism observed in confluent cultures of cells stimulated with fresh medium to resume growth, strongly suggest that cAMP is involved in contact-inhibition of cell proliferation.     

Collagen synthesis in human fibroblasts: Effects of ascorbic acid and regulation by hydrocortisone

The effects of hydrocortisone and ascorbic acid on collagen and noncollagen protein synthesis, and on growth were examined in fibroblasts derived from normal human dermis. When the medium was supplemented with 0.28 mM ascorbic acid, the apparent rate of collagen production increased 2--3 fold over the culture cycle. Ascorbic acid also caused a small increase in the apparent rate of synthesis of noncollagen protein and an elevation in growth rate and maximum cell density. Growth was not required for the increase in collagen production since addition of ascorbate to confluent cultures induced a similar increase. Hydrocortisone (1.5 μM) blocked the ascorbate-related increase in collagen production during growth and in confluent cultures. The hormone simultaneously increased the apparent rate of noncollagen protein production and maximum cell density, suggesting that the effect on collagen synthesis was specific. Inhibition of collagen production by hydrocortisone was observed only in the presence of ascorbate, while the increase in growth and noncollagen protein production occurred in the presence and absence of the vitamin.     

Tumor necrosis factor inhibits collagen and fibronectin synthesis in human dermal fibroblasts

Tumor necrosis factor (TNF) caused inhibition of collagen production by confluent cultures of human dermal fibroblasts in a dose-dependent manner. Concomitant increase of prostaglandin E2 release was observed as a result of TNF-induced cell activation. However, a blockade of the cyclooxygenase pathway of arachidonate metabolism by indomethacin did not abrogate the inhibitory effect of TNF on collagen synthesis, suggesting that this effect could be independent of prostaglandin metabolism. Gel electrophoresis of the newly synthesized macromolecules from the culture media showed that both type I and type III collagens as well as fibronectin were affected by the inhibition. Electrophoresis of cell layer-associated proteins demonstrated that the reduction in amounts of collagen and fibronectin in the medium did not result from an intracellular accumulation of these macromolecules. Production of procollagens was reduced in parallel to that of collagens, suggesting that the effect of TNF is exerted before the processing steps of procollagens. These results clearly show that TNF could play a role in modulation of matrix deposition by fibroblasts during inflammatory processes.     

Cellular gangliosides promote growth factor-induced proliferation of fibroblasts

Cell surface gangliosides have been proposed as modulators of transmembrane signaling. In this study, we used two complementary approaches to investigate the function of cellular gangliosides in the response of mammalian fibroblasts to growth factors. First, inhibition of glucosyl ceramide synthase by a new specific inhibitor of d-l-threo-1-phenyl-2-hexadecanoylamino-3 -pyrrolidino-1-propanol-HC l (glucosylceramide synthase), which depletes cellular gangliosides at a concentration of 1 microm without causing an increase in ceramide levels, blocked epidermal growth factor-stimulated proliferation of fibroblasts. Similarly, responses to several other growth factors that activate receptor tyrosine kinases, including fibroblast growth factor, insulin-like growth factor-I, and platelet-derived growth factor, were inhibited by 50-100%. Conversely, enrichment of cellular gangliosides by preincubation of the mouse and human fibroblasts with exogenously added gangliosides enhanced growth factor-elicited cell proliferation. Novel findings of this study, distinguishing it from previous similar studies, include differential effects of preincubation versus continuous incubation of cells with gangliosides on growth factor-dependent cell proliferation and the growth factor-like action of NeuNAc alpha 2-3Gal beta 1-3GalNAc beta 1-4(NeuNAc alpha 2-3)Gal beta 1-4Glc beta 1-1Cer when cells are pretreated with the ganglioside.     

Differential effects of hydrocortisone on both growth and collagen metabolism of human fibroblasts from normal and keloid tissue

Cultured fibroblasts isolated from normal and keloid tissue do not differ in their growth characteristics or in the rate of collagen synthesis under routine culture conditions. The addition of hydrocortisone to the culture media results in significant differences in both growth and collagen synthesis between these cell types. Collagen syntehsis is inhibited 60% in normal cultures by hydrocortisone (0.5 μg/ml) and the population size at which density-dependent growth inhibition is achieved is increased. Keloid-derived fibroblasts grow to a lower maximum density in the presence of hydrocortisone, while their rate of collagen syntehsis is not significantly reduced. The rate of non-collagen protein synthesis is increased significantly by hydrocortisone in both cell types. Comparison of normal and keloid-derived cultures obtained from a single individual suggests that the keloid phenotype with respect to both growth and collagen synthesis is restricted to the fibroblasts isolated from the keloid nodule.     

Ginseng extract inhibits protein degradation and stimulates protein synthesis in human fibroblasts

Aqueous extracts of Panax ginseng inhibit intracellular protein degradation in confluent cultures of IMR-90 human diploid fibroblasts. The magnitude of the inhibition is similar to that observed with insulin and polypeptide growth factors. Furthermore, the inhibition of proteolysis by ginseng, like that produced by insulin and growth factors, is selective in that it applies to long-lived proteins but not to short-lived proteins. Ginseng also stimulates protein synthesis in human fibroblasts indicating that components of ginseng extract are capable of acting directly on human cells to promote protein accumulation.     

Effect of transforming growth factor beta on cell proliferation and glycosaminoglycan synthesis by rabbit growth-plate chondrocytes in culture

The effects of the transforming growth factor beta (TGF-beta) on the growth and glycosaminoglycan synthesis of rabbit growth plate-chondrocytes in culture were studied. In serum-free medium, TGF-beta caused dose-dependent inhibition of DNA synthesis by chondrocytes, measured as [3H]thymidine incorporation (ED50 = 0.1-0.3 ng/ml). The inhibitory effect was maximal at a dose of 1 ng/ml, and extended for a duration of 16-42 h. In contrast, TGF-beta potentiated the synthesis of DNA stimulated by fetal calf serum (FCS). Addition of TGF-beta (1 ng/ml) to cultures containing 10% FCS increased [3H]thymidine incorporation to 1.6-times that in cultures with 10% FCS alone. Consistent with this finding, TGF-beta potentiated DNA synthesis stimulated by the purified growth factors such as platelet-derived growth factor (PDGF), epidermal growth factor (EGF) and fibroblast growth factor (FGF). The maximal stimulation of DNA synthesis by FGF (0.4 ng/ml) was further potentiated dose dependently by TGF-beta (ED50 = 0.1 ng/ml, maximum at 1 ng/ml). When the cultures were treated with the optimal concentrations of TGF-beta (1 ng/ml) and FGF (0.4 ng/ml), [3H]thymidine incorporation was 3-times higher than that of cultures treated with FGF alone. This TGF-beta-induced potentiation of DNA synthesis was associated with replication of chondrocytes, as shown by a marked increase in the amount of DNA during treatment of sparse cultures of the cells with the growth factors for 5 days. In contrast, TGF-beta caused dose-dependent stimulation of glycosaminoglycan synthesis in confluent cultures of growth-plate chondrocytes (ED50 = 0.3 ng/ml, maximum at 1 ng/ml). This stimulatory effect of TGF-beta was greater than that of insulin-like growth factor I (IGF-I) or PDGF. Furthermore, TGF-beta stimulated glycosaminoglycan synthesis additively with IGF-I or PDGF. Recently, it has been suggested that bone and articular cartilage are rich sources of TGF-beta, whereas epiphyseal growth cartilage is not. Thus, the present data indicate that TGF-beta may be important in bone formation by modulating growth and phenotypic expression of chondrocytes in the growth plate, possibly via a paracrine mechanism.     

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.     

Sphingolipid-induced enhancement of receptor-mediated uptake of low density lipoproteins in normal and receptor-deficient human skin fibroblasts

(1) The receptor mediated endocytosis of homologous LDL by human skin fibroblasts can be significantly enhanced by prior incubation of the cells with sphingolipids. Gangliosides G_M1 or G_D1a, their desialylated derivatives and sphingosine stimulate binding and uptake to LDL by up to 40% of normal values. The effect is observed in normal fibroblasts, LDL receptor deficient fibroblasts or in tunicamycin-treated cells with a reduced number of functional receptors but is dependent on the time of preincubation of the cells and the concentration of the sphingolipid in the medium. (2) Detailed studies on the ganglioside effect revealed, that cell bound gangliosides intensify the LDL-induced supression of [¹⁴C]acetate incorporation into cholesterol. (3) The receptor dependence and relative receptor specificity of the sphingolipid effect is evident from the fact that (a) after complete suppression of receptor synthesis gangliosides fail to stimulate uptake of LDL, that (b) fatty acids or lipids not containing sphingosine are without effect and that (c) the receptor specific internalisation of α₂-macroglobulin or epidermal growth factor is not influenced by exogenous sphingolipids.     

Growth inhibitory activity in extracts from human fibroblasts

Indirect evidence for the presence of a growth inhibitor in normal human fibroblasts has been obtained previously; the inhibitory activity has been found associated with crude cell extracts, but the molecule responsible for the growth inhibition has never been isolated. We have isolated a glycopeptide fraction from human fibroblast cultures, whose synthesis decreases when the cells are stimulated into the division cycle. It was separated by electric charge, lectin affinity, and molecular mass. When added to quiescent cells simultaneously with a growth stimulus, the glycopeptide reduces DNA synthesis activity. The relationship of the kinetics of the synthesis of the glycopeptide with the cell division cycle and its molecular weight are different from what has been described so far for other growth regulators. The decreased synthesis of this inhibitor, induced by growth factors, seems to be one of the requirements for the initiation of the division cycle by human fibroblasts. This response to growth factors was stable during the lifespan of the fibroblast population and became less pronounced only in cells at the end of their replicative potential. © 1993 Wiley-Liss, Inc.     

Bovine colostrum supports the serum-free proliferation of epithelial cells but not of fibroblasts in long-term culture

Medium lacking serum but supplemented with milk will support the growth of sparse cells in culture. Milk obtained within 8 h after the birth of a calf (day 1 colostrum) is the most effective in supporting proliferation. In mixed cultures of early-passage bovine embryonic kidney (BEK) or early-passage calf kidney (CK) cells, both epithelial cells and fibroblasts grow in Dulbecco’s modified eagle’s medium (DMEM) supplemented with serum. However, only cells that appear to be epithelial-like grow in DMEM supplemented with colostrum. Sparse cultures of early-passage human and rat fibroblasts that grow readily in DMEM supplemented with serum do not grow in DMEM supplemented with colostrum. Canine kidney epithelial cells (MDCK), when plated sparsely, grow exponentially in DMEM supplemented with day 1 bovine colostrum. The generation time is 26 h, the same growth rate as in DMEM supplemented with calf serum. The MDCK cells can be subcultured and regrown to confluence repeatedly in colostrum-supplemented DMEM. Growth in DMEM supplemented with colostrum does not alter the morphological characteristics of the MDCK cells, which are polygonal, contain microvilli at the apical surface, and are connected by tight junctions and desmosomes. MDCK cells do not proliferate in DMEM supplemented with milk obtained 1 wk after the birth of a calf.     

Effects of cell density and cell growth alterations on cyclic nucleotide levels in cultured human diploid fibroblasts.

cGMP and cAMP concentrations were studied in cultures of two strains of normal human diploid lung fibroblasts, WI38 and KL-2, under various conditions which alter growth rate. Higher levels of cAMP were found in fibroblasts grown in medium with low (0.1 – 1.0%) serum concentration and thus exhibiting a decreased rate of growth. A rise in cAMP also preceded the decreased growth rate when medium was not changed for 4 days or longer (starvation). The reinitiation of cell growth by addition of fresh medium containing the standard 10% serum to either starved or serum-restricted cells was preceded by a rapid drop in cAMP level. Cellular cAMP levels increased to a moderate extent as sparse cultures first increased in density, but did not continue to rise as the culture approached saturation density. cGMP levels were inversely related to cell density: much higher cellular cGMP levels were found at low density than at higher cell density, whether cells were rapidly proliferating under standard growth conditions or had their growth arrested by omission of medium change or restriction of serum. Thus, under these conditions the steady state levels of cGMP appear to be related to cell density rather than rate of cell proliferation. However, a transient but appreciable increase in cGMP did occur upon the addition of fresh medium containing 10% serum to starved or serum-restricted cells, a condition leading to reinitiation of cell proliferation. Smaller but significant increases in cGMP were also evident following routine addition of fresh medium with serum to growing cells fed every other day and following mild EDTA-trypsin treatment of confluent WI38 fibroblasts. Thus, at least dual control mechanisms appear to be involved in the regulation of cGMP levels. Comparison of mid- and late-passage WI38 cells revealed no significant differences either in the levels of cGMP at sparse densities or in the density-dependent change in levels. These results suggest that levels of both cAMP and cGMP are influenced by cell density and also by conditions which alter the rate of cell proliferation.