Conditions influencing inhibitors of the colony-stimulating factor (CSF)

Lipoprotein inhibitors of myeloid cell-stimulating glucoprotein, the colony-stimulating factor (CSF), occur in normal human serum. Lipoproteins are known to be labile under various physico-chemical influences. The kinetics of changes in the inhibitory activity were studied during common conditions such as storage, freezing-thawing and transient hyperlipemia. Storage for as short a period as one month resulted at both +4 °C and ?20 °C in a decrease in measureable stimulating activity. Both freezing-thawing of sera five times and hyperlipemia approximately halved the stimulating activity. The decrease in stimulating activity is attributed to an increase of inhibitors rather than a decrease in CSF, since activity was fully restored by chloroform treatment, which removes all inhibitory lipoproteins. The decreased activity was shown by preparative ultracentrifugation to be due to changes in the lipoprotein composition of serum. With freshly drawn sera, most of the inhibitory activity was recovered in the light (LDL) and very light density lipoprotein (VLDL) fractions. The pattern was similar in hyperlipemic serum except that inhibitor levels were higher in the fraction containing chylomicrons and VLDL. In stored and frozen-thawed sera, most of the inhibitory activity was still recovered in the LDL fraction but the inhibition was markedly increased in both the heavy (HDL) and the very heavy density lipoprotein (VHDL) fraction. As the changes in inhibitory activity partially reflect unspecific degradation of lipoproteins, some treatment to remove lipoprotein is recommended before assaying for the stimulating activity in serum samples.     

Inhibition of thymidine transport by low density lipoprotein and its lipid components

We previously showed that low density lipoprotein (LDL) induces an early decrease in the thymidine-transport rate and subsequently inhibits cell proliferation. We now have demonstrated that a dose-dependent decrease in the rate of thymidine transport was found in all the cell lines examined irrespective of their sensitivity to the inhibitory effect of LDL on cell growth. Thus, inhibition of both transport and cell growth by LDL are not necessarily coupled. In contrast, 3-O-methyl-D-glucose transport was not affected by an addition of LDL. The specific inhibition of transport was not suppressed by an addition of chloroquine. Thus, degradation of LDL within the lysosome was not required for LDL to inhibit thymidine transport. A mixture of lipids extracted from LDL was as inhibitory as LDL in the various types of cells examined. Calf serum also prevented the inhibitory effect of both LDL and its lipid constituents equally. Phosphatidylcholine produced no decrease in thymidine transport, but cholesterol inhibited it. We concluded that LDL-associated lipids, particularly cholesterol, play an essential role in the LDL-induced decrease of transport.     

Inhibitory effects of human serum on human fetal skin fibroblast migration: Migration-inhibitory activity and substances in serum, and its age-related changes

Summary In order to clarify the environmental factors modulating cell migration, we investigated the effects of human serum on cell migration, and found that serum from adult donors strongly (by 48%) suppressed the migration of human fetal skin fibroblasts into a denuded area in a cell monolayer. Human serum from old donors inhibited cell migration more strongly than that from adult donors. Next, we investigated the properties of migration-inhibitory activity of human serum and serum proteins in order to identify migration-inhibitory substances. Human serum from adult donors strongly suppressed the migration of human fetal skin fibroblasts, although it stimulated cell proliferation more strongly than fetal bovine serum (FBS), indicating that the inhibitory effects of human serum on cell migration was not due to its toxic effects. The inhibition of cell migration by human serum was concentration dependent. It was demonsstrated that the inhibition did not depend on the inhibitory effects of human serum on collagen synthesis. The migration-inhibitory activity was seen in fractions over 100 kDa, as determined by an ultrafiltration membrane, and no inhibitory activity was observed in fractions under 100 kDa. On the other hand, it was not detected either in fractions over 100 kDa or under 100 kDa in FBS. Among the over 100 kDa human serum proteins examined, γ-globulin, α2-macroglobulin, and low density lipoprotein (LDL) suppressed fibroblast migration in a concentration-dependent manner. However, among the three, cell migration-inhibiting activity of γ-globulin almost disappeared when cell migration was conducted in 10% FBS-supplemented medium. These results indicated that α2-macroglobulin and LDL were candidate substances for cell migration-inhibiting activity in human serum.     

Growth inhibitors in plasma derived human serum

Summary It was reported previously that plasma derived human serum (PDS) inhibited the growth of cells established from malignant human breast tissues and the MCF-7 cell line but did not inhibit the growth of cells from nonmalignant mammary tissues, including the HBL-100 cell line. Plasma derived human serum was fractionated in the current study by molecular sieve chromatography on Sephadex G-100 in an effort to characterize the factor(s) responsible for inhibition. Plasma derived human serum contained several growth inhibitory fractions, which were designated G-1, G-2, G-3, and G-4. The G-1 was associated with the lipoproteins and immunoglobulins of serum. The lipid portion of G-1 inhibited the growth of both MCF-7 and HBL-100 cells, whereas the protein fraction contained a low activity factor directed against MCF-7 cells only. The G-2 also inhibited MCF-7 cell growth at a low specific activity and was separated in the serum albumin fraction. The MCF-7 inhibitory activity in the G-3 fractions from individual donors fluctuated with the level of activity in the starting sera. The cell specific G-3 components were purified further by Sephadex G-100 superfine chromatography and gel electrophoresis. A tentative molecular weight of 50,000 was assigned to the G-3 inhibitor. The G-4 fraction consisted of small molecular weight materials migrating in advance of the column volume, which inhibited the growth of both cell lines. This investigation was supported by Grant PDT-140 from the American Cancer Society, Inc., and PHS Grant CA30284 awarded by the National Cancer Institute, Bethesda, Maryland.     

Comparative study of serum lipoproteins separated by the method of cellulose acetate membrane electrophoresis in humans and rats

The evaluation of lipoproteins in rat serum which was separated by cellulose acetate membrane electrophoresis was studied in comparison with that in human serum. In contrast to the human lipoprotein pattern, the top of the rat lipoprotein fraction exceeded the albumin fraction towards the anode. By the analysis of ultracentrifugation and post-heparin serum lipolytic activity, the characters of lipoprotein fractions electrophoretically separated in rat serum was confirmed as similar to human serum lipoprotein.     

The role of membrane-membrane interactions in the regulation of endothelial cell growth

A cell surface preparation from confluent endothelial cells can inhibit DNA synthesis of actively growing endothelial cells. The decrease in the rate of [3H]thymidine incorporation is concentration dependent and levels off at 47% of the control. The preparation has no affect on the growth of vascular smooth muscle cells. A similar preparation from smooth muscle cells does not show inhibitory activity with either endothelial or smooth muscle cells. The inhibition of growth can also be demonstrated by a decrease in thymidine index and growth rate. The inhibition is transient and after 48 h, the growth rate is similar to that of the control. In a wound edge assay, both migration and proliferation are inhibited. The inhibitory activity is partially labile to trypsin and abolished by pepsin, heating at 100 degrees C, or reduction. Cell surface iodination and analysis of the proteins removed by urea treatment by SDS polyacrylamide gel electrophoresis show at least 11 bands with apparent molecular weights from 250,000 to 18,000. These radiolabeled proteins, as well as the active component of the cell surface preparation, are sedimentable at 100,000 g for 1 h. They are both solubilized in 30 mM octyl glucoside but not by treatment with 0.1 M sodium carbonate, pH 11.5. These results suggest that the activity is due to a cell-surface membrane fraction and may provide a basis for studying the mechanism of density-dependent inhibition of growth in a normal cell of defined origin.     

Effect of serum and serum lipoproteins on testosterone production by adult rat Leydig cells in vitro.

The effect of serum factors other than luteinizing hormone on Leydig cell testosterone secretion was examined using an in vitro bioassay system based on the stimulation of purified adult rat Leydig cells during a 20 h incubation in the presence of a maximal dose of human chorionic gonadotrophin (hCG). Charcoal-extracted serum and testicular interstitial fluid (IF) from normal adult male rats were separated into lipoprotein and lipoprotein-deficient fractions by density ultracentrifugation. Stimulatory bioactivity was found in the lipoprotein fraction of both serum and IF, although the levels of lipoprotein and corresponding bioactivity recovered from IF were significantly lower (25%) than those of serum. There was no difference between the effects of serum lipoproteins on Leydig cell testosterone production stimulated by either hCG or dibutyryl cAMP. In time-course studies, the serum lipoprotein fraction had no effect on hCG-stimulated testosterone production in vitro at 3.0 or 6.0 h, but partially prevented the normal decline in hCG-stimulated testosterone production after 6.0 h. In contrast, unfractionated serum was stimulatory at all time-points. In the absence of hCG, the lipoprotein fraction was stimulatory at both 6.0 and 20 h, although not at 3.0 h. The lipoprotein-deficient protein fraction of serum had no effect on hCG-stimulated testosterone production alone, but significantly enhanced the bioactivity of the lipoprotein fraction, and caused a dose-dependent stimulation of testosterone production in the presence of a constant concentration of serum lipoproteins. Both a stimulatory peak of activity (apparent MW 40-80 kDa), and a large MW (> 100 kDa) inhibitor of testosterone production were identified in serum after fractionation by gel filtration (Sephadex G-100). The data indicate that (i) the stimulatory effect of serum on short-term hCG-stimulated Leydig cell testosterone production in vitro is predominantly due to the serum lipoprotein fraction, possibly by providing additional precursors for testosterone synthesis, (ii) the biological activity of the lipoproteins is influenced by both stimulatory and inhibitory serum proteins in addition to luteinizing hormone, and (iii) that serum lipoproteins may be involved in supporting Leydig cell steroidogenesis in vivo.     

Regulation of the cell cycle of 3T3 cells in culture by a surface membrane-enriched cell fraction

Addition of a suspension of a surface membrane enriched fraction prepared from confluent 3T3 cells to sparse 3T3 cells in culture results in a concentration dependent and saturable decrease in the rate of DNA synthesis. The inhibition of cell growth by membranes resembles the inhibition of cell growth observed at confluent cell densities by a number of criteria: (1) In both cases the cells are arrested in the G₁ protion of the cell cycle; (2) the inhibition by membranes or by high local cell density can to a large extent be compensated for by raising the serum concentration or by addition of fibroblast growth factor plus dexamethasone. Membranes prepared from sparse cultures inhibit less well than membranes from confluent cultures in a manner which suggests that binding of membranes to cells is not by itself sufficient to cause inhibition of cell growth. The inhibitory activity has a subcellular distribution similar to phosphodiesterase (a plasma membrane marker) and appears to reside in one or more intrinsic membrane components. Maximally, membranes can arrest about 40% of the cell population in each cell cycle. Plasma membranes obtained from sparse 3T3 cells are less inhibitory than membranes obtained from confluent cells. This suggests either that the inhibitory component(s) in the plasma membrane responsible for growth inhibition may be in part induced by high cell density, or that this component(s) may be lost from these membranes during purification.     

Inhibition of growth and of thymidine incorporation into DNA in Tetrahymena by chlorpromazine, pimozide and penfluridol

The antipsychotic drugs chlorpromazine, pimozide, and penfluridol caused a 50% inhibition of growth of Tetrahymena at concentrations of 4.5, 5.5, and 1.5 microM, respectively. The degree of growth inhibition was dependent on the concentration of cells; higher drug concentrations were needed to produce inhibition of denser cell cultures. Binding studies with penfluridol showed that 50% growth inhibition resulted when approximately 50 mumoles of drug were bound per 10(6) cells. A 20-min preincubation of cells with chlorpromazine (14.7 microM) inhibited DNA synthesis by 46%, and with penfluridol (4 microM) DNA synthesis was inhibited by 27%. The incorporation of labeled thymidine into the thymidine triphosphate pool was inhibited by chlorpromazine but not by penfluridol, indicating that the drugs produce their growth inhibitory effects by different mechanisms. TDP kinase activity was demonstrated in a particle-free fraction of the cells. Its enzymatic activity was not affected by added chlorpromazine, penfluridol, or calmodulin, suggesting that inhibition of DNA synthesis by these drugs may be a consequence of growth inhibition.     

Inhibition of lymphocyte mitogenesis by autoxidized low-density lipoprotein.

Mitogenic stimulation of lymphocytes is significantly inhibited by addition of human serum low-density lipoprotein that has undergone autoxidation, while no significant effect is seen with non-oxidized lipoprotein. The inhibition is effective for cells stimulated either by the plant lectin phytohemagglutinin or enzymatically by neuraminidase-galactose oxidase treatment. However, it is markedly attenuated when oxidized LDL is added to cells which have been triggered 24 hours earlier. Lipid extracts from oxidized LDL are similarly inhibitory, indicating that the effect is mediated by an oxidized lipid fraction.     

Plasma membrane sphingomyelin and the regulation of HMG-CoA reductase activity and cholesterol biosynthesis in cell cultures

We have examined the mechanism of the inhibition of cholesterol synthesis in cells treated with exogenous sphingomyelinase. Treatment of rat intestinal epithelial cells (IEC-6), human skin fibroblasts (GM-43), and human hepatoma (HepG2) cells in culture with sphingomyelinase resulted in a concentration- and time-dependent inhibition of the activity of HMG-CoA reductase, a key regulatory enzyme in cholesterol biosynthesis. The following observations were obtained with IEC-6 cells. Free fatty acid synthesis or general cellular protein synthesis was unaffected by the addition of sphingomyelinase. Addition of sphingomyelinase to the in vitro reductase assay had no effect on activity, suggesting that an intact cell system is required for the action of sphingomyelinase. The products of sphingomyelin hydrolysis, e.g., ceramide and phosphocholine, had no effect on reductase activity. Sphingosine, a further product of ceramide metabolism, caused a stimulation of reductase activity. Examination of the incorporation of [3H]acetate into the nonsaponifiable lipid fractions in the presence of sphingomyelinase showed no changes in the percent distribution of radioactivity in the post-mevalonate intermediates of the cholesterol biosynthetic pathway, but there was increased radioactivity associated with the polar sterol fraction. Pretreatment of cells with ketoconazole, a known inhibitor of oxysterol formation, prevented the inhibition of reductase activity by sphingomyelinase and decreased the incorporation of [3H]acetate in the polar sterol fraction. Ketoconazole had no effect on exogenous sphingomyelinase activity in vitro in the presence or absence of cells. Endogenous sphingomyelinase activity was also unaffected by ketoconazole. Addition of inhibitors of endogenous sphingomyelinase activity, e.g., chlorpromazine, desipramine, and N-(6-aminohexyl)-5-chloro-1-naphthalene sulfonamide (W-7), to the culture medium caused a dose-dependent stimulation of reductase activity. However, these agents had no effect on the inhibition of reductase activity by exogenous sphingomyelinase. Treatment of cells with small unilamellar vesicles of dioleyl phosphatidylcholine or high density lipoprotein3 resulted in increased efflux of cholesterol and stimulation of reductase activity. Under similar conditions, the inhibitory effect of exogenous sphingomyelinase on reductase activity was prevented by incubation with small unilamellar vesicles of phosphatidylcholine or high density lipoprotein. These results support the hypothesis that alteration of the ratio of sphingomyelin:cholesterol in the plasma membrane plays a modulatory role on the flow of membrane cholesterol to a site where it may be converted to a putative regulatory molecule, possibly an oxysterol.     

Inhibition of Growth and of Thymidine Incorporation into DNA in Tetrahymena by Chlorpromazine,Pimozide and Penfluridol1

The antipsychotic drugs chlorpromazine, pimozide, and penfluridol caused a 50% inhibition of growth of Tetrahymena at concentrations of 4.5, 5.5, and 1.5 μM, respectively. The degree of growth inhibition was dependent on the concentration of cells; higher drug concentrations were needed to produce inhibition of denser cell cultures. Binding studies with penfluridol showed that 50% growth inhibition resulted when approximately 50 μmoles of drug were bound per 10⁶ cells. A 20-min preincubation of cells with chlorpromazine (14.7 μM) inhibited DNA synthesis by 46%, and with penfluridol (4 μM) DNA synthesis was inhibited by 27%. The incorporation of labeled thymidine into the thymidine triphosphate pool was inhibited by chlorpromazine but not by penfluridol, indicating that the drugs produce their growth inhibitory effects by different mechanisms. TDP kinase activity was demonstrated in a particle-free fraction of the cells. Its enzymatic activity was not affected by added chlorpromazine, penfluridol, or calmodulin, suggesting that inhibition of DNA synthesis by these drugs may be a consequence of growth inhibition.     

Arrest of 3T3 cells in G1 phase by low density lipoprotein

Low density lipoprotein (LDL) and high density lipoprotein (HDL) were purified from normal human serum by KBr density gradient centrifugation and gel filtration through Sepharose 4B. LDL reversibly inhibited proliferation of Swiss/3T3 cells, whereas HDL had no inhibitory effect on cell growth. The LDL-induced inhibition was LDL-dose dependent and was reversed by the addition of mevalonate, a product of the reaction of 3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase (mevalonate: NADP+ oxidoreductase (CoA-acylating), EC 1.1.1.34). These data suggest that a specific reduction in the activity of HMG-CoA reductase produced by the addition of LDL is the main cause of the inhibition of cell proliferation. Studies of the effect of LDL on the cell cycle showed that it inhibited the entry of cells arrested in G0/G1 into the S phase but that it did not affect the transition of cells at the G1/S boundary into the M phase. The cell cycle of 3T3 is arrested solely in G1 by LDL.     

Partial purification and characterization of an endothelial cell growth regulator from the bovine ovary

An inhibitor of endothelial cell thymidine incorporation in vitro was partly purified from cow ovaries using ammonium sulphate (AS) precipitation. Supernatant fluid from the 100,000 g pellet of freshly homogenized ovaries was subjected to stepwise AS precipitation. Precipitates were collected sequentially at 40%, 60%, 80% and 95% saturation, and then each was dissolved, dialysed (Mr 8000 cutoff) and examined in tissue culture for effects on cellular thymidine incorporation by cow pulmonary artery endothelial cells (CPAE) and mouse fibroblasts (L929 and 3T3). The 80% AS precipitate (ppt.) inhibited the in-vitro uptake of [3H]thymidine by CPAE and L929 cells, but not 3T3 cells. Heparin-Sepharose (HS) chromatography of the 80% AS ppt. revealed that the inhibitory activity on CPAE and L929 cells did not bind to HS; the inhibitory fraction was found in the HS column breakthrough (80% BT). The 80% BT fraction reduced CPAE[3H]thymidine uptake as determined by autoradiography and increased cellular uptake of trypan blue. Serial fractions from Sephacryl S-200 exclusion chromatography of the 80% BT contained CPAE inhibitory activity in the Mr range 30,000-50,000. The inhibitory activity on endothelial cells and L929 fibroblasts and the non-reduced molecular weight range of that fraction are similar to those of tumour necrosis factor alpha (TNF alpha). The results indicate that the cow ovary contains a fraction that inhibits endothelial cell growth in vitro and may have important roles in follicular atresia and luteal regression.     

Growth-inhibitory activity of lymphoid cell plasma membranes. I. Inhibition of lymphocyte and lymphoid tumor cell growth

Membranes isolated from normal spleen cells or lymphoid tumor cells were found to inhibit in vitro growth of several murine tumor cell lines including a B cell hybridoma, a thymoma, and a mastocytoma. 50% inhibition occurred at membrane protein concentrations of 60-100 micrograms/ml. A similar concentration dependence was found for inhibition of [3H]-thymidine incorporation by tumor cells and for the lipopolysaccharide-induced mitogenic response of normal spleen cells. The inhibitory activity co-purified with the plasma membrane upon fractionation of crude membranes. Membrane solubilization with deoxycholate followed by dialysis to remove the detergent gave good recovery of inhibitory activity in the resulting reconstituted membranes. Membrane-mediated growth inhibition resulted from a decreased rate of proliferation and not from increased cell death. A toxic effect of the membranes was further ruled out by the finding that increasing the fetal calf serum content of the medium could substantially reverse the growth inhibition. Thus, the plasma membrane of lymphoid cells contains a component that can slow or stop the growth of cells in culture. This membrane component may have a role in cell contact-mediated regulation of growth.     

Inhibitory effects of glycolipids fraction from spinach on mammalian DNA polymerase activity and human cancer cell proliferation

We succeeded in purifying the fraction containing the major glycolipids in monogalactosyl diacylglycerol, digalactosyl diacylglycerol and sulfoquinovosyl diacylglycerol (SQDG) from dried vegetables. This glycolipids fraction was an inhibitor of DNA polymerase alpha (pol alpha) in vitro and also the proliferation of human cancer cells. In this study, eight common vegetables were investigated in terms of the glycolipids fraction, the amounts of major glycolipids, mammalian DNA polymerase inhibitory activity and antiproliferative activity toward human cancer cells. Green tea possessed the largest amount of glycolipids overall. Spinach contained the largest amount of SQDG, followed by parsley, green onion, chive, sweet pepper, green tea, carrot and garlic. Spinach had the strongest inhibitory effect on pol alpha activity and human cancer cell proliferation. A significant correlation was found between SQDG content and inhibition of DNA polymerase. Therefore, the inhibition of pol alpha activity by SQDG may lead to cell growth suppression. Of the six subspecies of spinach (Spinacia oleracea) tested, "Anna" had the largest amount of SQDG, strongest inhibitory activity toward DNA polymerase and greatest effect on human cancer cell proliferation. Based on these results, the glycolipids fraction from spinach is potentially a source of food material for a novel anticancer activity.     

Sites of transcription of the Müllerian inhibiting substance gene in mouse testis

The factors involved in the inhibition of ovarian follicular cellular growth after the luteinizing hormone (LH) surge are poorly established. The aim of this study was to investigate the production of an inhibitory growth factor by human ovarian cells. Luteinized granulosa cells were obtained from an assisted fertilization program and were cultured in the presence or absence of follicle-stimulating hormone (FSH) and estradiol. Data obtained by cell counting showed that the number of human luteinized granulosa cells cultured in the presence of fetal bovine serum (10%) increased 1.8-fold within a 2-day period. In serum-free medium, human luteinized granulosa cells were able to incorporate ³H-thymidine, measured during consecutive 48 h periods. During all the periods tested (up to 7 days), low basal levels of thymidine incorporation were measured and were further reduced in the presence of FSH (200 ng/ml) and estradiol (500 ng/ml). To elucidate the possible production of an inhibitory growth factor, ³H-thymidine incorporation by rat granulosa cell cultures was measured in the presence of conditioned media (CM; from human granulosa cell cultures). In this system, FSH and estradiol elicited a tenfold increase in thymidine incorporation. The addition of CM (10% v/v collected on day 2) to FSH- and estradiol-treated granulosa cell cultures produced an inhibition (61%) of thymidine incorporation. The active factor in CM withstood freeze-thawing, was stable for several weeks at – 20°C, became unstable at 4°C, and was heat labile and sensitive to proteolysis. Ultrafiltration using membranes with different molecular weight cutoffs suggested that the factor had a molecular weight >30,000 dalton. We suggest that an inhibitory growth factor produced by human luteinized granulosa cells could be involved in the differentiation of growing follicles to corpus luteum. © 1993 Wiley-Liss, Inc.     

Galactosyltransferase activity and cell growth: uridine diphosphate (UDP)galactose inhibition of murine leukemic L1210 cells

UDPgalactose inhibits the growth of mouse leukemic L1210 cells. In calf serum supplemented Dulbecco's medium (CS-DMEM), 1.2 mM UDPgalactose (UDPgal) inhibited cell growth by 50% (IC50), and 5 mM UDPgalactose inhibited cell growth by 92%. Other nucleotide sugars as well as galactose, glucose, and galactose-1-phosphate had little or no effect on cell growth. Uridine nucleotides, which inhibit galactosyltransferase activity, protected L1210 cells from the growth inhibitory effect of UDPgalactose when both were added simultaneously to culture media. Unlike mouse 3T12 cells, in which no inhibition of cell growth was observed with heat-inactivated calf serum (HICS)-DMEM, 5 mM UDPgalactose inhibited L1210 cell growth in HICS-DMEM to the same degree as that observed in CS-DMEM. In contrast to 3T12 cells, L1210 cells secrete significant galactosyltransferase activity into the media. Complete inhibition of 3T12 cell growth by UDPgal was observed if HICS-DMEM medium was first conditioned by L1210 cells for 48 hours. No difference in cell growth or [3H]thymidine uptake was detected after 6 hours of exposure to UDPgalactose, but both were significantly decreased at 24 and 48 hours. Flow cytometric analysis of UDPgalactose effects on L1210 cells revealed no differences in the distribution of cells in G1, S, or G2-M of the cell cycle after 6 hours of incubation, but after 16 hours of UDPgalactose treatment, L1210 cells were arrested in early S phase. These cells were completely viable and morphologically similar to control L1210 cells. Normal growth was resumed when UDPgal was removed. The data suggest that UDPgalactose inhibition of cell growth requires extracellular galactosyltransferase activity and that the effect is mediated via the cell membrane.     

Effect of exogenous gangliosides on human neural cell division

Human neural cells in exponential growth phase were transferred to a serum-free medium and maintained for 72 hr without any detectable loss in viability. The two normal fetal cell lines (CH_I and CH_II) showed a serum-dependent cell proliferation, but the glioblastoma multiforme cells (12–18) were able to continue proliferating in this totally synthetic medium. The incorporation of [³H] thymidine into the acid-precipitable fraction of both normal and neoplastic human neural cells was assayed in the presence and the absence of exogenous gangliosides by a convenient new method. In serum-free medium, gangliosides (50 μM) inhibited the thymidine incorporation into the normal fetal cells within 24 hr and, in serum containing medium, reduced their proliferation within 48 hr. No such effects were detectable in the glioma cells. The inhibition of thymidine incorporation in the normal cells was reversible upon removal of the gangliosides. These results indicate a role of gangliosides in the postmitotic phase of normal human neural cells resulting in the regulation of cell proliferation.     

Regulation of cell proliferation inhibitory and stimulatory factors diffused by 3T3 cultured cells

The growth rate of normal cells multiplied in vitro decreases as the cell density of the culture increases. Previous results suggested that this density-dependent inhibition of growth in nontransformed cells was due to the diffusion of growth inhibitory substances in the medium of dense cultures. In this paper, we demonstrate that dense cultures of 3T3 cells secrete inhibitory and stimulatory factors. Macromolecules of conditioned medium were fractionated on Biogel P150 and the different fractions were tested on quiescent cultures of 3T3 cells stimulated or not to proliferate by addition of alpha globulin. When target cells were not stimulated to proliferate by addition of exocrine growth factors, we observed the inhibitory activity of a large molecular weight inhibitor (IDF45) and the stimulatory activity of autocrine growth factors (fraction about 35 and 10 K molecular weight), on the incorporation of 14C inosine into nucleotide pool and RNA. However, DNA synthesis was significantly stimulated with fraction 10 K only. This discrepancy between the stimulation of RNA and DNA synthesis may be explained by the presence, simultaneously, of inhibitory and stimulatory factors in fraction 35 and 10 K molecular weight. The presence of inhibitory factor was demonstrated when the fractions were tested on target cells stimulated to proliferate by alpha globulin addition and labeled with 14C thymidine. In these conditions, the stimulatory activity of autocrine growth factors was not observable, and only the inhibitory activity on DNA synthesis of fractions 35 and 10 K appeared. It is tempting to assume that the regulation of in vitro cell proliferation is determined by the balance between these antagonist stimulatory and inhibitory autocrine growth factors.