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.     

Regulation of human amnion cell growth and morphology by sera,plasma, and growth factors

Summary The requirements of human epithelial cells derived from the amnion membrane for serum factors were investigated. The growth promoting effects of human whole blood serum (WBS), platelet-poor defibrinogenated plasma, and plasma-derived serum (PDS) were examined in primary cultures of these ectodermal cells. The numbers of population doublings recorded after 10 days in the presence of 10% WBS, defibrinogenated plasma, or PDS were 2.3, 2.0 or 1.5, respectively. Although dialysis of sera or plasma had little effect on growth promotion, it markedly decreased the capacity of plasma to maintain cells in culture beyond 10 days. The differences in growth activities could not be attributed to the presence of anticoagulant in plasma and PDS or to the presence of excess calcium in PDS. Platelet lysates and purified platelet-derived growth factor had no effect on growth. Amnion cell growth was enhanced by epidermal growth factor (EGF) or hydrocortisone, but the glucocorticoid did not condition cells to respond to growth factors. Insulin and fibroblast growth factor singly or in combination had no effect on cell replication. Giant cell formation accompanied maintenance in hydrocortisone with defibrinogenated plasma and PDS. Discrete regions of dense population appeared in the presence of hydrocortisone, EGF, and undialyzed supplements.Supported in part by ACS grant PDT-140     

Different Growth Responses of Hamster Dermal Fibroblasts and Chondrocytes to Platelet–derived Growth Facter in Cell Culture

The growth responses of dermal fibroblasts and chondrocytes obtained from 1-week-old hamsters to a growth factor from platelets [platelet-derived growth factor (PDGF)] were compared. Autoradiography showed that most of the whole nuclei of dermal fibroblasts were labeled with ³H-thymidine in 5% whole blood serum (WBS), which contains platelet releasate, but only a few percent were labeled in 5% plasma-derived serum (PDS), which is free of platelet releasate. Addition of platelet releasate to PDS restored the growth stimulatory activity of the serum for dermal fibroblasts. In contrast, most of the nuclei of chondrocytes were labeled with ³H-thymidine both in 5% WBS and 5% PDS. Dermal fibroblasts grew in 5% WBS, but not in 5% PDS, whereas chondrocytes grew in both 5% WBS and 5% PDS. Partially purified PDGF added to the medium with 0.5% fetal calf serum stimulated DNA synthesis in dermal fibroblasts, but not in chondrocytes.     

Somatomedin-C and platelet-derived growth factor stimulate human fibroblast replication

Previous studies have demonstrated that serum contains mitogens, such as platelet-derived growth factor (PDGF), which may alter fibroblast responsiveness to growth factors contained in plasma. Somatomedin-C (SM-C) has been identified as one of the plasma growth factors required for mouse Balb/c 3T3 fibroblasts to initiate DNA synthesis. The present experiments were undertaken to explore the interaction between PDGF, human growth hormone (hGH), SM-C, and other growth-promoting agents in stimulating the growth of human fibroblasts. Proliferation of human dermal fibroblasts plated at low density (3,000 cells/cm²) was found to be equally stimulated by continuous exposure to either normal or somatomedin-C-deficient serum. In contrast, when confluent monolayers were sequentially exposed to PDGF, followed either by normal platelet poor plasma (PPP) or hypopituitary PPP, the cells exposed to normal PPP entered the “S” phase of the cell cycle 50% faster. This difference could be abolished by a 6-hour incubation with growth hormone (10 ng/ml) or somatomedin-C (5 ng/ml) preceding the addition of plasma. When medium containing either hGH or Sm-C was changed frequently so as to remove factors secreted by fibroblasts, only those cells exposed to exogenous somatomedin-C entered DNA synthesis. This finding is in agreement with previous findings that human fibroblasts are capable of making Sm-C in response to hGH. These findings support the hypothesis that somatomedin is required for fibroblast replication in vitro, and that growth hormone appears to stimulate replication indirectly through somatomedin production.     

Growth factor contents of autologous human sera prepared by different production methods and their biological effects on chondrocytes

To discuss the autologous serum production for cartilage tissue engineering, we compared three kinds of sera: whole blood-derived serum (WBS), platelet-containing plasma-derived serum (PCS), and plasma-derived serum (PDS), on the growth factor contents and their biological effects on human auricular chondrocytes. EGF, VEGF and PDGF levels were highest in WBS, while PCS and PDS followed WBS. The proliferation effects of WBS were the most pronounced, followed by that of PCS, both of which realized a 1000-fold-increase in chondrocyte numbers at the third passage, whereas PDS reached it after passage 4. No significant differences were observed in histology or cartilaginous matrix measurements of tissue-engineered cartilage produced from chondrocytes cultured under different serum conditions. WBS would be clinically useful because of its potent proliferation effects, while PCS, which possibly saves the red cell concentrate, may be an option in cases where there are elevated risks of blood loss.     

Serial propagation of human endothelial cells in vitro

Human umbilical vein (HUV) endothelial cells were grown for 15 to 21 passages at a split ratio of 1:5 (at least 27 population doublings) on a human fibronectin (HFN) matrix in Medium 199 supplemented with fetal bovine serum (FBS) and endothelial-cell growth factor (ECGF). This system also permitted the growth of HUV endothelial cells at cell densities as low as 1.25 cells/cm2. In addition to delaying the premature senescence of HUV endothelial cells, ECGF also reduced the serum requirement for low-density HUV endothelial-cell growth; 2.5% serum and ECGF yields half-maximum growth as compared to high serum controls. Significant HUV endothelial-cell growth was also observed in medium supplemented with either ovine hypophysectomized (HYPOX) serum, plasma-derived serum (PDS), or HYPOX-PDS in the presence of ECGF, suggesting that neither the pituitary nor the platelet contributes to HUV endothelial-cell growth.     

The antiproliferative effect of interferon and the mitogenic activity of growth factors are independent cell cycle events : Studies with vascular smooth muscle cells and endothelial cells

We studied the antagonistic effects of interferon (IFN) and growth factors in G0/G1-arrested normal bovine aortic smooth muscle cells (SMC) which were stimulated by serum, or purified platelet derived growth factor (PDGF), supplemented with plasma-derived serum (PDS). The growth response, measured as [3H]thymidine incorporation into DNA, was dependent on the concentration of the mitogen. Human IFN alpha, recombinant human IFN alpha 2, or a crude bovine-IFN preparation prepared from virus-infected bovine aortic endothelial cells, inhibited SMC growth induced by either serum or PDGF with PDS. The extent of IFN inhibition was inversely related to the concentration of the mitogenic stimulus. We also investigated whether IFN inhibited the early events in G1 phase, stimulated by the competence factor PDGF, or the progression of the cell into the S phase induced by PDS. The results indicated that IFN inhibited these two stages of the G1 phase independently. In addition, we investigated the antiproliferative effect of IFN on bovine aortic endothelial cells (BAEC), which do not respond to PDGF but to the mitogenic activity of fibroblast growth factor (FGF). IFN inhibited the mitogenic activity of FGF in a dose-dependent manner. The results indicate that the anti-proliferative activity of IFN and the mitogenic effects of different growth factors are independent.     

Demonstration of stimulatory effects of platelet-derived growth factor on cultivated rat arterial smooth muscle cells : Differences between cells from young and adult animals

The effects of platelet-derived growth factor (PDGF) on DNA synthesis and proliferation in cultures of arterial smooth muscle cells obtained from young and adult rats, respectively, were measured. Addition of 10-20 ng/ml of PDGF to medium MCDB 104 induced DNA synthesis in quiescent cultures of cells from young animals to a similar extent as 10-20% whole blood serum (WBS). PDGF further stimulated proliferation of the cells in medium MCDB 104, although less markedly than 10% WBS. Antibodies against PDGF partially inhibited the growth response after stimulation with serum. This shows that PDGF is a major growth factor in serum for these cells and that PDGF can promote entrance into and passage through S phase and mitosis independent o plasma factors. Cells from adult animals were also found to respond to PDGF, although a higher concentration (25 ng/ml) was required to obtain a maximum effect. These cells, however, responded better than cells from young animals to stimulation with serum. Further, antibodies against PDGF did not inhibit the growth-stimulatory effect of serum to any appreciable extent. Thus, serum contains growth factors other than PDGF that stimulate preferentiaLly the proliferation of smooth muscle cells from adult animals.     

Mediation of pinocytosis in cultured arterial smooth muscle and endothelial cells by platelet-derived growth factor

Pinocytosis was measured in monkey aortic smooth muscle cells (SMC), bovine aortic endothelial cells, and Swiss 3T3 cells in culture as cellular uptake of [U-(14)C]sucrose and horseradish peroxidase (HRP) from the tissue culture medium. Monkey arterial SMC and Swiss 3T3 cells were maintained in a quiescent state of growth at low cells density in medium containing 5 percent monkey plasma-derived serum (PDS). Replacement of PDS with 5 percent monkey whole blood serum (WBS) from the same donor, or addition to PDS of partially purified platelet-derived growth factor(s) (PF), resulted in a marked stimulation of pinocytosis as well as of cellular proliferation. In SMC, enhancement of the rate of pinocytosis occurred 4-6 h after exposure to WBS or PF, and the rate was up to twofold higher than the rate in medium containing PDS. In contrast, [(3)H]thymidine uptake by SMC did not increase until 12-16 h after exposure to PF. In endothelial cells the presence of PF or WBS did not enhance either the rate of pinocytosis or the rate of proliferation over that in PDS. Thus, endothelial cells did not become quiescent at subconfluent densities in PDS but maintained rates of proliferation and pinocytosis that were equivalent to those in WBS. By autoradiography, the fraction of labeled nuclei in SMC cultures 24 h after change of medium increased from 0.061 +/- 0.004 in quiescent cultures to 0.313 +/- 0.028 after exposure to WBS or PF. In contrast, labeling indices of endothelial cells were similar for cultures grown in PDS, WBS, or PF at any single time point after change of medium. These findings suggest that the rate of pinocytosis maybe be coupled in some fashion to growth regulation, which may be mediated in part by specific growth factors, such as that derived from the thrombocyte.     

Long-term serial cultivation and growth requirements for human umbilical vein endothelial cells

Summary Human umbilical vein endothelial cells (HUV-EC) grew rapidly in vitro in medium supplemented with epidermal growth factor, fetal bovine serum (FBS) and human diploid fibroblast-conditioned medium. The effect of FBS could be replaced partially by bovine serum albumin, cholesterol, and vitamin E, and completely by further addition of serum dialysate or refeeding every other day. Among these components, fibroblast-conditioned medium is essential for HUV-EC growth. The HUV-EC were cultured serially for over 50 population doublings in the 10% FBS containing fibroblast-conditioned medium and for over 40 population doublings in the serum-free medium. Mitogenic factor(s) present in the medium conditioned by fibroblasts may be related to endothelial cell growth factor and play an important role angiogenesis and regeneration of vascular endothelium in vitro.     

Modification of MCDB 110 medium to support prolonged growth and consistent high cloning efficiency of diploid human fibroblasts

In preparation for studies on the growth factor requirements of normal and transformed human fibroblasts, we have developed a serum-free medium that supports vigorous long-term serial subculture of diploid human fibroblasts and allows them to form large-sized colonies with high efficiency (40 to 60%) when plated at cloning density (2 to 5 cells/cm2). This medium, which is a modification of Ham's MCDB 110 base medium with its serum replacement supplements, is relatively easy to prepare and the cost of the serum replacements is approximately the same as that of fetal bovine serum supplied at 10%. The ingredients of "Supplement B" of MCDB 110 medium were added in an ethanol solution, rather than in the form of liposomes, and were combined with bovine serum albumin (0.5%), a lipid carrier. Gelatin and fetuin were included as attachment factors instead of polylysine. Bioassays indicated that none of the ingredients in the medium were contaminated with either epidermal growth factor or platelet-derived growth factor. In this modified serum-free medium, which we have designated McM+SR1, diploid human fibroblasts grew for 21 days at the same rate as in the base medium, McM, supplemented with 10% FBS (i.e., 21 population doublings). During the next 20 days, they underwent 15 population doublings which was 75% of the rate of cells growing in the medium containing serum.     

Are factors originating from serum,plasma, or cultured cells involved in the growth-promoting effect of the extracellular matrix produced by cultured bovine corneal endothelial cells?

The possibilities that the growth-promoting effect of the extracellular matrix (ECM) produced by cultured bovine corneal endothelial (BCE) cells could be due to: (1) adsorbed cellular factors released during the cell lysis process leading to the denudation of the ECM; (2) adsorbed serum or plasma factors: or (3) adsorbed exogenous growth factors have been examined. Exposure of confluent BCE cultures to 2 M urea in medium supplemented with 0.5% calf serum denudes the ECM without cell lysis. The ECM prepared by this procedure supports cell growth just as well as ECM prepared by denudation involving cell lysis. Thus, it is unlikely that the growth-promoting properties of ECM are due to adsorbed cellular factors. When the ECM produced by BCE cells grown in defined medium supplemented with high-density lipoprotein, transferrin, and insulin was compared to the ECMs produced by cells grown in the presence of serum- or plasma-supplemented medium, all were found to be equally potent in stimulating cell growth. It is therefore unlikely that the growth-promoting ability of the ECM is due to adsorbed plasma or serum components. When fibroblast growth factor (FGF)-coated and ECM-coated plastic dishes were submitted to a heat treatment (70 degrees C, 30 min) which results in the inactivation of FGF, the growth-supporting ability of FGF-coated dishes was lost, while the comparable ability of ECM-coated dishes was not affected significantly. This observation tends to demonstrate that the active factor present in the ECM is not FGF. Nor is it platelet-derived growth factor (PDGF), since treatment known to destroy the activity of PDGF, such as exposure to dithiothreitol (0.1 M, 30 min, 22 degrees C) or to beta-mercaptoethanol (10%) in the presence or absence of 6 M urea for 30 min at 22 degrees C, does not affect the growth-promoting activity of ECM. It is therefore unlikely that the growth-promoting effect of ECM is due to cellular growth-promoting agents or to plasma or serum factors adsorbed onto the ECM.     

Quiescence and proliferative response of normal human embryonic fibroblasts in homologous environment. Effect of aging.

A cell culture system for the study of human serum growth factors is described. It is based on a diploid human embryonic lung fibroblast cell strain (Flow 2002) with a finite life span (60 +/- 3 CPDs). When maintained in homologous (human) plasma-derived serum (PDS) at concentrations as low as 0.05%, the cells attain quiescence. Under these conditions, they remain viable for at least 14 days and they readily respond when stimulated to proliferate by human serum or human PDS, as well as by growth factors, such as PDGF, EGF, FGF. During in vitro aging, the cells retain their responsiveness to these growth stimuli, although the net proliferative effect decreases as they approach senescence.     

The effect of choleragen and epidermal growth factor on proliferation and maturation in vitro of human ectocervical cells

Summary The role of choleragen (CT) and epidermal growth factor (EGF) has been examined in relation to the control of growth and differentiation of adult human cervical epithelial (HCE) cells derived from the ectocervix. Cervical biopsies derived from hysterectomy specimens were trypsin disaggregated and HCE cells were plated at 5×10³/cm² in the presence of 2×10⁴/cm² lethally irradiated Swiss 3T3 fibroblasts. Cultures were grown in Liebovitz medium supplemented with 10% fetal bovine serum and hydrocortisone. Epidermal growth factor at 10 ng/ml and choleragen at 10⁻¹⁰ M were added to cultures either singly or in combination. DNA replication in these cultures was measured autoradiographically after exposing cells to tritiated thymidine for 2 h. Differentiation was assessed histochemically by determining glycogen accumulation using the periodic acid Schiff technique. Choleragen increased colony plating efficiency by at least a factor of two but had no effect on colony size Epidermal growth factor did not increase plating efficiency but did increase colony size. In EGF treated colonies DNA replication occurred throughout the colony compared to CT treated colonies in which replication was restricted to the periphery. In the absence of EGF, population doublings achieved in culture did not exceed 32 and glycogen accumulation was evident in cells early in culture life. Colonies treated with EGF exhibited glycogen accumulation late in culture life and the EGF treated cells achieved at least 50 population doublings in culture. The results are discussed in relation to the role of EGF and choleragen on cell differentiation.     

Cumulative population doublings as the determinant of chick cell lifespan in vitro

Chick embryo fibroblasts were maintained at confluency for up to 35 days in medium containing 0.5% or 0.75% fetal bovine serum or 2.5% or 5.0% horse serum. At weekly intervals cells were subcultured and serially propagated in medium containing 10% FBS until their replicative lifespans were completed. The results showed that the replicative lifespan of embryonic chick fibroblasts was dependent on the cumulative number of population doublings undergone by the culture and was not related to the calendar time cells were in culture. Further characterization of 0.75% FBS maintained chick cells returned to 10% FBS medium showed that cells had protein contents and incorporated ³H-thymidine into DNA at a rate that resembled that of young cells, despite an advanced chronological age.     

EBV-inducing factor from platelets exhibits growth-promoting activity for NIH 3T3 cells.

An Epstein-Barr virus-indicating factor (EIF) has been purified from serum and platelets. We show here that highly purified preparations of platelet EIF exhibit growth-promoting activity for NIH 3T3 cells maintained in platelet-poor plasma. The Epstein-Barr virus (EBV)-inducing activity and growth-promoting activity co-elute upon gel chromatography under non-dissociating as well as dissociating conditions and co-migrate in SDS-gel electrophoresis, supporting the notion that both activities reside on the same molecule. Furthermore, both activities require a pH shock for full activity and act in the same concentration range. The growth-promoting activity of EIF can be differentiated from that of platelet-derived growth factor (PDGF), biologically (on the basis of differential response of cell lines to both factors), biochemically (on the basis of differences in isoelectric points and mol. wts. and the requirement of EIF to become activated by a pH shock) and by the lack of inhibition of EIF by antibody to PDGF.     

Cell-mediated contraction of collagen lattices in serum-free medium: Effect of serum and nonserum factors

Summary This study was conducted to identify a defined, serum-free culture medium that supports cell dependent contraction of a collagen lattice. Collagen lattices were found to contract in cultures containing human foreskin fibroblasts (HFF) or rabbit aortic smooth muscle (RASM) cells incubated in serum-free medium. HFF and RASM cells required different supplements to contract the collagen gels. HFF cultured in Dulbecco’s modified Eagle’s (DME) medium supplemented with bovine serum albumin (BSA) and either endothelial cell growth supplement (EnGS), insulin (In), or platelet derived growth factor (PDGF) supported collagen lattice contraction. Replacement of BSA with casein without the addition of other supplements improved contraction. In contrast, RASM cells supplemented with BSA, EnGS, In, and PDGF were able to contract collagen gels only minimally. Similar to HFF, RASM cells cultured in DME medium supplemented with casein, but without the addition of other supplements, contracted collagen lattices. HFF-mediated collagen contraction was inhibited by prostaglandins E₁ or E₂, fibronectin, or ascorbic acid. The reported serum-free model provides a useful in vitro method to investigate the role of serum and nonserum factors regulating cell mediated-contraction of insoluble collagen fibrils. Presented in part as abstract 1963 in the 1985 Federation of American Societies for Experimental Biology, April 21–26, Anaheim, California, and published in Fed. Proc. (44):747; 1985.     

Regulation of fibroblast proliferation in three-dimensional collagen gel matrix

Summary Fibroblastsin vivo reside in a three-dimensional (3-D) matrix. The 3-D culture method using collagen gels provides valuable information, but is also has some practical difficulties. In particular, the changes caused by the contraction of gels and the occasional abrupt detachment from the underlying surface have made extended culture difficult. In this study, the 3-D culture method was modified in order to observe the cells with minimal change of substrata for longer periods. The proliferation characteristics of fibroblasts cultured in gels in response to fetal calf serum (FCS), to two defined growth factors, insulin and platelet-derived growth factor (PDGF), and to a growth inhibitory factor, prostaglandin E₂ (PGE₂), were evaluated with this system in comparison with monolayer cultured fibroblasts. The DNA content of fibroblasts cultured both in gels and on dishes increased in response to FCS in a concentration-dependent manner. The proliferation of gel-cultured fibroblasts, however, was lower than that of dish-cultured cells, and higher concentrations of serum were necessary for proliferation. The response of gel-cultured cells to PDGF was also less than that of dish-cultured cells. In addition, fibroblasts cultured in gel culture did not respond to insulin, while the fibroblasts on dishes responded to insulin in a concentration-dependent manner. In contrast to the reduced response to growth stimulators, PGE₂ inhibited proliferation in gel culture and in monolayer culture similarly. The reduced responsiveness to growth stimulation but equivalent response to growth inhibition may account for reduced proliferation of fibroblasts in 3-D culture.     

Continuous multiplication of rabbit tracheal epithelial cells in a defined,hormone-supplemented medium

Summary An improved Ham’s F12 nutrient medium supplemented with epidermal growth factor (EGF), insulin (INS), and transferrin (TF) was developed for continuous proliferation and clonal growth of primary rabbit tracheal epithelial (TE) cells in culture. The addition of small quantities of fetal bovine serum (FBS) (0.01 to 0.1%) to cultures had little measurable stimulation on TE cell growth and plating efficiency. However, serum levels higher than 0.1% inhibited cell growth and also masked the growth stimulating activities of EGF and INS despite an increase in cell attachment. Under this defined, hormone-supplemented medium, and in the presence of a trace amount of serum (0.01%), 10 to 20% of the protease-dissociated TE cells attached to the culture dish followed by at least four population doublings during 7 to 10 d of culture. Clonal growth occurred at a seeding density of 17 cells/cm² with a plating efficiency of 6 to 8%. Confluent primary cultures could be passaged two to four times by treatment with a 0.1% trypsin-1 mM EDTA solution and a total of 10 to 30 population doublings of in vitro life span were obtained. The epithelial nature of cultured cells was confirmed by indirect immunofluorescent staining with antikeratin antibody as well as by transmission electron microscopy. This study shows that using this improved hormone-supplemented medium, rabbit TE cells can be maintained in culture for extended periods of time without the aid of a fibroblast feeder layer or explant tissue. This system could be useful for the study of cell differentiation of tracheal epithelium.     

Plasma and platelet associated factors act in G1 to maintain proliferation and to stabilize arrested cells in a viable quiescent state : A temporal map of control points in the G1 phase

In medium supplemented with defibrinogenated, platelet-poor human plasma and a low molecular weight growth factor derived from human platelets (PDGF), Swiss 3T3 cells proliferate exponentially with the same cell cycle kinetics as cells cultured in medium supplemented with commercial calf serum. Removal of PDGF from the culture medium arrests proliferating cells in a stable, reversible G0/G1 quiescent state. This arrested state is similar to the known quiescent state induced by deprivation of calf serum in cell exit kinetics and cytoplasmic proteins synthesized. Cells are sensitive to PDGF deprivation only at the beginning of G1. Reduction of the plasma concentration in the culture medium also arrests cells in G1. The resulting arrested population is unstable and exhibits progressive cell death. Reduced levels of plasma block cellular transit through the cell cycle at a median time of approx. 2.1 h following mitosis, approx. 3.3 h prior to S phase initiation. In addition to being required by cycling cells, plasma associated factors are required to maintain G1 cells blocked by PDGF deprivation in a stable quiescent state. Establishment of a stable, viable G0/G1 growth-arrested state, therefore, apparently involves two distinct processes: arrest of cellular proliferation in G1 and stabilization of the arrested cells in a viable quiescent state. Together with previously reported findings on serum and isoleucine starvation, these results provide a temporal map of growth control points in the G1 phase.