The activation of the alternative complement pathway by fetal calf serum and mouse thymocytes.

Mouse thymocytes activated the alternative complement pathway of mouse serum in the presence of heated fetal calf serum. The activation required C3 from the fetal calf serum but was independent of antibody either in the murine or bovine serum. No other murine cells tested, including erythrocytes, peripheral blood lymphocytes, lymph node cells, spleen cells, and various cultured cell lines, activated the alternative complement pathway as effectively as thymocytes. In addition, sera from species other than cows could not substitute for fetal calf serum. The C3 deposited on thymocytes was in the form of both C3b (immune adherence positive) and C3bi (conglutinable). We propose that the basis of activation in this system is the specific protection of bovine C3b on mouse thymocyte surface.     

Additive effect of oestradiol-17 beta and serum on synthesis of deoxyribonucleic acid in guinea-pig endometrial cells in culture.

Normal guinea-pig endometrial cells, grown in primary culture, were made quiescent by serum depletion. Quiescent cells cultured in the control medium (containing 1% fetal calf serum treated with dextran-coated charcoal, DCC-FCS) showed a steady and weak rate of [3H]thymidine incorporation, but the addition of 15% fetal calf serum (FCS) or 10% DCC-FCS to the control medium induced a significant increase of DNA synthesis, demonstrating the responsiveness of the quiescent cells to stimulation. A lower but significant increase in [3H]thymidine incorporation was elicited by epidermal growth factor (EGF, 100 ng/ml) or insulin (10 micrograms/ml) added to the basal medium. Oestradiol-17 beta added to the control medium at concentrations ranging from 10(-10) to 10(-5) mol/l not only failed to increase but even inhibited [3H]thymidine incorporation at the highest concentrations tested. An additive effect was noticed when quiescent cells were incubated with oestradiol-17 beta (10(-9) mol/l) in the presence of 10% DCC-FCS, but no synergistic effect occurred when 2 x 10(-9) mol oestradiol-17 beta/l was combined with either EGF (100 ng/ml) or insulin (10 micrograms/ml). Oestradiol-17 beta appears unable alone to stimulate DNA synthesis in normal endometrial cells, but requires factor(s) present in fetal calf serum.     

Modulation of albumin-like protein and lysozyme production by bovine tracheal gland serous cells. Dependence on culture conditions

Bovine tracheal submucosal gland serous cells were cultured in medium supplemented with either 10% fetal calf serum or 2% Ultroser G, a commercial serum substitute for cell culture. The proteins synthesized and secreted into the culture medium during [35S]methionine pulse, chase and isoproterenol-stimulated periods were analyzed. Marked differences in the patterns of secretory radiolabeled proteins with Mr values ranging from 15,000 to 95,000 were observed between pulse and chase media of cells cultured in fetal calf serum and Ultroser G. In the presence of Ultroser G, albumin-like protein production was inhibited 95% as compared to cultures incubated with fetal calf serum. A bovine lysozyme-type enzymatic activity was detected only in medium from stimulated cells cultured in Ultroser G. The results suggest that bovine tracheal serous cells synthesize different proteins according to the composition of culture medium and release certain proteins when adrenergically stimulated.     

The effects of various mammalian sera on attachment efficiency and thymidine incorporation in primary cultures of mouse mammary epithelial cells

Mammary epithelial cells from 16- to 17-day pregnant BALB/c mice were cultured in various mammalian sera to determine the kind of serum which stimulates optimal attachment efficiency and thymidine incorporation. Of those sera tested, horse, bovine, lamb, goat and fetal bovine provided the highest attachment efficiency, whereas rat, mouse and human gave the lowest. Rabbit serum stimulated the highest thymidine incorporation into TCA-insoluble material with goat and rat providing the lowest. These results suggest that sera which provide the highest attachment efficiency for primary cultures are not the best stimulants of DNA synthesis and show that an inverse relationship exists between cell attachment and thymidine incorporation for any given type of mammalian serum.     

Obligatory Relationship Between the Sterol Biosynthetic Pathway and DNA Synthesis and Cellular Proliferation in Glial Primary Cultures

Primary cultures of newborn rat brain, which are composed predominantly of astroglia, were used to examine the relationship between the sterol biosynthetic pathway and DNA synthesis and cellular proliferation. Reduction of the fetal calf serum content of the culture medium from 10 to 0.1% (vol/vol) for an interval of 48 h between days 4 and 6 in culture resulted in a quiescent state characterized by inhibition of DNA synthesis and cellular proliferation. When 10% fetal calf serum was returned to the medium for these quiescent cells, within 24 h DNA synthesis increased markedly. Preceding the rise in DNA synthesis was an increase in sterol synthesis, which occurred within 12 h of the return of the quiescent cells to the 10% fetal calf serum. Exposure of the quiescent cells to mevinolin, a specific inhibitor of sterol synthesis at the 3-hydroxy-3-methylglutaryl-CoA reductase step, completely inhibited the increase in DNA synthesis that followed serum repletion. The increase in total protein synthesis that followed serum repletion was not similarly inhibited by mevinolin. When mevinolin was removed after causing the 24-h inhibition of DNA synthesis, the cultured cells underwent active DNA synthesis and proliferation. Thus, inhibition of the sterol biosynthetic pathway resulted in a specific and reversible inhibition of DNA synthesis and glial proliferation in developing glial cells. These findings establish a valuable system for the examination of glial proliferation, i.e., primary glial cultures subjected to serum depletion and subsequent repletion. Moreover, the data establish an obligatory relationship between the sterol biosynthetic pathway and DNA synthesis and cellular proliferation in developing glia.     

Oligonucleotides antisense to catalytic subunit of cyclic AMP-dependent protein kinase inhibit mouse mammary epithelial cell DNA synthesis

Mouse mammary epithelial cells were plated onto 24-well culture plates (50,000 per well), allowed to attach and serum starved for 24 h. Following serum starvation, DNA synthesis was induced by the addition of 10% fetal calf serum and determined by a 1-h pulse with [3H]thymidine from 17 to 18 h after serum addition. Addition of oligonucleotides antisense to the translation start region of cyclic AMP-dependent protein kinase (kinase A) mRNA inhibited thymidine incorporation into DNA (total or percentage of cells incorporating thymidine, as measured by autoradiography). This inhibition was apparent whether compared to controls with no oligonucleotide addition, sense oligonucleotides, or mismatch oligonucleotides. Enzymatic assays indicated that the antisense oligonucleotides lowered kinase A activity in cells. Time course studies indicated that the inhibition in DNA synthesis was not an artifact of the time at which DNA synthesis was estimated. Long-term (4 day) cultures indicated that effects on induction of DNA synthesis were reflected in long-term cell proliferation.     

The formation of stable E-rosettes by human T lymphocytes activated in mixed lymphocyte reactions.

The aim of the present study was to determine whether activation of human T-lymphocytes affects their interaction with sheep red blood cells (SRBC). Less than 3% of the E-rosettes formed by freshly isolated peripheral blood lymphocytes (PBL) and SRBC are stable and do not disintegrate after incubation at 37 degrees C. In contrast, about 30% of PBL kept in culture for 5 days in the presence of mitomycin C-treated allogeneic lymphocytes were found to form stable E-rosettes. Whereas no rosettes were formed by freshly isolated PBL incubated with human red blood cells at 24 degrees C, 15% of the cells recovered from mixed lymphocyte reactions (MLR) formed such rosettes. When responder PBL were maintained in culture in the absence of allogeneic stimuli the proportion of cells forming stable E-rosettes depended on the serum present in the medium. Less than 5% of the responder cells kept in medium containing human serum or in serum-free medium formed stable E-rosettes, whereas 18% of the cells maintained in medium containing fetal calf serum formed stable E-rosettes. The proportion of cells forming stable E-rosettes increased before any increase in DNA synthesis was detectable in MLR. Indeed, a high proportion of cells forming stable E-rosettes appeared in MLR taking place in serum-free medium, without any accompanying increase of DNA synthesis. Depletion of cells forming EAC'-rosettes from responder PBL increased the proportion of cells forming stable E-rosettes in MLR. Exposure of the cells recovered in MLR to specific anti-T sera inhibited the formation of both stable and regular E-rosettes. Exposure of the cells recovered in MLR to anti-Ig serum had no effect on the formation of regular rosettes. Anti-Ig serum strongly inhibited the formation of stable E-rosettes by cells grown in medium containing human serum, but had no effect on the formation of stable E-rossettes by cells grown in either serum-free medium or in serum containing fetal calf serum. It is concluded that activated human T lymphocytes are characterized by their capacity to form stable E-rosettes, resistant to incubation at 37 degrees C, and by their capacity to acquire an immunoglobulin coat, possibly by binding immunoglobulin molecules present in their environment.     

The polyvalent protease inhibitor, trasylol, inhibits DNA synthesis of mouse lymphocytes by an indirect mechanism.

By the use of incorporation of radiolabeled thymidine, uridine, and leucine into mouse lymphocytes, the inhibitory effect of the protease inhibitor, trasylol, on antigenor mitogen-induced lymphocyte triggering was studied in vitro. DNA synthesis, as well as RNA and protein syntheses, were effectively inhibited by 0.3–2.5 × 10^?7 mol of trasylol when responses were induced by homologous antigen, allogeneic cells, phytohemagglutinin, or endotoxic lipopolysaccharide of Escherichia coli. The inhibitory effect of trasylol was reversible. On the contrary, DNA synthesis by nonadherent spleen cells was hardly inhibited by the inhibitor when the cells were stimulated with a relatively large amount of concanavalin A. Antigen-induced DNA synthesis by non-adherent lymph node cells was enhanced by the culture supernatant of macrophages. This helping effect of macrophage supernatant was effectively inhibited either by soluble or insoluble trasylol. These results suggest that the inhibitory action of trasylol on lymphocyte triggering may operate indirectly to interfere with the helping action of macrophages on lymphocytes.     

Serum-dependent induction of plasminogen activator in human fibroblasts by catecholamines and comparison with the effects of prostaglandin E1

Human foreskin fibroblasts produce the protease plasminogen activator, as shown by the ability of cell extracts to lyse 125I-labelled fibrin in the presence of plasminogen. Cellular plasminogen activator was stimulated up to 3-fold by 0.01-10 microM epinephrine, norepinephrine, or isoproterenol. Increases in plasminogen activator were slow in onset (24 h) and long-lived (greater than 48 h), and were abolished by 10 micrograms/ml of cycloheximide or 1 microgram/ml of actinomycin D, suggesting de novo synthesis of the protease. Stimulation of plasminogen activator by catecholamines was inhibited by 10 microM propranolol but not by 10 microM phentolamine, suggesting the involvement of beta-adrenergic receptors. Catecholamines stimulated plasminogen activator only in the presence of fetal bovine serum; under serum-free conditions they were inhibitory. Serum did not appear to alter the uptake and metabolism of epinephrine during incubation with fibroblasts. The ability of fetal bovine serum to support the induction of plasminogen activator by either 1 microM epinephrine or 3 microM prostaglandin E1 was maintained following dialysis but lost on heating (70 degrees C, 10 min) or acidification (pH 2.5). Human and calf sera supported the stimulatory effects of prostaglandin E1 but not of epinephrine. These results indicate that serum may influence the synthesis of plasminogen activator in cultured cells by modifying their response to vasoactive hormones.     

Mechanism of estrogen action on cellular proliferation: evidence for indirect and negative control on cloned breast tumor cells

Human MCF7 breast tumor cells grew as estrogen-dependent tumors in nude mice. In contrast, they were not estrogen-dependent for proliferation in serumless culture media. Charcoal-dextran stripped female human serum supplemented media (5% to 40%) inhibited their proliferation in a dose dependent pattern. Estrogens reversed this inhibition. Concentrations of 2% of this serum allowed for maximal yield regardless of the presence of estrogens. Charcoal-dextran stripped fetal bovine serum was also inhibitory but less potent than the human serum. Non-estrogenic steroids, insulin, epidermal growth factor and transferrin failed to overcome the inhibitory effect of human serum. These results suggest that 1) human and bovine sera contain an inhibitor of the proliferation of estrogen-sensitive cells, and 2) estrogens promote cell proliferation by neutralizing this serum-borne inhibitor.     

Effects of calcium-antagonists and calmodulin inhibitors on DNA synthesis in cultured rat vascular smooth muscle cells

To investigate the role of intracellular Ca2+ in the mechanism of cellular proliferation of vascular smooth muscle cells (VSMC), the effects of Ca2+-antagonists and calmodulin (CaM) inhibitors on DNA synthesis stimulated by serum-derived growth factors were studied in cultured VSMCs derived from rat aorta. DNA synthesis assessed by incorporation of [3H]thymidine into the cells was significantly stimulated by epidermal growth factor (EGF), platelet-derived growth factor (PDGF) or fetal bovine serum (FBS), of which the effects were dose-dependently inhibited by a variety of Ca2+-antagonists, such as verapamil, diltiazem and nicardipine. Trifluoperazine and W-7, both specific CaM inhibitors, similarly inhibited DNA synthesis stimulated by EGF, PDGF or FBS in a dose-dependent manner, whereas W-5, a less specific CaM inhibitor, was minimally effective. These data suggest that the Ca2+-CaM system plays an important role in the mechanism of growth factor-induced DNA synthesis in VSMCs.     

The effects of various mammalian sera on attachment efficiency and thymidine incorporation in primary cultures of mouse mammary epithelial cells

Summary Mammary epithelil cells from 16- to 17-day pregnant BALB/c mice were cultured in various mammalian sera to determine the kind of serum which stimulates optimal attachment efficiency and thymidine incorporation. Of those sera tested, horse, bovine, lamb, goat and fetal bovine provided the highest attachment efficiency, whereas rat, mouse and human gave the lowest. Rabbit serum stimulated the highest thymidine incorporation into TCA-insoluble material with goat and rat providing the lowest. These results suggest that sera which provide the highest attachment efficiency for primary cultures are not the best stimulants of DNA synthesis and show that an inverse relationship exists between cell attachment and thymidine incorporation for any given type of mammalian serum. This research was supported in part by Grant No. CA 15764 from the National Cancer Institute, National Institutes of Health, DHEW.     

Inhibition of cell proliferation and protease activity by cartilage factors and heparin

Proliferating rat smooth muscle cells and fibroblasts have membrane-associated protease activity. High concentrations of heparin inhibited membrane-associated protease activity and cell proliferation, while low concentration of heparin promoted smooth muscle cell proliferation. The inhibition of protease activity and proliferation was abolished when heparin was treated with protamine sulfate or when acid treated fetal calf serum was used. Heparin required the presence of an acid labile factor(s) in serum for the inhibition of protease activity and proliferation. Heparin and antithrombin III in the presence of acid-treated fetal calf serum did not inhibit cell proliferation or protease activity. Cartilage factors isolated from bovine nasal cartilage containing trypsin inhibitory activity, but not papain inhibitory activity, inhibited rat smooth muscle and fibroblast proliferation and surface associated protease activity. The cartilage factors did not require acid-labile components in the fetal calf serum for the inhibitory activity. The inhibitory activity due to heparin and cartilage factors was not permanent under our experimental condition. Protein synthesis was not inhibited by heparin or the cartilage factors. In rat smooth muscle cells and fibroblasts, the expression of surface-associated protease activity was related to the proliferative state of the cells. Surface protease activity was only present on proliferating cells. When surface protease activity was inhibited by high concentrations of heparin in the presence of an acid-labile serum component(s) or cartilage factors, cell proliferation was also inhibited.     

Autocrine effect of endothelin on DNA synthesis in human vascular endothelial cells.

To elucidate the role of endogenous endothelin on DNA synthesis in endothelial cells, we have investigated the effects of rabbit anti-ET gamma globulin on DNA synthesis in cultured human vascular endothelial cells. DNA synthesis was markedly inhibited by anti-ET gamma globulin in a concentration dependent manner in the presence of fetal calf serum(FCS) (x5000;34%, x2500;54%, x1000;70%), but not in the absence of FCS. These data suggest that endogenous ET modulates FCS-stimulated DNA synthesis in an autocrine fashion.     

Effects of medium and substratum conditions on the rates of DNA synthesis in primary cultures of bile ductular epithelial cells

Summary Select medium and substratum conditions were investigated for their effects on semiconservative DNA synthesis in essentially pure primary cultures of bile ductular epithelial cells that were initially isolated from cholestatic rat livers at 6 to 10 wk after bile duct ligation. DNA synthesis in these cultured cells was serum-dependent, being at its highest level when the concentration of fetal bovine serum present in the medium was maintained at 10%. This serum-dependent DNA synthesis was completely inhibited when 10 mM hydroxyurea was also included in the medium, and bile ductular cells cultured in the continued presence of 1.0% fetal bovine serum showed only marginal DNA synthesis during 8 to 10 d of primary culture when compared with no-serum controls. Maximum rates of serum-dependent DNA synthesis were obtained when the bile ductular cells were cultured for 7 to 14 d on tissue culture plastic coated with obtained when the bile ductular cells were cultured for 7 to 14 d on tissue culture plastic coated with either fibronectin from bovine plasma or type I rat-tail collagen. Cells cultured on plastic coated with basement membrane Matrigel exhibited the lowest levels of DNA synthesis, whereas those on plastic alone had intermediate amounts. Furthermore, the addition of epidermal growth factor (50 ng·ml⁻¹·d⁻¹) to medium supplemented with 1.0% fetal bovine serum greatly enhanced the rate of DNA synthesis in bile ductular cells after 6 d in primary culture on type I collagen-coated plastic over that measured in solvent control cultures. These findings indicate that our bile ductular epithelial cell culture model is potentially useful in the study of biliary cell growth regulation and carcinogenesis. This investigation was supported by USPHS grant RO1 CA 39225 to A. E. Sirica by the National Cancer Institute, Department of Health and Human Services, Bethesda, MD. During the period of this study, G. A. Mathis was a recipient of a Fellowship from the Fund for Academic Career Development of the State of Zurich, Switzerland.     

Differences in flow cytometry and 3H-thymidine analyses of perturbed human lymphocytes.

A calf thymocyte crude aqueous extract was tested for DNA synthesis inhibitory activity using phytohemagglutinin-stimulated human peripheral blood lymphocytes. Inhibition of DNA synthesis was assayed using tritiated thymidine and flow cytometry. Although the calf thymocyte crude extract inhibited tritiated thymidine incorporation by over 50%, only very slight changes in the flow cytometric analysis were observed. When dibutyryl-cyclic adenosine monophosphate was used as an inhibitor, a correlation in terms of the inhibition of tritiated thymidine to the inhibition by flow cytometry was observed.     

Cytotoxicity of cholesterol oxides and their effects on cholesterol metabolism in cultured human aortic smooth muscle cells

Incubation of monolayers of cultured human aortic smooth muscle cells with oxygenated sterols (25-hydroxycholesterol, 7-ketocholesterol, or cholesterol 5,6-epoxide) markedly inhibited growth though the viability of the culture was not affected. The effects on growth was concentration dependent, and 25-hydroxycholesterol was the most potent inhibitor of cellular growth as measured by decreased incorporation of thymidine into DNA and suppression of HMG-CoA reductase activity. The inhibitory effect of 25-hydroxycholesterol on cellular growth was not reversible if the cultures were grown in medium with normal fetal calf serum. However, in medium with delipidated serum, addition of purified cholesterol partially prevented growth inhibition induced by 25-hydroxycholesterol. Purified cholesterol, independently or in combination with tocopherol had no toxic effect on cellular growth. Addition of cholesterol oxides to the incubation medium stimulated lysosomal activation and release of acid phosphatase into the culture medium. The effect was concentration dependent and inversely related to cellular growth.     

Culture conditions affecting induction and release of lymphocyte produced proliferation inhibitory factor (PIF)

Studies on the factors affecting the production of a proliferation inhibitory factor (PIF) by human lymphocytes are presented. Maximal PIF production occurred with mitogen stimulation of blood lymphocytes cultured at 1 × 10⁶/ml. Optimal cultures contained 10% fetal calf serum, but PIF could be produced in the absence of serum, and after only a 6-hr pulse exposure to PHA. PIF production was found to correlate with lymphocyte activation in response to the mitogen PHA but was not related to lymphocyte proliferation (DNA synthesis). Inhibitory activity could be detected as early as 3 hr after mitogen addition, long before DNA synthesis occurs. The mitogens Con A and PWM initiated different intensities of DNA synthesis in these cultures, but similar quantities of PIF. Antigenic stimulation of sensitive human peripheral lymphocyte populations resulted in the release of PIF. Cells from donors that gave a strong positive skin test to tuberculin (PPD) responded in tissue culture to PPD by producing PIF, while the cells from skin test negative donors did not. A small quantity of PIF was also evident in the supernatants from cultures with no known stimulus (“unstimulated”), this was found to result from activation of the lymphocytes by nonlymphoid elements and by fetal calf serum. An investigation of the PIF-producing capabilities of other lymphoid tissues showed that lymph node cells produced this humoral factor, whereas thymus cells did not. Thymus cell supernatants, in fact, were found to contain an extremely labile cytotoxin which degraded rapidly upon storage.     

Phosphate and the regulation of DNA replication in normal and virus-transformed 3T3 cells.

3T3 cells were cultured in media with different phosphate concentrations and the effects on DNA synthesis were examined. Even a modest phosphate depletion markedly inhibited DNA synthesis and cell multiplication in proliferating cultures. Furthermore, the decrease in the proportion of DNA-synthesizing cells observed after phosphate starvation followed the same time-course as the decrease seen after serum starvation. Cells starved to quiescence in a medium with a 100-fold decrease in phosphate concentration remained viable but non-proliferating for up to 3 weeks, i.e. they had entered a state of quiescence comparable with that seen after serum starvation. Addition of phosphate to phosphate-depleted cultures restored DNA synthesis within 24h. Furthermore, the kinetics of [3H]thymidine labelling after phosphate addition were nearly identical with the labelling kinetics following addition of serum to serum-depleted cultures. In contrast, phosphate deprivation had no inhibitory effects on DNA synthesis in simian-virus-40-transformed 3T3 cells. Furthermore, the inhibitory effects on DNA synthesis in such cells caused by a complete removal of serum could not be further enhanced by decreasing the phosphate concentration in the culture medium.     

The regulation of G0-S transition in mouse T lymphocytes by polyamines

While the role of polyamines in DNA synthesis during the S phase of the cell cycle has been repeatedly postulated, recent studies point also to polyamine involvement in the early phase of the G0-S transition. In order to determine polyamine-dependent steps in the cell cycle we have studied the effects of inhibitors of polyamine biosynthesis and exogenous polyamines on the proliferation of T lymphocytes as well as on the expression of some growth-regulated genes. The ability of Con A-stimulated mouse T lymphocytes to enter DNA synthesis was markedly inhibited by methylglyoxal bis(guanylhydrazone) in a dose-dependent manner. This inhibitory effect was stronger in the presence of fetal calf serum containing a high level of activities of polyamine oxidases than in the presence of horse serum. Putrescine and spermine added to T splenocyte culture instead of mitogen-Con A stimulated [3H]thymidine incorporation with kinetics similar to that observed with Con A. The growth-stimulating effects of polyamines were concentration-dependent. Polyamines at optimal growth-stimulating concentrations (10 microM spermine and 80 microM putrescine) induced the expression of genes encoding the cytoskeletal proteins beta-actin, vimentin, and alpha-tubulin to an extent and with kinetics similar to those of Con A. The results presented herein suggest that polyamines are capable of stimulating the transition of G0 cells to the S phase and that this effect may be mediated by their influence on the gene expression.