Presence of epidermal growth factor receptors and influence of epidermal growth factor on proliferation and aging in cultured smooth muscle cells.

Epidermal growth factor (EGF) at nanomolar concentrations stimulated DNA synthesis in confluent, serum-starved cultures of calf aorta and human uterine smooth muscle cells. Stimulation of DNA synthesis in lens epithelial cells was studied for comparison. L and D-ascorbic acid potentiated the effect of serum and EGF on DNA synthesis in calf aorta cells. In contrast L-ascorbic acid had minimal potentiating effect with serum and no effect with EGF present along with serum on DNA synthesis in human uterine smooth muscle and rabbit lens epithelial cells. EGF and ascorbic acid increased cell number when added to stationary phase cultures. Specific binding of 125I-labelled EGF to smooth muscle cells was demonstrated. Receptor concentration in calf-aorta smooth muscle cells was higher in dense cultures compared to sparse cultures. The time course of binding and dissociation of 125I-labelled EGF was similar in "dense" and "sparse" cultures. Human uterine smooth muscle cells in culture exhibited a finite lifespan. There was no stimulation of DNA synthesis in response to serum and EGF in cells of high population doubling level (PDL); although 125I-labeled EGF binding was higher in old cells (high PDL) compared to young cells (low PDL). This increase in binding was shown to be due to changes in the concentration of receptors without changes in their affinity for EGF.     

Induction of the replicative synthesis of DNA by SV40 virus T antigen introduced into cells using liposomes

The role of virus SV40 T-antigen in the induction of cell DNA synthesis during its incorporation into cell liposomes was studied, using monolamellar liposomes obtained by phase reversal with incorporated highly purified T-antigen. Immunofluorescence studies revealed that T-antigen effectively penetrates inside the cells and after 10 hours is accumulated in the nuclei, where its level remains unchanged for 24 hours. Injections of purified T-antigen into the renal cells of serum-starved CV1 monkeys resulted in an almost 10-fold increase in the number of DNA-synthesizing cells 18 hours after the exposure. The same effect was observed during stimulation of a 10% serum culture. Removal of T-antigen from the preparation by specific immunoadsorption eliminated this effect. Centrifugation of cells grown in the presence of bromodeoxyuridine in a CsCl gradient was used to demonstrate the replicative type of cell DNA synthesis during T-antigen induction.     

Synthesis of DNA-binding proteins during the cell cycle of WI-38 cells

Synthesis of DNA-binding proteins was investigated in WI-38 human diploid fibroblast cultures after stimulation with serum containing medium. Density-inhibited confluent monolayers of young (phase II) and aging (phase III) WI-38 cells can be stimulated to synthesize DNA by replacing the medium with fresh medium containing 10% fetal calf serum. Of the phase II cells, 35–50% showed a partially synchronized burst of DNA-synthesizing activity between 15 and 24 h whereas only 4–6% of phase III cells showed DNA-synthesizing activity at 20 h, and that cell fraction was increasing even at 38 h. This suggests either an extremely prolonged G 1 in stimulated phase III cells, or a heterogeneity of the population (e.g., a mixed population of pre- and postmitotic cells) for phase III cells. At various times after the change of medium, DNA-binding protein synthesis was examined in these stimulated cultures. Protein of mol. wt 20 000–25 000 D accumulated rapidly during early G 1 and declined thereafter, whereas larger protein (40 000 and 68 000 D) accumulated during the late G 1 or G 1-S transition period indicating that accumulation of these proteins is associated with the onset of DNA synthesis in the serum-stimulated cells. In cultures where the DNA synthesis has been reduced or inhibited by an excess of thymidine, hydroxyurea or dibutyryl cAMP, the accumulation of the larger proteins (40 000 and 68 000 D) was neglible as compared with non-stimulated cultures. Hydrocortisone did not exert any effect on the DNA-binding protein synthesis in phase II cells. However, it seems to increase the cell fraction which can respond to the serum factor in phase III cells as evidenced from the pattern of DNA-binding proteins synthesis.     

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.     

Effects of the tumor promoter TPA on the induction of DNA synthesis in normal and RSV-transformed rat fibroblasts

Induction of DNA synthesis by the tumor promoter tetradecanoyl phorbol acetate (TPA) was studied in a line of cultured rat fibroblasts (Rat-1) and their ffRous sarcoma virus-transformed derivative (Rat-1(RSV)). Following serum deprivation for 54 h to achieve quiescene, semiconservative DNA replication was measured by incubation of cells in BrdUrd and FdUrd after serum stimulation in the presence or absence of TPA. Optimal concentrations of TPA (0.1–0.5 μg/ ml) in serum-free medium induced a small increase (10–15%) in the amount of DNA made over a 30-h period in both Rat-1 and Rat-1 (RSV) cells. When Rat-1 cells were stimulated by a 4-h serum pulse, 30% of the DNA was replicated by 30 h. If the serum pulse was follwed by TPA addition, 702% DNA replication wass observed. If the serum pulse was preceded by TPA addition, the onset of DNA synthesis waas delayed by several hous, but stimulation of DNA synthesis occurred. In contrast, the Rat-1 (RSV) cells did not show an increase in DNA synthesis induced by TPA in similar protocols, but the serum-induced onset on DNA synthesis was delayed by several hours in the presence of TPA. Therefore, TPA acts as a co-inducer of DNA synthesis in the Rat-1 but not in the Rat-(RSV) cells. The parent alcohol, phorbol, was inactive in Rat-1 cells, but delayed the onset of DNA synthesis in the Rat(RSV) cells. We conclude that the co-inducing and delaying activities of TPA on DNA synthesis appear to be distinct and to act at different points in the G₁ phase of the cell cycle.     

The effect of 5-fluorouracil, metronidazole, caffeine and irradiation on the synthesis of DNA in the Pliss lymphosarcoma

Injection of 5-fluorouracil or caffeine or a combination of each of them with metronidazole removes partially or wholly the postirradiation arrest of DNA synthesis in Pliss lymphosarcoma and increases the label index and (or) the rate of its incorporation in nuclei of DNA-synthesizing cells compared to irradiated controls. The administration of the three agents arrests almost completely the DNA synthesis during the very first hours following irradiation, then prematurely removes partially the synthesis block in most DNA-synthesizing cells.     

Early alterations in amino acid pools and protein synthesis of diploid fibroblasts stimulated to synthesize DNA by addition of serum

Diploid human fibroblasts in culture (WI 38) were allowed to reach a stationary phase and were then stimulated to reenter DNA synthesis and cell division by addition of serum to the culture medium. The rate of protein synthesis increased during the first hours after addition of serum reaching at three hours a plateau value that continued for at least 24 hours after serum addition. Inhibition of protein synthesis during the early hours after serum addition abolished the stimulation of DNA synthesis occurring 20 to 28 hours later. Increased protein synthesis was preceded by a rapid decrease in the intracellular pool size of most amino acids. These changes were independent of concomitant protein synthesis. They suggest that serum exerts an immediate effect on the function of the cell membrane.     

The in vitro response of thymic lymphocytes of the pig to phytohemagglutinin

The response of thymic lymphocytes of the pig to phytohemagglutinin was studied with H³ thymidine in cultures, from 0–72 hours. At the beginning of the culture period 6–18% of lymphocytes were in DNA synthesis. during the first 24 hours a sharp decrease in the number of DNA synthesizing cells was observed in both pha and control cultures, although pha cultures consistently showed small but significantly greater numbers of DNA synthesizing cells. this was followed by a definite peak in DNA synthesis and mitotic response of a minority of the cells in pha cultures between 48–54 hours, whereas in control cultures activity ceased. in addition, a small proportion of the progeny of initially DNA synthesizing medium sized lymphocytes was apparently stimulated by pha and found in mitosis by 48 hours. It was concluded that the thymus contains a fraction of lymphocytes, not in the mitotic cycle, which are capable of being transformed by pha to mitotic activity. the data also suggests some stimulation of cells already in the mitotic cycle.     

Secondary activities of diverse inhibitors potentiate the response of hamster embryo cultures to a mitotic stimulus

The reversal of the density dependent inhibition of replication (DDIR) of Syrian hamster embryo cultures by fresh medium containg 30-50% fetal bovine serum was poorly synchronized. There were two waves of DNA synthesis eight to nine hours apart, which by examination of autoradiograms of cultures pulse-labeled with 3H-thymidine, were found to involve 55% and 45% of the cell population. The second wave was found to be due to a subpopulation of epithelioid cells set in the predominantly fibroblastic cell cultures. Pretreatment of the DDIR cultures with hydroxyurea (HU) or arabinosyl cytosine (ara-C), followed by serum stimulation in the absence of the drugs, led to an enhancement of the synchrony. The effect increased with lengthening of the contact with antimetabolites, to a maximum after 20 hours' pre-exposure, and was in part due to the shortening of the GI phase of the epithelioid elements, and in part to increasing the synchrony of the fibroblastic cells. The resulting synchrony involved some 95% of the cells in simultaneous DNA synthesis after a median Gl period of 12 hours. The effect had no relationship to the role of HU and ara-C as specific inhibitors of DNA synthesis since the cultures were mitotically quiescent, and a similar enhanced response could be induced in DDIR cultures by prestimulation exposure lasting only two hours to cycloheximide (cyx), an inhibitor of protein synthesis. Pre-exposure of DDIR cultures to actinomycin D did not potentiate the cell response. A survey of the known secondary inhibitions caused by these three antimetabolites suggests that they all may cause deficiencies in the glycolipid or glycoprotein moieties of the cell surface. These observation provide a use ful, simple means of improving synchrony in these systems and may prove to be a useful probe for investigating the role of the cell surface in regulating cell replication.     

Regulation of lipid synthesis from acetate in diploid fibroblast cultures —variation with passage level and stage of cell growth

Regulation of lipid synthesis from acetate in human diploid fibroblast cultures has been studied at various passage levels and at different stages of cell growth. When cultures were transferred to lipid free medium, a stimulation of [¹⁴C]acetate incorporation into lipid occurred within three to six hours after removal of exogenous lipid. In early passage cultures, this stimulation was observed whether cells were transferred to protein-free medium or medium supplemented with delipidized serum protein. However, in late passage cultures the presence of delipidized serum protein was required for the stimulation of lipid synthesis. When logarithmically dividing and stationary phase cultures were compared, the cultures in log phase showed stimulation of acetate incorporation into lipid in the presence or absence of delipidized serum protein, whereas in the stationary cultures the delipidized serum protein was required. When cultures were partially synchronized by a thymidine block, stimulation of acetate incorporation into lipid in the blocked cells only occurred in the presence of delipidized serum protein; in released cells stimulation occurred in protein free medium. When inhibition of lipid synthesis from acetate was compared in young vs. old or dividing vs. stationary cultures, however, no differences were observed. The data indicate the response of diploid fibroblast cultures to change in exogenous lipid is dependent on passage level and state of growth.     

Changes induced by expression of the v-src gene in the regulation of cell proliferation. Hypothesis and preliminary results

Similarities between the mode of action of growth factors and the oncogene product (pp 60 src protein) of Rous Sarcoma virus have been described. However, a major difference is that addition of growth factors does not induce a malignant transformation of cells. The present work proposes a hypothesis concerning this difference. Various data suggest that density-dependent inhibition (DDI) of growth in non-transformed cells is due to the diffusion of growth inhibitory molecules. Inhibitory factors of 45 K (IDF 45) and 12 K have been fractionated. We assume that the stimulation of DNA synthesis induced by growth factor addition to dense quiescent cultures of non-transformed cells leads to an increase in the activity of autocrine inhibitory molecules in such a manner that the growth factor stimulatory effect is only transient, and cells re-enter the Go phase. On the contrary, the stimulation of DNA synthesis by v-src transformation would not be counterbalanced by inhibitory diffusing factors and cells would not enter Go phase. We present preliminary results which support this assumption. Dense quiescent cultures of chick embryo fibroblasts infected by Ny 68 virus (ts mutant for transformation of Rous Sarcoma virus) were stimulated to proliferate either by addition of growth factors in cultures maintained at 41 degrees C or by expression of transformation (by the cell transfer from 41 to 37 degrees C, the permissive temperature for expression of transformation). Stimulation of DNA synthesis by growth factors was totally inhibited by the inhibitory diffusing factors of 45 K (IDF45) whereas the stimulation of DNA synthesis produced by transformation was reproducibly not decreased by IDF45.     

Fluctuations of DNA-dependent RNA polymerase and synthesis of macromolecules during the growth cycle of Novikoff rat hepatoma cells in suspension culture

The transition of suspension cultures of Novikoff rat hepatoma cells from the exponential to the stationary phase is accompanied by decreases of over 90% in the rates of synthesis of RNA, DNA and protein, a 90% loss of the apparent DNA-dependent RNA polymerase activity of the cells, and a disaggregation of the polyribosomes with a concomitant accumulation of 80 S and 110 S ribosomal structures. The cells also attain a minimum content of DNA, RNA and protein and a minimum size. Upon dilution of stationary phase cultures with fresh medium, the rate of protein synthesis begins to increase immediately and this correlates with a rapid reformation of the polyribosomes. The initial re-formation of polyribosomes is little affected by the presence of actinomycin D. RNA polymerase activity also begins to increase immediately after dilution and an increase in rate of RNA synthesis becomes apparent shortly thereafter. The increase in polymerase activity is inhibited by treating the cells with puromycin or actidione. Cell division commences only 9–13 hours after dilution and the rate of DNA synthesis begins to increase about midway through the lag period. During the lag period the average cellular content of protein increases about 80% and that of RNA and DNA about 30%. These increases are accompanied by a marked increase in the average size of the cells. Upon continued incubation of stationary phase cultures, the cells become irreversibly damaged physiologically before gross morphological damage becomes apparent. The irreversible physiological damage is recognized by the fact that the cells fail to recover when suspended in fresh medium.     

Stimulation of DNA synthesis in cultured primary human mesothelial cells by specific growth factors

Monolayer cultures of human mesothelial cells made quiescent by serum deprivation are induced to undergo one round of DNA synthesis by platelet-derived growth factor (PDGF), epidermal growth factor (EGF), or transforming growth factor type beta 1 (TGF-beta 1). This one-time stimulation is independent of other serum components. The kinetics for induction of DNA synthesis observed for PDGF, EGF, and TGF-beta 1 are all similar to one another, with a peak of DNA synthesis occurring 24-36 h after the addition of the growth factors. Repetitive rounds of DNA synthesis and cell division do not ensue after addition of PDGF, EGF, or TGF-beta 1 alone or in combination; however, in media supplemented with chemically denatured serum, each of these factors is capable of sustaining continuous replication of mesothelial cells. Stimulation of growth by PDGF and TGF-beta 1 is unusual for an epithelial cell type, and indicates that mesothelial cells have growth regulatory properties similar to connective tissue cells.     

DNA synthesis in growth and encystment of Acanthamoeba castellanii.

Differentiation of Acanthamoeba castellanii into dormant cysts occurs spontaneously in stationary phase cultures, or can be induced experimentally by starvation. Although no further increase in cell density occurred after induction in either case, incorporation of [H]thymidine into DNA continued at a reduced rate through the period when differentiated products (cyst wall components) were formed. No net accumulation of DNA occurred during differentiation, indicating that the DNA synthesis occurring at this time was balanced by breakdown. When either 5-fluorodeoxyuridine (FUdR) or hydroxyurea was added to exponentially growing cultures, growth was terminated and the subsequent spontaneous encystment was delayed in comparison with untreated stationary phase cultures. A similar delay was observed for experimentally induced encystment of FUdR-pretreated cells. In all cases, delay of encystment was correlated with inhibition of 32PO4 incorporation into DNA, and unexpectedly also into RNA. Addition of FUdR at zero-time of experimental induction of cells not previously exposed to FUdR, on the other hand, had no effect on encystment or on 32PO4 incorporation. The delay of encystment produced by FUdR and hydroxyurea, therefore, appeared to reflect a requirement for normal synthesis of DNA and/or RNA not only during encystment, but also during the period of exponential growth just before encystment induction.     

Induction of a reversible G 1 block in human glia-like cells by cytochalasin B

In cultures of normal adult human glia-like cells, density-dependent cell cycle inhibition (topoinhibition) and contact inhibition of ruffling occur almost simultaneously, suggesting a functional coupling between activities of the cell surface and the initiation of DNA synthesis. The present paper examines whether cytochalasin B (CB), which reversibly inhibits ruffling, also blocks the glia cell cycle.The effects of the drug (2 μg/ml) were the following:

1. 1. Initiation of DNA synthesis of subcultivated stationary cells was inhibited.

2. 2. Stimulation of DNA synthesis in stationary cells by medium change was suppressed.

3. 3. Migration of cells into a wound in a confluent cell layer was blocked as well as the initiation of DNA synthesis in cells lining the wound.

4. 4. Initiation (but not continuation) of DNA synthesis of exponentially growing cells was inhibited leading to a population mainly arrested in G 1 as determined by microspectrophotometry on Feulgen-stained cells. Topoinhibited cells were also blocked in G 1. Since cytokinesis was blocked by CB, a fraction of binuclear cells appeared.

The cell cycle block induced by CB was reversible, even after several weeks of treatment, with the exception that binuclear cells more reluctantly entered the S phase after release of the block.In conclusion, CB efficiently induces a reversible and probably physiologic cell cycle block. This finding strengthens the notion of a connection between cell membrane and cell proliferation. The underlying mechanism is discussed.     

Lectin-mediated stimulation of DNA synthesis in cultures of embryonic neural retina cells

Plant lectins and other agents which are mitogenic for lymphocytes and fibroblasts were tested for their effects on DNA synthesis in primary monolayer cultures of neural retina cells from 10-day chick embryos. Concanavalin A (ConA), phytohemagglutinin (PHA), wheat germ agglutinin (WGA), and anti-retina cell antiserum significantly stimulated [³H]TdR incorporation; the maximum increase was reached 15 h after exposure of the cultures to these agents. Cells stimulated by ConA to synthesize DNA subsequently divided. The divalent succinyl derivative of ConA had a considerably lesser effect than the native tetramer, suggesting that cross-linking of cell surface components may be an important aspect of the changes that lead to the stimulation of DNA synthesis in these cells.Using [¹²⁵I]ConA, the average number of ConA-binding sites per 10-day retina cell was estimated to be 1.7 × 10⁶ (under the culture conditions employed); binding of the lectin to 25–50% of these sites was sufficient to elicit the maximal stimulation of DNA synthesis. Continuous association of the lectin with the cell surface for up to 8 h was essential for the maximal effect, since removal of the lectin from the cell surface (with α-methyl mannose) prior to this time reduced or prevented the stimulation of DNA synthesis.The stimulation by ConA of DNA synthesis in these cultures was dependent on the cell density and was reduced or absent at lower than optimal densities. Examination of this effect suggested that the frequency of intercellular contacts or specific cell associations play a role in the responsiveness of these cells to stimulation of DNA synthesis by ConA.     

Distribution of cycling T lymphocytes in blood and lymphoid organs during immune responses

Proliferation of murine T lymphocytes in blood, lymph nodes, and spleen was studied in four in vivo stimulation systems, using BrdU pulse-labeling of DNA-synthesizing cells. The T cell response to the superantigen Staphylococcus enterotoxin B (SEB) was studied in detail. Vbeta8+ T cells showed a peak of DNA synthesis 16-24 h after SEB injection, and the percentage of BrdU+ CD4 and CD8 T cells was higher in blood than in lymph nodes and spleen. DNA synthesis was preceded by massive migration of Vbeta8+ cells from blood to lymphoid organs, in which the early activation marker CD69 was first up-regulated. SEB-nonspecific Vbeta6+ cells showed minimal stimulation but, when cycling, also expressed a high level of CD69. The other systems studied were injection of the IFN-gamma inducer polyinosinic:polycytidylic acid, infection by the BM5 variants of murine leukemia virus (the causative agent of murine AIDS), and T cell expansion after transfer of normal bone marrow and lymph node cells into recombinase-activating gene-2-deficient mice. In each case, a peak of T cell proliferation was observed in blood. These data demonstrate the extensive redistribution of cycling T cells in the first few hours after activation. Kinetic studies of blood lymphocyte status appear crucial for understanding primary immune responses because cycling and redistributing T lymphocytes are enriched in the circulating compartment.     

REGULATION OF INITIATION OF DNA SYNTHESIS IN CHINESE HAMSTER CELLS : I. Production of Stable, Reversible G1-Arrested Populations in Suspension Culture

Suspension cultures of Chinese hamster cells (line CHO) were grown to stationary phase (approximately 8–9 x 10⁵ cells/ml) in F-10 medium. Cells remained viable (95%) for at least 80 hr in stationary phase, and essentially all of the cells were in G₁ Upon resuspension or dilution with fresh medium, the cells were induced to resume traverse of the life cycle in in synchrony, and the patterns of DNA synthesis and division were similar to those observed in cultures prepared by mitotic selection. Immediately after dilution, the rates of synthesis of RNA and protein increased threefold. This system provides a simple technique for production of large quantities of highly synchronized cells and may ultimately provide information on the biochemical mechanisms regulating cell-cycle traverse.     

The tumor promoter 12-O-tetradecanoyl-phorbol-13-acetate enhances the proliferative response of Balb/c-3T3 cells to hormonal growth factors.

Stimulation of Balb/c-3T3 cell growth by TPA requires factors found in serum. We examined the interaction between TPA and serum growth factors in the stimulation of cell growth. The number of cells synthesizing DNA (incorporating 3H-thymidine) within 24 to 30 hours after the addition of TPA and the growth factors to density-inhibited Balb/c-3T3 cultures in serum-free medium was determined by autoradiography. With no additions or with TPA (30--300 ng/ml) alone, only 3--7% of cells synthesized DNA. However, TPA synergistically promoted DNA synthesis in combination with each of the defined serum growth fractions, platelet derived growth factor and platelet poor plasma. TPA also synergistically promoted DNA synthesis in combination with purified growth factors including fibroblast growth factor, insulin (10(-6)--10(-5)M), and epidermal growth factor. In all conditions, TPA enhancement of DNA synthesis also resulted in an increase in cell number. Because TPA synergistically enhanced the activity of each growth factor tested, it did not act identically to any of the growth factors.