Requirement of serum for DNA synthesis in BHK 21 cells: effects of density, suspension and virus transformation

Animal-cell culture media: History, characteristics, and current issues

Background

Cell culture technology has spread prolifically within a century, a variety of culture media has been designed. This review goes through the history, characteristics and current issues of animal‐cell culture media.

Methods

A literature search was performed on PubMed and Google Scholar between 1880 and May 2016 using appropriate keywords.

Results

At the dawn of cell culture technology, the major components of media were naturally derived products such as serum. The field then gradually shifted to the use of chemical‐based synthetic media because naturally derived ingredients have their disadvantages such as large batch‐to‐batch variation. Today, industrially important cells can be cultured in synthetic media. Nevertheless, the combinations and concentrations of the components in these media remain to be optimized. In addition, serum‐containing media are still in general use in the field of basic research. In the fields of assisted reproductive technologies and regenerative medicine, some of the medium components are naturally derived in nearly all instances.

Conclusions

Further improvements of culture media are desirable, which will certainly contribute to a reduction in the experimental variation, enhance productivity among biopharmaceuticals, improve treatment outcomes of assisted reproductive technologies, and facilitate implementation and popularization of regenerative medicine.

Activation of NF-κB via endosomal Toll-like receptor 7 (TLR7) or TLR9 suppresses murine herpesvirus 68 reactivation

In order to understand and possibly treat B-cell malignancies associated with latent gammaherpesvirus infection, it is vital to understand the factors that control the balance between the two transcriptional states of gammaherpesviruses: latency and lytic replication. We used murine gammaherpesvirus 68 (MHV 68) as a model system to investigate how engagement of endosomal Toll-like receptors (TLRs) impacts reactivation from latency in vitro and establishment of latent infection in vivo. We found that treatment with TLR7 ligand R848 or TLR9 ligand CpG oligodeoxynucleotide (ODN) suppresses reactivation of MHV 68 in vitro. These suppressive effects correlated with the ability to activate cellular transcription factor NF-κB. Downregulation of TLR9 by RNA interference in vitro led to a reduction of nuclear levels of NF-κB p65 and consequently to an increase of spontaneous reactivation in cells latently infected with MHV 68, indicating that the TLR9 pathway suppresses spontaneous reactivation events. In vivo, sustained stimulation of TLR7 by repeated R848 treatment led to an increased frequency of infected splenocytes compared to mock-treated control results. Frequencies of infected splenic B cells in tlr7-/- or tlr9-/- mice after establishment of latency did not differ from those seen with their wild-type counterparts. Nevertheless, MHV 68-infected B cells from tlr9-/- mice showed a higher frequency of reactivation than B cells from wild-type or tlr7-/- mice in ex vivo reactivation assays. Thus, we show a suppressive effect of TLR7 or TLR9 triggering on MHV 68 reactivation that correlates with NF-κB activation and that the mere presence of a functional TLR9 signaling pathway contributes to dampen lytic gammaherpesvirus reactivation in infected cells.

IMPORTANCE

A hallmark of gammaherpesviruses is their establishment of latency in B cells that is reversible through lytic reactivation. Latency can result in B-cell malignancies. Activation of the innate immune system is thought to contribute to controlling the switch between the transcriptional states of latency and reactivation. Nevertheless, the mechanisms involved are not clear. Here, we show that engagement of Toll-like receptor 7 (TLR7) and TLR9 suppresses reactivation of murine gammaherpesvirus MHV 68 in vitro and that stimulation of TLR7 in vivo increases the frequency of infected cells. TLR7 and TLR9 are innate immunity sensors of nucleic acids localized in endosomes. Additionally, we demonstrate that impairment of TLR9 signaling in latently infected B cells leads to increased reactivation. Thus, activated endosomal TLR7 and TLR9 pathways play an important role in promoting establishment of latent gammaherpesvirus infection. Counteracting signaling of these pathways allows reactivation and could represent treatment targets in gammaherpesvirus-associated malignancies.

Monitoring and modeling density-dependent growth of anchorage-dependent cells

The density-dependent growth of Chinese hamster ovary (CHO) cells was monitored on-line by using an inverted microscope. A flow system was employed for cell cultivation so that nutrient concentration could be maintained and metabolic wastes were removed. With the help of video image analysis, local cells density could be accurately calculated and cell motility and exposed cell surface area could be estimated. A computer program which accounted for change of sell size and translocation of cells was developed to stimulate cell growth. The stimulated results of the population dynamics and the variations in cell size showed good agreement with our experimental observations, Cell motility and initial cell distribution on the substratum were found to have strong effect on cell growth.

Morphogenesis in the absence of integrins: mutation of both Drosophila beta subunits prevents midgut migration

Two integrin beta subunits are encoded in the Drosophila genome. The betaPS subunit is widely expressed and heterodimers containing this subunit are required for many developmental processes. The second betasubunit, betanu, is a divergent integrin expressed primarily in the midgut endoderm. To elucidate its function, we generated null mutations in the gene encoding betanu. We find that betanu is not required for viability or fertility, and overall the mutant flies are normal in appearance. However, we could observe betanu function in the absence of betaPS. Consistent with its expression, removal of betanu only enhanced the phenotype of betaPS in the developing midgut. In embryos lacking the zygotic contribution of betaPS, loss of betanu resulted in enhanced separation between the midgut and the surrounding visceral mesoderm. In the absence of both maternal and zygotic betaPS, a delay in midgut migration was observed, but removing betanu as well blocked migration completely. These results demonstrate that the second beta subunit can partially compensate for loss of betaPS integrins, and that integrins are essential for migration of the primordial midgut cells. The two beta subunits mediate midgut migration by distinct mechanisms: one that requires talin and one that does not. Other examples of developmental cell migration, such as that of the primordial germ cells, occurred normally in the absence of integrins. Having generated the tools to eliminate integrin function completely, we confirm that Drosophila integrins do not control proliferation as they do in mammals, and have identified alphaPS3 as a heterodimeric partner for betanu.

Insulin-enhanced liposome-mediated gene transfer into a gastric carcinoma cell line

1. Liposome-mediated transfection is useful due to no DNA constraints, lower immunogenicity and easy preparation. However, it has the disadvantage of low transfection efficiency. We aimed to test whether lipofection efficiency could be enhanced in gastrointestinal cell lines by the growth-promoting effect of insulin. 2. To assess the effect of insulin on lipofection efficiency and the cell cycle, expression of green fluorescent protein (GFP) and DNA distribution in gastric (MKN1), colonic (HT29) and pancreatic (BxPC3) carcinoma cell lines was analysed using flow cytometry. 3. The percentage of positive cells with GFP was significantly higher in MKN1 cells in culture medium with 5 mg/mL insulin than without insulin, whereas the percentage was the same in HT29 and BxPC3 cells with insulin as without insulin. The percentage of S phase fraction MKN1 cells with insulin was greater than without insulin, whereas the percentage of S phase fractions of HT29 and BxPC3 cells was the same with or without insulin. Lipofection efficiency correlated with the percentage of S phase fraction. 4. Insulin has the potential to enhance efficiency of lipofection into a sensitive cell line by increasing cellular proliferation.

Cooperation between soluble factors and integrin-mediated cell anchorage in the control of cell growth and differentiation

Recently it has become clear that integrins and other adhesive receptors play an important role in the control of cell growth and differentiation. In various cell types, anchorage to the extracellular matrix via integrins strongly influences the ability of the cell to respond to soluble mitogens or to differentiation factors. Thus adhesive receptors must generate signals that influence cell behavior. Some of the pathways of adhesion receptor signaling are now beginning to be worked out, but there is still much to learn. In particular, the mechanistic basis for the cooperation between anchorage signals and signals from soluble growth and differentiation factors remains ill-defined. This review will examine some of the current information linking adhesion receptors to control of mitogenesis and differentiation.

Induction of ovalbumin mRNA by ascorbic acid in primary cultures of tubular gland cells of the chicken oviduct

The present study was conducted to investigate the effects of aging and medium supplements on steroid-induced ovalbumin mRNA in primary cultures of tubular gland cells from the chicken oviduct. In experiment 1, the effect of aging was examined by comparing the responsiveness to administration of estrogen and corticosterone in cells derived from laying hens and estrogen-primed chicks. In experiment 2, the effect of supplementing a culture medium with various compounds on the responsiveness to the steroid treatment was examined. In experiment 3, the effect of supplementing with ascorbic acid was tested in the presence or absence of the steroid hormones. The results indicated that the oviduct cells from immature chicks had clearer induction of ovalbumin mRNA by the steroid treatment than did those from laying hens. Among medium supplements, ascorbate increased the steroid responsiveness to a great extent, and fetal calf serum had modest, but long lasting, induction of ovalbumin mRNA. The drastic induction of ovalbumin mRNA by ascorbic acid supplementation was exerted only when the steroid hormones were present in the medium, implying that the effect of ascorbic acid may be auxiliary in steroid-induced transcription of the ovalbumin gene.

Carcinogenesis and initiation of cell cycling by charge-induced membrane clusters may be due to mitogen receptors and Na+/H+ antiports

The membrane cluster hypothesis of mitogenesis and carcinogenesis is extended by proposing that much of the Na+ ingress across a cell's plasma membrane at surface charge-induced (SCI) aggregates is due to mitogen-induced activation of Na+/H+ antiports. Intrinsic proteins (including mitogen receptors and antiports) are electrostatically attracted to and become part of the aggregate. In this location, close proximity facilitates antiport activation. Resulting Na+ ingress may cause sustained partial depolarization, cytoplasmic alkalinization, and initiation of cell cycling. Chronic phosphorylation-dephosphorylation at SCI aggregates too weak to induce cycling, may slowly form polyionic bonds between adjacent proteins at the inner lipid layer. These bonds convert the SCI aggregates to 'permanent' clusters that pass to a daughter cell with parental plasma membrane at mitosis, and are associated with malignancy. EGF and PDGF growth factors are used to develop the hypothesis, which is also applied to steroid and dioxin receptors and to oncogene products.

Spontaneous and cAMP-dependent induction of a resting phase and neurite formation in cell hybrids between human neuroblastoma cells and thymidine auxotrophs of rat nerve-like cells

Cell hybrids (BIM) were produced between human neuroblastoma cells (IMR-32) and thymidine auxotrophs (B3T) of rat nerve-like cells (B103) in order to obtain cell lines undergoing stable neuronal differentiation. BIM cells exhibited the growth properties of partial transformation: 1) When the cell growth reached a plateau, BIM cells ceased to proliferate and expressed a differentiated phenotype. The shape of the cells changed from flat to round and they extended neurites. 2) When cultured in methylcellulose, BIM cells formed colonies, indicating that BIM cells have the ability of anchorage-independent growth. By Southern blot analysis, BIM cells had both human and rat types of N-myc genes. The human N-myc genes were amplified, but the extent of the amplification was lower in BIM cells than that in the parental cell line IMR-32. The rat N-myc gene was detected at a similar level in BIM, B3T, B103, and rat fibroblastic cells 3Y1. Therefore, the decrease in amplification of human N-myc genes may be involved in the properties of partial reverse-transformation in BIM cells. When treated with various drugs such as db-cAMP, forskolin, and cAMP with isobutyl-methylxanthine, BIM cells expressed a nerve-like phenotype. These findings indicate that cell hybridization yielded partial normalization of transformed nerve-like cells.

Close relationship between modulation of serum-induced stimulation of DNA synthesis and changes in gap-junctional intercellular communication in quiescent 3T3-L1 cells caused by cyclic AMP and the tumor-promoting phorbol ester TPA

Involvement of gap-junctional intercellular communication in the stimulation of growth was investigated in quiescent 3T3-L1 cells. When the cells in monolayer were growth-arrested by culture in a low concentration of calf serum, addition of dibutyryl cyclic AMP enhanced dye-coupling and suppressed the enhancement of DNA synthesis, induced by calf serum, in quiescent cells. 12-O-Tetradecanoylphorbol-13-acetate (TPA) suppressed dye-coupling in quiescent cells and enhanced DNA synthesis in both quiescent and serum-treated cells. When about 5000 cells were cultured in contact to form a colony, growth arrest of the cells was observed in the central region of such colonies rather than in the peripheral region, but addition of calf serum induced DNA synthesis in the cells in both the peripheral and central regions of the colonies. Addition of TPA enhanced serum-induced DNA synthesis in the cells in the central region of colonies rather than in the peripheral region. These results suggest that the ability of quiescent cells to escape from growth arrest is inversely correlated to the extent of gap-junctional intercellular communication.

Arachidonic acid metabolism in normal and transformed rat tracheal epithelial cells and its possible role in the regulation of cell proliferation

The objectives of our investigations were to characterize the profile of arachidonic acid metabolites produced by cultured rat tracheal epithelial cells, and to determine whether or not transformation of these cells causes major qualitative or quantitative changes in arachidonic acid metabolism and whether arachidonic acid metabolites play an important role in the regulation of proliferation of rat tracheal cells. Our studies showed that prostaglandin E2 was the only major prostanoid produced by normal and transformed rat tracheal epithelial cells. When stimulated with calcium ionophore A23187, 12-O-tetradecanoylphorbol 13-acetate, arachidonic acid, or serum, the cultures produced small amounts of thromboxane B2, prostaglandin F2 alpha, and hydroxyeicosatetraenoic acid(s) in addition to prostaglandin E2. Mitogenesis studies showed that none of the peptide growth factors tested stimulated either prostaglandin E2 production or DNA synthesis. Fetal bovine serum, on the other hand, stimulated both. 12-O-Tetradecanoylphorbol 13-acetate and arachidonic acid stimulated prostaglandin E2 production but caused no increase in DNA synthesis. Dexamethasone and indomethacin, inhibitors of phospholipase A2 and cyclooxygenase, respectively, significantly inhibited prostaglandin E2 production at concentrations as low as 10(-8) and 10(-9) M but did not inhibit DNA synthesis. It is concluded (1) that prostaglandin E2 is the major arachidonic acid metabolite of rat tracheal epithelial cells, (2) that transformation does not significantly alter arachidonic acid metabolism in these cells, and (3) that neither prostaglandin E2 nor other arachidonic acid metabolites play a significant role in mitogenic stimulation of rat tracheal epithelial cells.

Lateral diffusion of lectin receptors in fibroblast membranes as a function of cell shape

Anchorage-dependent fibroblasts respond to biochemical growth signals only when attached to and spread on a suitable substrate surface. Attachment of fibroblasts initiates a cytoskeletal assembly process that results in the organization of long actin stress fibers and microtubules which may be required for transmembrane signal transduction. Fibroblasts maintained in suspension, however, remain spherical with no apparent stress fibers or lengthy microtubules. Because of the significant differences in cytoskeletal organisation induced by shape modification, and the resulting possible changes in organization and dynamics of membrane receptors, the technique of fluorescence redistribution after photobleaching (FRAP) was employed to examine the lateral mobility of wheat germ agglutinin (WGA) and succinylated concanavalin A (sCon A) receptors in the plasma membrane of untransformed and Kirsten murine sarcoma virus-transformed Balb/c 3T3 fibroblasts in the spread and spherical state. An examination of FITC-WGA and FITC-sCon A binding to the plasma membrane for both cell lines in a spread or spherical state demonstrated no significant differences in the number of WGA or Con A receptors as a function of shape or transformation. The primary observations from this study are (a) membrane WGA and sCon A receptors in spherical Balb/c 3T3 fibroblasts display mobility 12 times faster than in the spread state, while phospholipid mobility is similar and apparently shape independent, (b) transformed cells in the spread state have WGA and sCon A receptor mobilities similar to those of untransformed cells in the spread state, (c) flat adherent, but not unattached spherical, Balb/c 3T3 fibroblasts are subject to Con A-induced global modulation and (d) transformed cells in the spherical state contain a significant population of cells (approximately 30%) with WGA receptor mobilities faster than those observed in spherical untransformed cells. These observations are discussed in terms of a linked matrix model for membrane protein diffusion.

Quiescent fibroblasts in a cellular model system

Quiescent fibroblasts are non-dividing cells in a reversible postmitotic state induced by lowering the serum concentration of the medium (e.g. from 10% to 0.3%). Three to seven days after lowering the serum concentration only minor metabolic changes will take place in the cells. During this period the quiescent fibroblasts can be used experimentally in a model system for various periods of time.

Differences in growth factor sensitivity between individual 3T3 cells arise at high frequency: possible relevance to cell senescence

At low serum concentrations (3% or less), individual Swiss 3T3 cells display marked heterogeneity in proliferative capacity. Here we show that this heterogeneity arises at extremely high frequency within a clone, often with sister cells showing considerable differences in capacity for further proliferation. The heterogeneity is unlikely to be due to genetic instability or mutation. Instead, it appears to reflect physiological differences between cells in their requirement for serum growth factors. It is suggested that these differences arise because cells are unable to sustain production, at low growth factor concentrations, of some rare component which is itself required for growth factor action. We believe that the generation of heterogeneity in 3T3 cells has much in common with the phenomenon of senescence in diploid cells.

Heterogeneity of intercellular adhesion in rat liver cells in culture

The intercellular homotypic adhesive properties of 14 clones derived from a nontumorigenic rat liver epithelial cell line (LEC), derived from neonatal Fischer rats, were examined and compared to those of the hepatoma H4-II-E cell line. Each clone was assayed also for the degree of chromosomal aneuploidy and the ability to grow in soft agar. Over 100-fold differences in adhesive properties were observed among the clones, but no correlation was observed between the degree of aneuploidy in the clones and intercellular adhesive properties. The parent LEC cell line and the clones derived from it were unable to grow in soft agar. The H4-II-E cells showed negligible capacity to reaggregate after dissociation into single cells and these cells readily formed colonies in soft agar. Many of the LEC clones were similar to the H4-II-E cells in their adhesive properties, which suggests that reduced cell-to-cell adhesiveness per se is not a necessary prerequisite of epithelial cells to be able to grow independent of anchorage. Two-dimensional polyacrylamide gel electrophoresis (2D-PAGE) of concanavalin A (Con A)-binding glycoproteins in the "most adhesive" clone 67 and the "least adhesive" clone 201 showed markedly elevated amounts of acidic 105 and 67-kDa glycoproteins in clone 67. Proteins with similar migration patterns in 2D-PAGE have previously been reported to participate in specific homotypic intercellular adhesion of liver cells. The Con A-binding glycoprotein pattern in H4-II-E cells was markedly different from that of LEC cells with a set of six proteins missing and nine proteins appearing new in the H4-II-E cells. It is suggested that, in addition to identifying known epithelial cell polypeptides, systematic screening of cell surface-associated glycoproteins in normal and transformed epithelial cells in vitro and in vivo may lead to identification of novel polypeptides intimately associated with the transformed phenotype.

The effect of factors released from the tumor-transformed cells on DNA synthesis, mitosis, and cellular enlargement in 3T3 fibroblasts

Quiescent serum-starved 3T3 cells can be stimulated to initiate DNA synthesis after addition of conditioned media from spontaneously tumor-transformed 3T3 cells (3T6-cells) or from SV-40-transformed 3T3 cells (SV-3T3 cells). The conditioned media were found to stimulate both the chromosome cycle (i.e., DNA synthesis and cell division) and the growth cycle (i.e., cellular enlargement). Furthermore, addition of conditioned media to quiescent 3T3 cells increased the activity of HMG CoA reductase--an enzyme previously proposed to exercise some control on cell proliferation in 3T3 cells (Larsson and Zetterberg: J. Cell. Physiol. 129:99-102, 1986. The increased activity of HMG CoA reductase after treatment with tumor cell conditioned media was correlated to the stimulatory effects on DNA synthesis. By treating 3T3 cells stimulated to resume proliferation by addition of conditioned media with mevinolin (a competitive inhibitor of HMG CoA reductase) the activity of HMG CoA reductase as well as the DNA synthesis and cell division were efficiently inhibited. In contrast, HMG CoA activity was not coupled to the cellular enlargement. Therefore, it is proposed that one set of factors present in tumor cell conditioned media preferentially stimulates the chromosome cycle by increasing the HMG-CoA reductase activity, whereas another set of factors is responsible for growth in cell size. Both types of factors are required for balanced growth.

Growth regulation in multilayered cultures of human diploid fibroblasts: the roles of contact, movement and matrix production

Early subcultures of human embryonic lung fibroblasts are exceptional, as they grow far beyond confluence before growth ceases: the stationary dish may well contain 3-10 monolayer equivalents. Maximal growth rates, however, occur at about one-sixth confluence when doubling times are 15-20 hr; a density at which cell contacts begin to become frequent. The fact that a slowing down of growth is first apparent at such low densities argues against this regulation being due to diffusion effects. Confirmation of the role of short-range or contact interactions in growth regulation comes from an experiment using mixed cultures of fibroblasts: this shows that growth inhibition is not carried by medium-borne influences but depends on short-range (less than 1 mm) interactions. Evidence that cells can escape the effects of such contact interactions and so divide comes from time-lapse studies of dense cultures: there is a burst of motility soon after a fresh-medium change, which is followed by a burst of mitosis approximately 20 hr later. A medium change to conditioned medium supplemented with 10% foetal calf serum leads to neither the burst of motility nor the subsequent burst of mitosis, although this medium is better able to support the growth of sparse cells than is fresh medium. Data are also presented to show that the amount of collagen deposited in superconfluent cultures affects their growth: the stimulation of collagen production with ascorbic acid leads to an unexpectedly low stationary cell density and rather less movement in the culture. This result suggests that the collagen stabilizes cell contacts that are responsible for growth inhibition. The question of why these cells grow more slowly as density increases cannot be answered directly by these experiments; nevertheless, the results suggest that cell contact affects the permeability of the cell membrane to medium.

Catecholamine modulation of embryonic palate mesenchymal cell DNA synthesis

Development of the mammalian embryonic palate depends on the precise temporal and spatial regulation of growth. The factors and mechanisms underlying differential growth patterns in the palate remain elusive. Utilizing quiescent populations of murine embryonic palate mesenchymal (MEPM) cells in vitro, we have begun to investigate hormonal regulation of palatal cell proliferation. MEPM cells in culture were rendered quiescent by 48 hr serum deprivation and were subsequently released from growth arrest by readdition of medium containing 10% (v/v) serum. The progression of cells into S-phase of the cell cycle was monitored by autoradiographic analysis of tritiated thymidine incorporation. Palate mesenchymal cell entry into S-phase was preceded by a 6- to 8-hr prereplicative lag period, after which time DNA synthesis increased and cells reached a maximum labeling index by 22 hr. Addition of 10 microM isoproterenol to cell cultures at the time of release from growth arrest lengthened the prereplicative lag period and delayed cellular entry into S-phase by an additional 2 to 4 hr. The rate of cellular progression through S-phase remained unaltered. The inhibitory effect of isoproterenol on the initiation of MEPM cell DNA synthesis was abolished by pretreatment of cells with propranolol at a concentration (100 microM) that prevented isoproterenol-induced elevations of cAMP. Addition of PGE2 to cell cultures, at a concentration that markedly stimulates cAMP formation, mimicked the inhibitory effect of isoproterenol on cellular progression into S-phase. These findings demonstrate the ability of the beta-adrenergic catecholamine isoproterenol to modulate MEPM cell proliferation in vitro via a receptor-mediated mechanism and raise the possibility that the delayed initiation of DNA synthesis in these cells is a cAMP-dependent phenomenon.

Regulation of the microfilament system in normal and polyoma virus transformed cultured (BHK) cells

The content and state of actin in baby hamster kidney (BHK) cells before and after transformation with polyoma virus were examined by deoxyribonuclease assay and gel electrophoresis followed by dye elution. The actin content of the transformed cells, relative to total cell protein, was lower than that of the normal cells by 30-50%. In both the normal and transformed cells the greater part of the total actin was found on lysis to be in the monomeric state. Cytoplasmic and membrane fractions of the two cell lines were, in qualitative terms, very similar in their protein compositions. The plasma membrane isolated from the transformed cells was richer in actin than that from the untransformed, and both membrane fractions contained proteins corresponding to myosin, filamin and alpha-actinin on SDS-polyacrylamide gels. The cell extract from both the normal and transformed lines formed an actin-based gel on incubation at 30 degrees C, although the amount of the cross-linked actin was much smaller in the latter. This was a consequence not only of the lower concentration of total actin in the cell, but also, presumably, of a gross relative deficiency in the concentration or activity of filament cross-linking protein(s) in the cytoplasm. Thus, small aliquots of cytoplasmic fractions from transformed cells, when added to an excess of exogenous F-actin, were able to cross-link the filaments to a much smaller extent than those from the normal cells. A similar range of proteins was found to be associated with the actin gels formed from both cell extracts. One conspicuous difference was that a species migrating in SDS-gel electrophoresis as a doublet with a subunit molecular weight of about 58,000, and tentatively identified as intermediate filament protein, was replaced in the transformed cells by a single band. Filament cross-linking activity of the cytoplasmic fractions was enhanced by addition of Triton extracts of crude membranes, although the latter were not capable of cross-linking exogenous F-actin on their own. The effect of Triton extracts was much greater in the case of membranes from the transformed cells. The cytoplasmic fractions of BHK cells contain capping protein(s) and/or complexes of such proteins with actin; these reveal themselves by the propensity of the extracts to nucleate polymerization of exogenous G-actin. This activity was more abundant in transformed cells, despite their lower actin content. Their membranes were also more effective in nucleating G-actin polymerization, indicating the presence of a greater number of filament ends.(ABSTRACT TRUNCATED AT 400 WORDS)

Developmentally regulated production of platelet-derived growth factor-like molecules

Platelet-derived growth factor (PDGF) is thought to mediate the proliferation of smooth muscle cells in injured arteries, and may be involved in the pathogenesis of atherosclerosis. PDGF-like molecules from non-platelet sources may also play a role in the regulation of cell activity in other circumstances. Transformation of cells by a wide range of oncongenic agents appears to activate a cellular gene encoding a PDGF-like molecule, possibly accounting for the ability of transformed cells to grow without addition of exogenous mitogens. We show here that a molecule (PDGF-c) which can compete with 125I-PDGF for binding to PDGF receptors is secreted by cultured rat aortic smooth muscle cells (rASMC) isolated from 13 to 18-day-old rats (pups) but not from three-month-old animals (adults). Thus, production of PDGF-c appears to be developmentally regulated and may be a factor in the more rapid proliferation of rASMC and synthesis of connective tissue components which occurs during growth of the aorta in vivo.

The role of increased proteolysis in the atrophy and arrest of proliferation in serum-deprived fibroblasts

When cultured fibroblasts are deprived of serum, the degradation of long-lived proteins and RNA increases, the cells stop proliferating, and they decrease in size. To determine the role of the increased protein catabolism in these responses, we studied the effects of inhibitors of intralysosomal proteolysis in Balb/c 3T3 cells. When these cells were placed in serum-deficient medium (0.5% serum), the rate of degradation of long-lived proteins increased about twofold within 30 min. This increase was reduced by 50-70% with inhibitors of lysosomal thiol proteases (Ep475 and leupeptin) or agents that raise intralysosomal pH (chloroquine and NH4Cl). By contrast, these compounds had little or no effect on protein degradation in cells growing in 10% serum. Thus, in accord with prior studies, lysosomes appear to be the site of the increased proteolysis after serum deprivation. When 3T3 cells were deprived of serum for 24-48 hours, the rate of protein synthesis and the content of protein and RNA and cell volume decreased two- to fourfold. The protease inhibitor, Ep475, reduced this decrease in the rate of protein synthesis and the loss of cell protein and RNA. Cells deprived of serum and treated with Ep475 for 24-48 hours had about twice the rate of protein synthesis and two- to fourfold higher levels of protein and RNA than control cells deprived of serum. The Ep475-treated cells were also about 30% larger than the untreated cells. Thus, the protease-inhibitor prevented much of the atrophy induced by serum deprivation. The serum-deprived fibroblasts also stopped proliferating and accumulated in the G1 phase of the cell cycle. The cells treated with Ep475 accumulated in G1 in a manner identical to untreated serum-deprived cells. Other agents which inhibited protein breakdown in serum-deprived cells also did not prevent the arrest of cell proliferation. Thus the enhancement of proteolysis during serum deprivation appears necessary for the decrease in size and protein synthesis, but probably not for the cessation of cell proliferation. When cells deprived of serum in the presence or absence of Ep475 were stimulated to proliferate by the readdition of serum, the larger Ep475-treated cells began DNA synthesis 1-2 hours later than the smaller untreated cells. Thus, after treatment with Ep475, the rate of cell cycle transit following serum stimulation was not proportional to the cell's size, protein, or RNA content, or rate of protein synthesis.

Energy requirement for degradation of tumor-associated protein p53

A 53,000-dalton protein (p53) present in large amounts in several types of tumorigenic cells was rapidly degraded in nontumorigenic BALB/c 3T3 fibroblasts (t 1/2, approximately 0.5 h) but not in tumorigenic methylcholanthrene-induced mouse sarcoma cells (t 1/2, greater than 2 h). In 3T3 cells, dinitrophenol and 2-deoxyglucose, agents which reduce ATP production, inhibited the rapid degradation of p53 and the slower breakdown of total cell protein. After removal of these agents, the degradation of both p53 and total cell proteins resumed at their normal rates. Inhibitors of intralysosomal proteolysis (Ep475 and chloroquine) did not reduce the rate of degradation of p53. Thus, in 3T3 cells, p53 appears to be degraded by a nonlysosomal, ATP-dependent proteolytic system similar to that previously shown to degrade short- and long-lived proteins in growing fibroblasts. The immunoreactive p53 which remained in ATP-depleted cells had the same molecular weight as the p53 in the control cells. No intermediate products of p53 degradation were detected by immunoprecipitation in either ATP-depleted or control cells. Hence, ATP seems to be required for an initial step in the degradation of p53. Although the amount of labeled p53 was increased in simian virus 40-transformed and methylcholanthrene-induced mouse sarcoma cells, the amount of p53 labeled during a 3-h pulse in Moloney virus- and Rous sarcoma virus-transformed cells and untransformed 3T3 cells was similar. Thus, an increased net rate of p53 accumulation is not a common feature of transformed tumorigenic cells.

Production of platelet-derived growth factor-like molecules and reduced expression of platelet-derived growth factor receptors accompany transformation by a wide spectrum of agents

A series of nontransformed human and murine cells and derivative cell lines transformed by methylcholanthrene; by simian virus 40, Kirsten and Moloney murine sarcoma viruses, simian sarcoma virus, and adenovirus; and by a "spontaneous" event in culture were examined for the expression of receptors for the platelet-derived growth factor (PDGF) and for production of substances able to compete with 125I-labeled PDGF for binding to the cell-surface PDGF receptor. In each case, transformation resulted in a 50-100% decrease in available PDGF receptors. All transformed cells except the methylcholanthrene-transformed mouse cells produce a PDGF competitor into the conditioned medium. Levels of PDGF competitor in conditioned medium at the end of a 48-hr collection were as high as 2 ng/ml--high enough to be measured by radioreceptor assay diluted 1:30 and to maximally stimulate [3H]thymidine incorporation by human fibroblasts. The PDGF competitor activity detected in a radioreceptor assay does not reflect irreversible (e.g., proteolytic) damage to the receptor of test cells since its effects are reversed by acetic acid dissociation. Antiserum against human PDGF neutralizes 20-80% of the PDGF competitor found in conditioned medium from different transformed human cells and 100% of the activity from normal human endothelial cells. The possibility that induction of expression of the cellular PDGF gene may be involved in the mechanism of transformation of PDGF-responsive mesenchymal cells is discussed.

Energy requirement for degradation of tumor-associated protein p53

A 53,000-dalton protein (p53) present in large amounts in several types of tumorigenic cells was rapidly degraded in nontumorigenic BALB/c 3T3 fibroblasts (t 1/2, approximately 0.5 h) but not in tumorigenic methylcholanthrene-induced mouse sarcoma cells (t 1/2, greater than 2 h). In 3T3 cells, dinitrophenol and 2-deoxyglucose, agents which reduce ATP production, inhibited the rapid degradation of p53 and the slower breakdown of total cell protein. After removal of these agents, the degradation of both p53 and total cell proteins resumed at their normal rates. Inhibitors of intralysosomal proteolysis (Ep475 and chloroquine) did not reduce the rate of degradation of p53. Thus, in 3T3 cells, p53 appears to be degraded by a nonlysosomal, ATP-dependent proteolytic system similar to that previously shown to degrade short- and long-lived proteins in growing fibroblasts. The immunoreactive p53 which remained in ATP-depleted cells had the same molecular weight as the p53 in the control cells. No intermediate products of p53 degradation were detected by immunoprecipitation in either ATP-depleted or control cells. Hence, ATP seems to be required for an initial step in the degradation of p53. Although the amount of labeled p53 was increased in simian virus 40-transformed and methylcholanthrene-induced mouse sarcoma cells, the amount of p53 labeled during a 3-h pulse in Moloney virus- and Rous sarcoma virus-transformed cells and untransformed 3T3 cells was similar. Thus, an increased net rate of p53 accumulation is not a common feature of transformed tumorigenic cells.

Comparative analysis of caffeine and 3-aminobenzamide as DNA repair inhibitors in Syrian baby hamster kidney cells

The effects of caffeine and 3-aminobenzamide (3-AB) on Syrian baby hamster kidney cells treated with DNA-alkylating agents and ultraviolet-light suggest that two different DNA-repair mechanisms are involved. Both these agents enhanced the cell kill after methyl methanesulfonate (MMS) treatment. However, enhanced lethality was observed only with caffeine post-treatment when cells were exposed to nitrogen mustard (HN2) or ultraviolet light (UV); 3-AB did not appreciably change cell killing by these agents. With MMS-treated cultures, the effect of caffeine was maximal about 16 h later. The effect of 3-AB on the other hand, was exerted during the first 4 h after exposure to MMS. Caffeine's effect on cell survival could be abolished by low concentrations of cycloheximide, whereas 3-AB's effect could not. Furthermore, the G2 block in cell cycle progression, after MMS treatment, was not observed if the cells were post-treated with caffeine. In the presence of 3-AB, MMS-treated cells were arrested in G2 phase at a much earlier time compared to cells not treated with 3-AB. Finally caffeine post-treatment produced a 10-fold increase in nuclear fragmentation in MMS-treated cells. 3-AB did not cause nuclear fragmentation by itself but further enhanced the nuclear fragmenting effect of caffeine when both agents were present during the posttreatment. Therefore, we propose that 3-AB and caffeine each prevent a different repair mechanism from being effective.

Enhancement of hybridoma formation by addition of insulin to HAT medium (HIAT)

The effects of insulin on the formation of hybridoma clones following fusion experiments with SRBC immunized BALB/c mouse spleen cells and P3U1 mouse plasmacytoma cells were evaluated. The addition of insulin to HAT medium (HIAT) resulted in significant increases in the number and size of hybridoma colonies generated. The total number of anti-SRBC antibody-secreting clones also increased as much as sevenfold using insulin-supplemented medium compared to HAT alone. In view of the increasing interest in hybridoma technology for monoclonal antibody production, the use of insulin-supplemented medium (HIAT) may significantly expedite ongoing work by providing a more efficient method for the establishment of stable clones.

Spreading of non-transformed and transformed cells

Mechanisms of cellular reactions responsible for the spreading of non-transformed cultured tissue cells on the surface of various substrata and relationships of these reactions to the control of cell proliferation are reviewed; the special role of the membrane-cytoskeleton interactions leading to extension and attachment of pseudopods is stressed. Transition of cells from non-transformed to transformed phenotype is characterized by decreased spreading and by decreased dependence of proliferation on spreading. Manifestations of both of these spreading-associated changes are reviewed and their possible mechanisms are discussed. It is suggested that cell transition to transformed phenotype involves shift of an equilibrium between the reactions induced by the two groups of membrane-bound ligands: those attached and those not attached to the substratum.

Establishment and characterization of ferret cells in culture

Cells derived from the brain of a 6 wk-old ferret have been subcultured over 100 times and have undergone over 400 population doublings in vitro. These cells, referred to as Mpf cells, have an absolute efficiency of colony formation in excess of 45%, exhibit a mean population doubling time of 12.5 h, possess ferret-specific antigens, and have isozymes with electrophoretic properties that are the same as those of isozymes found in ferret liver. The cells exhibit a cytopathic effect and support the synthesis of progeny virus when they are infected with the viruses of lymphocytic choriomeningitis, Newcastle disease, pseudorabies, Sindbis, vaccinia, and vesicular stomatitis. The passage level of the Mpf cells, their elapsed number of population doublings, their possession of ferret-specific antigens, and the comigration of four isozymes obtained from these cells and ferret liver define the cells as an established line of ferret cells.

In vitro proliferation and lifespan of human diploid fibroblasts in serum-free BSA-containing medium

We have developed two serum-free chemically defined media (RITC 78-6 and RITC 80-7) that support the growth in culture of human diploid fibroblasts to the same extent as Eagle's basal medium (BME) supplemented with 10% fetal bovine serum (FBS). These two media contain modified Eagle's minimum essential medium (MEM) supplemented with nonessential amino acids, various trace metals, organic compounds and growth factors [insulin, mouse epidermal growth factor (m-EGF), transferrin and triiodothyronine (T3)]. RITC 80-7 medium differs from RITC 78-6 in that it contains thymidine, hypoxanthine, and vitamin B12 and supports the long-term serial cultivation of human diploid cultures. The addition of commercial bovine serum albumin (BSA, 5 g/liter) to the medium enhances cell growth. This effect is not observed if BSA is first delipidized, but reconstitution of BSA with certain lipids restores its ability to promote growth. BSA has an inhibitory effect on cellular attachment but this is overcome when fibronectin (FN, 10 mg/liter is added to the medium.

Dose-dependent initiation of myogenesis by neurotrophic factor

The kinetics of primary chick muscle cells in response to partially purified neurotrophic factor (NTF) were investigated. Chick muscle cells are routinely plated in the absence of NTF but in the presence of horse serum to allow cell attachment to the substratum; a maximum number of cells attaches 5-8 hr after plating, but cells do not proliferate in the absence of NTF, or do so extremely slowly. Subsequent to a routine attachment period of 6 hr, the medium is aspirated and replaced with medium containing 2-20 micrograms/ml of NTF as well as horse serum. Dose responsiveness at elevated NTF concentrations is observed only if F12 medium, supplemented with serum, insulin, transferrin, and selenium is used. In the presence of commercial F10, although supplemented with serum, dose responsiveness is not apparent at more than 2 micrograms/ml of NTF. Upon exposure to NTF, in the presence of supplemented F12 and serum, an 8-hr lag ensues; then, thymidine is incorporated at NTF dose-dependent rates by growing cell populations. The rates of incorporation into cell populations depend on the initial number of cells plated and the amount of NTF supplied. Cell counting indicates that dose-dependent proliferation of muscle cells has occurred during the first 48 hr of exposure to NTF. The specific activity of NTF is repeatedly shown to be at least 10-fold greater than unfractionated nerve extract. Shortly after 48 hr of exposure to NTF, myoblasts characteristically begin to fuse with one another, and myogenesis is visible. These studies show that the initiation of in vitro myogenesis in primary chick muscle cells depends on the amount of NTF supplied. The work also indicates a requirement for optimum medium conditions in order to detect dose-responses to NTF.

Emergence of hamster fibroblast tumors in nude mice--evidence for in vivo selection leading to loss of growth factor requirement

The Chinese hamster lung fibroblast cell line (CC139) has high anchorage dependence for growth and has retained the high serum dependence of secondary cultures of adult fibroblasts. This cell line is tumorigenic in nude mice; however, the resulting tumor cells have different properties than those of the cell line injected. The tumor-derived cells had strongly reduced or even lost both the high anchorage and the high serum dependence of CC139 cells. This finding suggests that an in vivo selection is necessary for CC139 cells to acquire the malignant phenotype. After mutagenesis, which increases the frequency of CC139 colony formation in agarose up to 8-fold, we selected and analyzed 15 anchorage-independent colonies. No correlation between the colony-forming ability in agarose and serum-growth factor requirement for DNA synthesis was observed. Each of these clones were injected into nude mice and the growth factor dependence of the ensuing tumor cells was compared to that of corresponding injected cells. All of the anchorage-independent colonies with the exception of one (A71), had acquired in vivo a stable phenotype allowing for partial or total escape of growth factor requirement. A71, the only clone which maintained the same growth factor requirement after two passages in vivo (A71 T1 and A71 T2) had already gained, in vitro, the minimal growth factor "relaxation" compatible with in vivo growth. A71 and A71 T1 tumor cells arrested in G0/G1 can reinitiate DNA synthesis in the presence of mouse plasma, low concentrations of serum, or thrombin. The fact that none of the tumors analyzed (more than 20) were found to have retained the high serum dependence of CC139 cells strongly suggests that the partial loss of serum growth factor requirement acquired in vivo is an essential malignant character for bypassing the hormonal growth restraints imposed by the host upon CC139 cells.

Synergistic effects of epidermal growth factor and thrombin on the growth stimulation of diploid Chinese hamster fibroblasts

The serum supplement used in the culture of a variety of mammalian cells can be replaced by known growth factors. Diploid Chinese hamster fibroblasts (CHEF/18) will grow for several days in a medium (4F) supplemented with four growth factors: epidermal growth factor (EGF), insulin, fibroblast growth factor (FGF), and transferrin. The growth rate is only about 50% as fast as when fetal calf serum is added. This difference is eliminated by thrombin (10--100 ng/ml; 0.3--3 nM). The CHEF/18 cell line is unique in that no other cell line responds to thrombin in this concentration range. Thrombin acts synergistically with other growth factors to stimulate CHEF/18 cell growth. By itself, thrombin is only mitogenic at elevated concentrations. Thrombin can largely compensate for the absence of EGF and partly for the absence of insulin in serum-free media. Chemically and "spontaneously" transformed cell lines related to CHEF/18 have lost requirements for both EGF and thrombin, and have retained requirements for insulin and transferrin expressed by CHEF/18. No CHEF cells in this work required FGF. These results suggest that the mechanisms by which EGF and thrombin stimulate cells to grow are related.

Tranquillizers can block mitogenesis in 3T3 cells and induce differentiation in Friend cells

Compounds of diverse structure induce murine Friend erythroleukaemia (MEL) cell differentiation. Seeking a common property, Bernstein reported that the relationship between activity and octanol/water partition coefficients for inducers resembled that reported for anaesthetics; moreover, anaesthetics inhibited induction. Since anaesthetics were known to increase membrane fluidity, they suggested that inducers might decrease it. Reporting evidence against unitary theories of anaesthesia, Richards et al. suggested that lipophilic drugs competed, according to their individual structure, with membrane lipids for hydrophobic regions on membrane proteins. The antagonism between pairs of anaesthetics, anaesthetics and inducers and pairs of inducers, might thus be explained economically by Richards' anaesthesia model, inducers and lipophilic drugs acting by similar rather than contrary mechanisms. Lipophilic drugs should, therefore, induce differentiation. We report here that some tranquillizers do so. As reported elsewhere for classical inducers, they also block non-differentiating 3T3 cells in pre-S. These findings may have application in cancer chemotherapy.

Growth and G1 arrest of sarcoma virus trnasformed cells in serum free media

Rous-sarcoma transformed BHK cells can be continuously cultured in a medium containing Eagle's Minimal Essential Medium, iron and biotin. The rate of cell multiplication increased when serine, or serine plus other non-essential amino-acids were added to the medium. With biotin deleted from the medium there is a reduction in DNA synthesis and most cells are blocked in G1.

Transformed cells have lost control of ribosome number through their growth cycle

Previous studies on the synthesis and function of the protein synthetic machinery through the growth cycle of normal cultured hamster embryo fibroblasts (HA) were extended here to a series of four different clonal lines of polyoma virus-transformed HA cells. Under our culture conditions, these transformed cells could enter a stationary phase characterized by no mitotic cells, very low rates of DNA synthesis, and arrest in a post-mitotic pre-DNA synthetic state. Cellular viability was initially high in stationary phase but, unlike normal cells, transformed cells slowly lost viability. The rate of protein synthesis in the stationary phase of the transformed cells fell to 25-30% of the exponential rate. Though this reduction was similar to that seen in normal cells, it was accomplished by different means. The specific reduction in the ribosome complement per cell to values below that of any cycling cell seen in normal cells, was not seen in any of the transformed lines. This observation, which implies a loss of normal control of ribisome synthesis through the growth cycle after transformation, was confirmed in normal Chinese hamster embryo fibroblasts and transformed CHO cell lines. Normal control of ribosome synthesis was restored in L-73 and LR-73, growth control revertants of one of the transformed CHO lines. The transformed lines reduced their protein synthetic rates in stationary phase either by a greater reduction in the proportion of functioning ribosomes than that seen in normal cells or by a decrease in the elongation rate of functioning ribosomes; the latter effect was not seen in the normal cells. A model for growth control of normal cells and its derangement in transformed cells is presented.