Oxygen concentration regulates EGF-induced proliferation and EGF-receptor down regulation

Reducing oxygen from 20% to 2.5% increases EGF-induced DNA synthesis and cell proliferation in cultures of human diploid fibroblasts. Reducing oxygen also changes the pattern of EGF binding to the cell surface. The loss of surface binding that follows EGF attachment to cells in 20% oxygen does not occur in 2.5% oxygen.     

Complement-dependent induction of DNA synthesis and proliferation of human diploid fibroblasts

The effects of fresh human serum (FHS) and heat-inactivated human serum (HHS) on the DNA synthesis and proliferation of human diploid fibroblasts were assessed. FHS activated significantly more quiescent fibroblasts to undergo DNA synthesis and proliferation than did HHS. The stimulatory effect occurred consistently over a serum concentration range of 0.1–10%. Using bromodeoxyuridine selective killing techniques, it was shown that this FHS stimulatory effect was on a specific subpopulation of fibroblasts unresponsive to HHS. The involvement of the complement system, and specifically of C1, was shown by the inability of Clq-depleted FHS to support enhanced DNA synthesis whereas Clq-depleted serum reconstituted with purified Clq was effective. Purified Clq did not restore activity when added to heated serum, nor was it mitogenic when tested in basal medium without serum. The addition of purified Clq to fresh serum inhibited the enhancement of DNA synthesis, and at Clq concentrations of 4γ/ml and greater, the fresh serum effects were abrogated. Thus, it appears that binding of the assembled C1 complex to the fibroblast surface was required for FHS-mediated enhancement of fibroblast proliferation, with Clq subcomponent serving as the recognition site. The results from several experiments indicated that antibody was not required for the complement-dependent fibroblast activation. FHS was not cytotoxic, and autologous serum was as effective as allogeneic sera. A 20-fold molar excess of Fab' from pooled human IgG did not alter the FHS effects. FHS from which IgG was more than 99% depleted was still effective. These results suggested an antibody-independent role for complement in the activation of a subpopulation of human diploid fibroblasts.     

Oxygen concentration regulates 5-azacytidine-induced myogenesis in C3H/10T1/2 cultures.

This study reports that changing the oxygen concentration within a physiologic range has a striking effect on myogenesis induced by the cytidine analog 5-azacytidine. Reducing oxygen from 20% to 2.5% increases 7-fold the number of myocytes that appear in cultures of C3H/10T1/2 mouse embryo cells 10 days after they receive a 24-h exposure to 5-azacytidine. Reducing oxygen does not alter the extent to which a 24-h exposure to 5-azacytidine inhibits cytosine methylation in newly synthesized DNA. Instead, the oxygen-sensitive step in myogenesis occurs after 5-azacytidine is removed from the culture medium. Reducing oxygen increases the rate of logarithmic growth in C3H/10T1/2 cultures after 5-azacytidine exposure, suggesting that survival and proliferation of myocyte stem cells (morphologically indistinguishable from uncommitted C3H/10T1/2 cells) may be the oxygen-sensitive steps in myogenesis.     

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.     

Hypoxia-induced proliferative response of vascular adventitial fibroblasts is dependent on g protein-mediated activation of mitogen-activated protein kinases

Hypoxia has been shown to act as a proliferative stimulus for adventitial fibroblasts of the pulmonary artery. The signaling pathways involved in this growth response, however, remain unclear. We tested the hypothesis that hypoxia-induced proliferation of fibroblasts would be dependent on distinct (compared with serum) activation and utilization patterns of mitogen-activated protein (MAP) kinases initiated by Galpha(i/o) proteins. We found that hypoxia stimulated increases in DNA synthesis and growth of quiescent fibroblasts in the absence of exogenous mitogens and also markedly augmented serum-stimulated growth responses. Hypoxia caused a transient activation of extracellular signal-regulated kinase (ERK) and c-Jun N-terminal kinase (JNK), the time course and pattern of which was somewhat similar to that induced by serum but which was of lesser magnitude. On the other hand, hypoxia-induced activation of p38 MAP kinase was biphasic, whereas serum-stimulated activation of p38 MAP kinase was transient, and the magnitude of activation was greater for hypoxia compared with that of serum stimulation. ERK1/2, JNK1, and p38 MAP kinase but not JNK2 were necessary for hypoxia-induced proliferation because PD98059, SB202190, and JNK1 antisense oligonucleotides nearly ablated the growth response. JNK2 appeared to act as a negative modulator of hypoxia-induced growth because JNK2 antisense oligonucleotides led to an increase in DNA synthesis. In serum-stimulated cells, antisense JNK1 oligonucleotides and PD98059 had inhibitory effects on proliferation, whereas SB202190 led to an increase in DNA synthesis. Pertussis toxin, which blocks Galpha(i/o)-mediated signaling, markedly attenuated hypoxia-induced DNA synthesis and activation of ERK and JNK but not p38 MAP kinase. We conclude that hypoxia itself can act as a growth promoting stimulus for subsets of bovine neonatal adventitial fibroblasts largely through Galpha(i/o)-mediated activation of a complex network of MAP kinases whose specific contributions to hypoxia-induced proliferation differ from traditional serum-induced growth signals.     

G1 phase heterogeneity in exponentially growing Swiss 3T3 mouse fibroblasts

The growth rate of normal cultured Swiss 3T3 fibroblasts is function of serum concentration and the fraction of G1 cells, and hence the average residence time in G1, increases with the generation time. Serum contains two sets of factors: competence factors, essentially platelet-derived growth factor (PDGF), which induces competence in quiescent fibroblasts and prevents replicating cells from entering G0, and plasma, which allows progression. The increase in the duplication time and the duration of Gl at low serum concentration could hence be due to the fact that competence factors become limiting. The fraction of non-competent cells, operationally defined as those G1 cells unable to leave G1 in the presence of plasma alone, was determined in populations exponentially growing at serum concentrations between 5 and 20%. To do so exponentially growing cultures were shifted to plasma plus colcemid: one part of the cell population progressed through the cycle and accumulated with a G2 DNA content, whereas non-competent cells remained in G1. Analysis of the DNA distributions performed 24 h after the shift showed that as serum concentration was lowered more cells were found in the non-competent state: they were less than 5% in 20% serum and almost 50% in 5% serum. The non-competent cells constitute a dynamic fraction of the population, since in the presence of serum they can leave Gl and progress in the cycle. These data indicate that one of the steps limiting exponential growth is the acquisition of competence and that this event gives rise to heterogeneity within the G1 population.     

Induction of hyaluronic acid synthetase activity in rat fibroblasts by medium change of confluent cultures

Hyaluronic acid synthesis in cultured cells usually occurs during the growth phase. The relation between hyaluronic acid synthetase activity and cell proliferation is studied. The synthetase activity in rat fibroblasts is high during the growth phase, but low in the stationary phase. When the old medium of stationary cultures is renewed with fresh medium containing 20% calf serum, DNA synthesis occurs synchronously between 12 and 20 hours, followed by cell division. Under these conditions, the hyaluronic acid synthetase activity is significantly induced within two hours, reaching a maximum level at 5–8 hours, and then decreases gradually. This induction of the synthetase, which shows a high turnover rate, requires continued synthesis of both RNA and protein. Furthermore, the induction of both DNA and hyaluronic acid synthesis is found to be caused by calf serum added in the medium. However, dialysis and ultrafiltration of the serum permit us to concentrate an active fraction with a high molecular weight, which induces the synthetase activity, but not DNA synthesis.     

Cell density downregulates DNA synthesis and proliferation during osteogenesis in vitro

Abstract. The classical models of in vitro cell culture comprise fibroblasts and epithelial cells. Osteogenic cells represent another interesting cell model; however, it is not known whether during osteogenesis cell density regulates cell growth as seen in cultures of fibroblasts and epithelial cells. We selected MC3T3-E1 cells for study because they are an osteogenic cell line that, when subcultured, grow to confluence and form multilayers of cells in conventional cultures by continued proliferation, as do fibroblasts. Once maximum cell density is obtained, proliferation is down regulated resulting in a mixed population of quiescent and dividing cells. We used this model to determine whether downregulation of proliferation as expressed by cell number and DNA synthesis is cell density-dependent. MC3T3-E1 cells were cultured over a period of 34 days to determine their kinetics, viability, ability to synthesize DNA, distribution within phases of the cell cycle and cell number-response relationships. Our results show that (1) viability ranged between 92% and 96% and the cell number 2.5 x 10⁵ per cm² once cultures reached steady state, (2) most cells entered the G₀/G₁ phase of the cell cycle on day 7, (3) there was no correlation between the proportion of cells in S phase and downregulation of DNA synthesis, (4) a direct relationship exists between cell density and downregulation of DNA synthesis on day 8, (5) the minimum time for cells to be cultured before downregulation of DNA synthesis begins is independent of cell number, and (6) downregulation of DNA synthesis is reversible. These results suggest that density-dependent downregulation of DNA synthesis may be a mechanism of growth control for osteogenic cells in vitro that operates more like density-dependent growth control in cultures of fibroblasts rather than epithelial cells.     

Stimulation of bumetanide-sensitive Na+/K+/Cl- cotransport by different mitogens in synchronized human skin fibroblasts is essential for cell proliferation

In this study, we examined the role of the bumetanide-sensitive Na+/K+/Cl- cotransport in the mitogenic signal of human skin fibroblast proliferation. The Na+/K+/Cl- cotransport was dramatically stimulated by either fetal calf serum, or by recombinant growth factors, added to quiescent G0/G1 human skin fibroblasts. The following mitogens, FGF, PDGF, alpha-thrombin, insulin-like growth factor-1, transforming growth factor-alpha, and the phorbol ester, 12-O-tetradecanoyl-phorbol-13-acetate, all stimulated the Na+/K+/Cl- cotransport. In addition, all the above mitogens induced DNA synthesis in the synchronized human fibroblasts. In order to explore the role of the Na+/K+/Cl- cotransport in the mitogenic signal, the effect of two specific inhibitors of the cotransport, furosemide and bumetanide, was tested on cell proliferation induced by the above recombinant growth factors. Bumetanide and furosemide inhibited synchronized cell proliferation as was measured by (a) cell exit from the G0/G1 phase measured by the use of flow cytometry, (b) cell entering the S-phase, determined by DNA synthesis, and (c) cell growth, measured by counting the cells. The inhibition by furosemide and bumetanide was reversible, removal of these compounds, completely released the cells from the block of DNA synthesis. In addition, the two drugs inhibited DNA synthesis only when added within the first 2-6 h of cell release. These results indicate that the effect of these drugs is specific, and is not due to an indirect toxic effect. This study clearly demonstrates that the growth factor-induced activation of the Na+/K+/Cl- cotransport plays a major role in the mitogenic signaling pathway of the human fibroblasts.     

Apolipoprotein E inhibits serum-stimulated cell proliferation and enhances serum-independent cell proliferation

Independently of its role in lipid homeostasis, apolipoprotein E (apoE) inhibits cell proliferation. We compared the effects of apoE added to media (exogenous apoE) with the effects of stably expressed apoE (endogenous apoE) on cell proliferation. Exogenous and endogenous apoE increased population doubling times by 30-50% over a period of 14 days by prolonging the G(1) phase of the cell cycle. Exogenous and endogenous apoE also decreased serum-stimulated DNA synthesis by 30-50%. However, apoE did not cause cell cycle arrest; both apoE-treated and control cells achieved equivalent saturation densities at 14 days. Further analyses demonstrated that exogenous and endogenous apoE prevented activation of MAPK but not induction of c-fos expression in response to serum growth factors. Endogenous (but not exogenous) apoE altered serum concentration-dependent effects on proliferation. Whereas control (non-apoE-expressing) cell numbers increased with increasing serum concentrations (1.6-fold for every 2-fold increase in serum), apoE-expressing cell numbers did not differ as serum levels were raised from 2.5 to 10%. In addition, in low serum (0.1%), apoE-expressing cells had elevated DNA synthesis levels compared with control cells. We conclude that apoE does not simply inhibit cell proliferation; rather, the presence of apoE alters the response to and requirement for serum mitogens.     

Growth factor modulation of mitogenic responses and proteoglycan synthesis by human periodontal fibroblasts

In order to understand the relationship between specific growth factors and matrix synthesis by periodontal cells, we have investigated the effects of platelet-derived growth factor BB (PDGF-BB), insulin-like growth factor-I (IGF-1), and growth hormone on DNA and proteoglycan synthesis by cultured human gingival and periodontal ligament fibroblasts in vitro. PDGF-BB and IGF-1, but not growth hormone, were mitogenic for both periodontal ligament fibroblasts and gingival fibroblasts, although the periodontal ligament cells responded more strongly. The mitogenic response was accompanied by alterations in expression of matrix proteoglycan mRNA. For both the gingival and periodontal ligament cells, there was a decrease in mRNA for decorin and an increase in mRNA for versican following exposure to IGF-1 and PDGF-BB. Although no change was seen in response to PDGF, biglycan mRNA level was increased by IGF-1 in periodontal ligament fibroblasts. With the gingival fibroblats, biglycan mRNA levels were unaffected by IGF-1, PDGF-BB, or growth hormone. These findings suggest variable responses of fibroblasts to growth factors depending upon anatomical site within the periodontium. Moreover, there appears to be a correlation between cell proliferation and the types of proteoglycan synthesised with decorin expression being suppressed, and versican being increased during fibroblast proliferation. J. Cell. Physiol. 174:353–361, 1998. © 1998 Wiley-Liss, Inc.     

Platelet-derived growth factor in chemotactic for fibroblasts

Chemotaxis assays in modified Boyden chambers were used to detect fibroblast chemoattractants in materials released from early-stage inflammatory cells, namely, mast cells, platelets, and neutrophils. Strong attractant activity was found in substances released from platelets. This activity was accounted for mainly by the platelet- derived growth factor (PDGF), which is released from the platelets and which was active as a chemoattractant at 0.5-1.0 mitogenic units/ml. The mitogenic activity of purified PDGF, measured by [3H]thymidine incorporation, occurs at a similar concentration range. By varying the gradient of PDGF, we demonstrated that PDGF stimulates chemotaxis rather than random motility. Preincubation of suspensions of fibroblasts in the presence of PDGF decreased the subsequent migration of cells to a gradient of PDGF as well as to a gradient of fibronectin, which is also in attractant for fibroblasts. The chemotactic response of fibroblasts to PDGF was not inhibited by hydroxyurea or azidocytidine but was inhibited by actinomycin D and cycloheximide, suggesting that synthesis of RNA and proteins but not of DNA is required for the chemotactic response to occur. Fibroblast growth factor, epidermal growth factor, nerve growth factor, and insulin were not chemotactic for human skin fibroblasts, suggesting that the chemoattractant activity of PDGF for fibroblasts is not a general property of growth factors and mitogens. These results suggest that PDGF could have two functions in wound healing: to attract fibroblasts to migrate into the clot and then to induce their proliferation.     

Influence of the extracellular matrix on the proliferative response of human skin fibroblasts to serum and purified platelet-derived growth factor

The culture of adult human skin fibroblasts on reconstituted bovine type 1 fibrillar collagen gels, ranging in concentration from 2.5-35.0 mg/ml, results in a reduction in proliferation rate by 40%-60% as measured by (3H) thymidine incorporation. The suppressive effect was noted when cells were cultured in both human and bovine serum. Drying the gels into thin films abolishes the suppressive effect of the fibrillar collagen on cell proliferation. Cell attachment studies showed that differences in the proliferation rate of cells on the various substrata were not simply due to differences in initial attachment. Studies with purified platelet-derived growth factor (PDGF) demonstrated that the reduced responsiveness of cells to this factor, when cultured on collagen gels as compared to plastic, was largely responsible for the reduced proliferative activity of the cells when cultured in the presence of serum. The reduced proliferative activity of fibroblasts in response to PDGF, when cultured on collagen gels, was confirmed by total DNA determination. It was shown that the reduced responsiveness of cells to PDGF was not simply because the factor bound to the fibrillar collagen gel or was inaccessible to the cells. The data indicate that the reduced proliferation rate of fibroblasts cultured on collagen gels is a direct result of the influence of the extracellular matrix on the cells' ability to respond to a soluble mitogenic mediator.     

Oxygen sensitivity severely limits the replicative lifespan of murine fibroblasts

Most mammalian cells do not divide indefinitely, owing to a process termed replicative senescence. In human cells, replicative senescence is caused by telomere shortening, but murine cells senesce despite having long stable telomeres. Here, we show that the phenotypes of senescent human fibroblasts and mouse embryonic fibroblasts (MEFs) differ under standard culture conditions, which include 20% oxygen. MEFs did not senesce in physiological (3%) oxygen levels, but underwent a spontaneous event that allowed indefinite proliferation in 20% oxygen. The proliferation and cytogenetic profiles of DNA repair-deficient MEFs suggested that DNA damage limits MEF proliferation in 20% oxygen. Indeed, MEFs accumulated more DNA damage in 20% oxygen than 3% oxygen, and more damage than human fibroblasts in 20% oxygen. Our results identify oxygen sensitivity as a critical difference between mouse and human cells, explaining their proliferative differences in culture, and possibly their different rates of cancer and ageing.     

Hormonal regulation of discrete portions of the cell cycle: commitment to DNA synthesis is commitment to cellular division

Density-arrested human fibroblasts were stimulated to traverse G0/G1 and initiate DNA synthesis by the addition of medium containing either serum or a combination of platelet-derived growth factor and platelet-poor plasma. Medium containing a combination of epidermal growth factor and high concentrations of insulin also stimulated DNA synthesis in platelet factor-treated quiescent cells. Platelet factor was required only to initiate proliferation. Epidermal growth factor and insulin then allowed G1 traverse and commitment to DNA synthesis. Cells could complete S, G2, and M in unsupplemented medium lacking peptide growth factors.     

The response of small vessel endothelial cells from fetal rat lung to growth factors

Small vessel pulmonary endothelial cells were obtained from rat fetal lung at day 20 of gestation, and were maintained in culture to passage three for study. Endothelial cells grown on a collagen matrix with Dulbecco's minimal essential medium: Ham's F12 medium (1:1, v/v) supplemented with 20 ml/l fetal bovine serum, bovine pituitary extract (50 mg/l), endothelial cell growth supplement (100 mg/l), hydrocortisone (1 mg/l) and an increased (10 mmol/l) magnesium concentration retained the characteristic endothelial cell marker factor VIII antigen during the third passage in culture. The factors responsible for small vessel growth in the developing fetal lung are unknown. To test the hypothesis that small vessel pulmonary endothelial cells would respond to autocrine or paracrine growth factors the effects of conditioned media from fetal lung endothelial cells, fibroblasts and pneumocytes from lungs of the same gestational age were studied in vitro. None of the tested conditioned media had any effect on endothelial cell DNA synthesis in the presence of 20 ml/l fetal bovine serum. Since no paracrine or autocrine effects of conditioned media were observed, the effect of other growth factors that could be derived from the circulation, or from storage sites in subcellular matrix, were studied for effect. When endothelial cells were studied in the presence of 20 ml/l fetal bovine serum and 100 mg/l endothelial cell growth supplement they had enhanced DNA synthesis in response to the progression-type growth factors insulin (5 mg/l), insulin-like growth factor-I and insulin-like growth factor-II (20 micrograms/l) and epidermal growth factor (10 micrograms/l). In the absence of serum or endothelial growth supplement endothelial cell DNA synthesis was enhanced by the competence-type growth factors acidic and basic fibroblastic growth factors at 100 micrograms/l and platelet derived growth factor at 10 micrograms/l. In the absence of exogenous competence-type growth factors neutralizing antibodies to basic fibroblast growth factor reduce DNA synthesis. Of various cytokines tested only interleukin-1 (1 x 10(3) U/l) and tumor necrosis factor (25 x 10(4) U/l) had an effect on endothelial cell DNA synthesis. Endothelial cell division during fetal lung development may be controlled by progression growth factors present in serum, and by either autocrine release of the competence factor basic fibroblast growth factor or paracrine release of platelet-derived growth factor by other cell types.     

Collagen VI Regulates Normal and Transformed Mesenchymal Cell Proliferationin Vitro

Suggestions exist that, in addition to traditional growth factors, the extracellular matrix (ECM) of a cell can regulate its proliferation. This hypothesis was investigated with normal and transformed fibroblasts because they exhibit specific intracellular responses after adherence to ECM and produce large quantities of ECM proteins. Although cells cultured on different ECM proteins grew more rapidly than those on plastic, adherence and cell growth on an individual ECM protein were not correlated. To test if ECM can stimulate cell growth, soluble ECM proteins were given to cells after plating. In this culture system only collagen VI (CVI), at a concentration of 20 μg/ml in medium, increased 3T3 cell number to 402% of control by 72 h. Similar increases of human fibroblasts and HT 1080 cell numbers were noted. DNA synthesis of all three cell types increased 24 h after addition of soluble CVI. A mixture of CVI single chains, yielded by reduction and alkylation, was not stimulatory. However, this mixture efficiently inhibited the DNA synthesis induced by native CVI. Antibody inhibition studies showed that the region of CVI stimulating proliferation differs from the site bound by the integrin receptor α2β1, which mediates cell adhesion to immobilized CVI. Heparin inhibited a portion of CVI-induced proliferation. These data demonstrate that CVI can stimulate mesenchymal cell growth via a pathway that is independent of the integrin α2β1 and that the stimulatory region appears to be within the native helical portion of the collagen.     

IL-6/IFN-beta-2 as a circulating hormone. Induction by cytokine administration in humans

IL-6/IFN-beta 2 is a family of phosphoglycoproteins ranging in size from 19 to 30 kDa which elicits a broad range of physiologic and immune responses. Several cytokines, including TNF, have been shown to stimulate IL-6 production in cell culture. In this report, we describe the rapid induction of circulating biologically active IL-6 by the systemic administration of rTNF to patients with cancer. Low levels of IL-6 activity could be detected in the sera of patients as early as 5 min after rTNF infusion. IL-6 levels peaked approximately 2 to 3 h after rTNF bolus administration and were undetectable in most cases within 8 h. IL-6 was detected in two separate bioassays--the hybridoma B9 proliferation and the hepatocyte-stimulating factor assay. Maximum detectable levels of IL-6 ranged from 160 to 310 hybridoma growth factor units and 11-82 ng/ml in the hepatocyte-stimulating factor assay. IL-6 induction decreased after serial, daily doses of rTNF. Serial serum samples of patients receiving IL-2 or IFN-alpha were also assayed for IL-6 production. IL-2-treated but not IFN-alpha-treated patients generated low levels of IL-6 (range less than 20 to 95 hybridoma growth factor units/ml). Interestingly, in patients treated with IL-2, serum levels of TNF were detectable and peak TNF activity preceded measurable IL-6 levels. Serum levels of acute phase plasma proteins and of corticosteroid rose in response to rTNF administration. C-reactive protein increased (2.5 to 4.0-fold) within 8 h of rTNF administration and cortisol levels rose (10- to 20-fold) within 4 h after rTNF injection. We conclude that rTNF administration in man leads to the induction of circulating IL-6 which, due to its broad range of activities, may be an important physiologic signal regulating the immune response.     

Lys-bradykinin stimulates Na+ influx and DNA synthesis in cultured human fibroblasts

The effect of Lys-bradykinin on net Na+ influx in serum-deprived cultured human fibroblasts (HSWP cells) was measured. It was found that Lys-bradykinin stimulates net Na+ influx with a K1/2 of 1 nM. When Lys-bradykinin was combined with epidermal growth factor, vasopressin and insulin, the net Na+ influx stimulated was comparable with that measured in response to 10% serum. The above combination of growth factors also was found to stimulate DNA synthesis to 92% of the serum-stimulated levels in HSWP cells and to support cell growth over a period of 6 days. In addition, it was observed that the Na+ influx stimulated by Lys-bradykinin or by the combination of four growth factors was completely inhibited by the amiloride analog benzamil. Thus Lys-bradykinin presumably stimulates the same Na+ transport system as is stimulated by serum. Finally, the present results suggest that an increase in Na+ influx always accompanies DNA synthesis in HSWP cells. On the basis of these observations, it can be hypothesized that Na+ influx is a necessary event to stimulate DNA synthesis.     

Effect of calf and rat serum on the induction of DNA synthesis and mitosis in primary cultures of adult rat hepatocytes by cyproterone acetate and epidermal growth factor

Summary Induction of hepatocyte DNA synthesis in culture by cyproterone acetate (CPA), a potent hepatomitogen in vivo, was studied. Adult rat hepatocytes were grown on collagen gels in primary culture for 3 to 10 d. Epidermal growth factor (EGF) was used as a model inducer to establish appropriate culture conditions. (a) In serum-free medium EGF stimulated a wave of DNA synthesis in 10 to 30% of the hepatocytes. CPA had only a weak effect. (b) Increasing concentrations of newborn bovine serum (NBS) at 5 to 95% progressively inhibited the stimulatory effect of EGF. A similar inhibition was obtained by adding bovine serum albumin; 20% NBS, however, had a slightly stimulatory effect on the induction of DNA synthesis by CPA. (c) Portal rat serum (RS) at concentration of 5 to 95% markedly stimulated DNA synthesis, a plateau being reached between 20 and 95%. EGF had a distinct enhancing effect on DNA synthesis in the presence of 5 and 20% RS but not at 50 and 95%. CPA stimulated DNA synthesis in the presence of 20, 50, and 95% RS in a synergistic way. (d) Mitoses were found after treatment with EGF or with CPA. These results show that CPA can induce DNA synthesis in cultured hepatocytes and that RS contains factors facilitating the response to CPA. This study was supported by Gesellschaft für Strahlen-und Umweltforschung mbH, München, Germany.