Fibronectin Fibrils and Growth Factors Stimulate Anchorage-Independent Growth of a Murine Mammary Carcinoma

Stromal cells are important regulators of mammary carcinoma growth and metastasis. We have previously shown that a 3T3-L1 adipocyte cell line secretes hepatocyte growth factor (HGF), which stimulates proliferation of a murine mammary carcinoma (SP1) in monolayer cultures (DNA Cell Biol.13, 1189–1897, 1994). We now examine the role of growth factors and the extracellular matrix protein fibronectin in stimulation of anchorage-independent growth of SP1 cells. Purified transforming growth factor-β (TGF-β) stimulated significant colony growth in soft agar cultures, whereas HGF had a lesser effect. Analysis by confocal microscopy revealed that carcinoma cell colonies contained extracellular microfibrils composed of fibronectin. Partial depletion of fibronectin from 7% FBS/agar cultures reduced the number of colonies; colony growth could be recovered by adding back exogenous fibronectin. Addition of the 70-kDa N-terminal fragment of fibronectin, which inhibits fibronectin fibril formation, reduced growth of SP1 cell colonies, but an 85-kDa fragment containing the cell binding domain did not inhibit colony growth. These findings indicate that deposition of extracellular fibronectin fibrils is necessary, but not sufficient, for anchorage-independent growth of SP1 mammary carcinoma cells; growth factors are also required. SP1 cells had less fibronectin mRNA and secreted less fibronectin protein under anchorage-independent conditions than under anchorage-dependent conditions, as determined by Northern blotting and immunoprecipitation analysis. Thus, both growth factors (HGF and TGF-β) and fibronectin may be important regulators of paracrine stimulation by stromal cells of anchorage-independent growth of mammary carcinoma cells.     

The characteristics of an anchorage-independent clonal agar assay for primary explanted bovine granulosa cells

Normal, primary explanted, bovine granulosa cells grow reproducibly in agar culture as anchorage-independent clones. Epidermal growth factor (EGF) and rat erythrocytes are effective stimulators of colony formation, and when both are added to the culture medium at optimal concentrations, there is an enhancement of colony numbers and colony size, indicative of an independent, and operationally additive, mode of action for the two factors. The ability of cells propagated from agar clones to secrete progesterone, and to augment progesterone secretion 4-fold in the presence of 1 mM dbcAMP is proof that colonies originate from and are composed of functional granulosa cells. Maximal colony numbers are present at day 10 of incubation, and colony forming cells undergo self-renewal as assessed by the ability of cells from primary colonies to reclone in agar. Absolute cloning efficiency, however, is dependent on a number of factors. Inherent variability exists in cloning efficiency of granulosa cells from individual follicles. Quantitative and qualitative clonal growth was improved at an osmolality of less than 300 mOsm when compared with higher osmolalities. Cl-1 medium and the alpha modification of Eagle's medium were equally effective in supporting agar clonogenic growth, whereas both Ham's F12 and NCTC 135 media exhibited poor clonogenic growth supporting properties. The substitution of agarose for agar did not affect colony numbers but colonies grown in the presence of agarose tended to be smaller and more uniform in size.     

Effect of selective media on loss of congo red binding inShigella flexneri

Summary The effect of growth ofShigella flexneri on various selective media on retention of congo red (CR) binding ability was determined to evaluate the effectiveness of isolation techniques regarding maintenance of the virulence plasmid. WhenS. flexneri was surface-plated onto selective agars and the resulting colonies replica plated onto CR plates, no white colonies indicative of loss of virulence were found despite repeated trials. However, whenS. flexneri was grown in liquid media (agar was removed from agar-containing media by centrifugation), white colonies were found upon plating onto CR plates. Most common selective media for shigellae produced fewer than 5–10 white colonies/1000 red colonies. However, growth in broth prepared from violet red bile agar, desoxycholate citrate agar, and SS agar gave more than 100 white colonies/1000 red colonies. Loss of CR binding was demonstrated whenS. flexneri was grown in broth containing tergitol 7, sodium dodecyl sulfate, bile salts #3, crystal violet, eosin y or methylen blue. However, concentrations of selective agents that led to loss of CR binding were much higher than those used in selective media. Results indicate that under usual conditions of isolation ofS. flexneri from food and clinical specimens, CR binding appears to be a relatively stable character with most selective media; however, use of violet red bile agar, desoxycholate citrate agar, and SS agar may lead to substantial loss of congo red binding indicating that the isolates may not be virulent.     

Transformation of mammalian fibroblasts and macrophages in vitro by a murine retrovirus encoding an avian v-myc oncogene

A murine retrovirus which expresses the avain v-myc OK10 oncogene was constructed. The virus, denoted MMCV, readily transforms fibroblasts of established lines, such as mouse NIH/3T3 and rat 208F cells, to anchorage-independent growth in agarose. The virus also transforms primary mouse cells: (i) virus-infected macrophages are induced to form large colonies in semi-solid media, and can easily be expanded into mass cultures; (ii) MMCV-infected fibroblastic cells from mouse limb buds undergo morphological transformation and grow in semi-solid medium. MMCV thus transforms both mouse fibroblastic cells and macrophages in vitro, in a fashion similar to the v-myc-containing avian viruses in chicken cells. The possibility of introducing a transforming myc gene into mammalian cells by virus infection provides a novel approach for studying the mechanism of myc transformation in cells from many lineages.     

Megakaryocyte colony culture using a liver cell conditioned medium

Megakaryocyte colonies may now be grown in semi-solid agar, agarose, and plasma clot systems using a variety of conditioned media. These include mitogen activated mouse spleen cells, L-cells (fibroblasts), and a myelomonocytic cell line. To these is now added a conditioned medium from BRL-3A, a rat liver cell line. Megakaryocytes show full maturation to cytoplasmic fragmentation in this system. It is suggested that colony stimulating factor for megakaryocytes may come from a variety of sources; the relationship of any of these to the physiological regulator or regulators remains quite unknown.     

Transformed growth phenotype of mouse mammary epithelium in primary culture induced by specific fetal mesenchymes.

When mesenchyme from fetal mammary or salivary gland is implanted into adult mouse mammary gland, adjacent epithelium responds with intense hyperplasia. The hyperplastic cells are more vulnerable than are non-stimulated cells to transformation in vivo by a chemical carcinogen or by mammary tumor virus. This system provides a potentially useful model for determining how stroma contributes to mammary tumorigenesis. We have developed co-culture systems and used them to investigate in more detail the nature of the signal produced by the mesenchyme cells. Monolayers of mesenchyme cells were prepared on tissue-culture wells. The mesenchyme cells were trapped on the surface by a thin overlay of agarose. Primary mammary epithelial cells were cultured atop this barrier layer, either as organoids in collagen gels for assessment of anchorage-dependent growth, or as single-cell dispersions in soft agarose for assessment of anchorage-independent growth. Our procedures for assay of anchorage-independent growth allow us for the first time to detect and measure this transformation-defining characteristic in non-immortalized mammary epithelial cells in primary culture. Fetal mammary fat pad precursor tissue and fetal salivary mesenchyme both stimulated anchorage-dependent growth of mammary epithelium, with cell number increasing as much as fifteenfold during a 6-day culture period. These same fetal tissues also stimulated anchorage-independent growth of the mammary epithelial cells, with colony-forming efficiencies of up to 40% in co-cultures with salivary mesenchyme. No colonies formed in the absence of mesenchyme. Cells of colonies contained keratin, which indicates that the colonies grew from epithelial cells and not from a contaminant of another cell type. When co-cultured epithelial cells were subsequently re-cultured in the absence of mesenchyme, they lost their ability to grow independent of anchorage. No colonies grew in co-cultures with fetal cells from heart, kidney, or lung, which is consistent with the lack of stimulation by these tissues in the mammary gland in vivo. A tumor promoter, 12-O-tetradecanoylphorbol acetate (TPA), also caused anchorage-independent growth of the dispersed mammary epithelial cells. Culture medium conditioned by primary or early-passage salivary mesenchyme cells was capable of stimulating growth under both anchorage-dependent and anchorage-independent conditions, confirming that these effects are mediated by a paracrine factor. The results indicate that stimulatory fetal mesenchymes produce soluble molecules that act analogously to transforming growth factors.     

Callus regeneration from Trifolium subterraneum protoplasts and enhanced protoplast division by low-voltage treatment and nurse cells

Seedling and suspension culture protoplasts of subterranean clover (Trifolium subterraneum L.) were successfully cultured in semi-solid drops of calcium alginate and ultrafiltered liquid medium. Protoplast-derived subterranean-clover colonies developed as the osmolality was lowered over three steps. Callus was established from these colonies. Calli derived from protoplasts have failed to regenerate on a range of media. The frequency of dividing subterranean-clover protoplasts was increased in the presence of lucerne (Medicago sativa L.) nurse cells. Low-voltage treatments (200 mV) for the first 16–132 hours of culture also resulted in a 100% increase in the frequency of dividing protoplasts.     

Isolation of clones of hamster embryo cells transformed by the bovine papilloma virus

Primary hamster embryo cells infected with bovine papilloma virus (BPV) or treated with BPV DNA-calcium phosphate precipitates showed striking morphological alterations characteristic of transformed cells. Long, spindle-shaped cells grew into dense foci, eventually overgrowing monolayers of normally shaped cells. Samples of these cells were tested for anchorage-independent growth in dilute agarose medium. Cells were able to grow in agarose to form colonies which, when removed from agarose and transferred to liquid medium, established clones. Mockinfected cultures inoculated with plain medium displayed normal cell morphology and growth properties. This is the first report of BPV-transformed cells demonstrating anchorage-independent growth in agarose and the establishment of BPV transformed clones.     

Efficiency of various selective media in determining Pythium population in soil

Of 15 selective media recommended for isolation and enumeration ofPythium spp. directly from soil, corn meal agar (CMA) supplemented with agar, sucrose, minor elements, thiamine, rose bengal, pimaricin, pentachloronitrobenzene and vancomycin (MPVM) was the most efficient. Streptomycin (30–50 ppm) and rose bengal (33–60 ppm) as used in certain tested media effectively suppressed development of bacteria and actinomycetes. However, these chemicals adversely affected germination of spores and mycelial growth and thereby the recovery ofPythium spp. from soil. Media containing pimaricin (5 to 100 ppm) were more effective than those with nystatin (40 ppm) in suppressing development of nonphycomycetous fungi on isolation plate. MPVM with pimaricin at 5 ppm was more efficient than that with 10 ppm of the antibiotic in recoveryingPythium from soil. However, there was no difference in recovery ofPythium by this medium containing rose bengal at 5 ppm or at 10 ppm, butPythium colonies were more dense and better delineated when the medium contained 10 ppm of rose bengal. CMA containing pimaricin (5–100 ppm) and vancomycin (200 ppm) permitted occasionally development of a large number ofMortierella and bacterial colonies from certain soils, that interfered with accurate determination of colonies of certainPythium spp. on the plates. Vancomycin at 300 ppm, as used in MPVM, substantially reduced development of bacterial colonies compared to 200 ppm of the antibiotic. Surface-soil dilution-plate was more effective than the soil-dilution-plate method in reducing bacteria andMortierella colonies on isolation plates without affecting recovery ofPythium. The importance of basal medium, complement of antimicrobial agents, and isolation methods for efficiency of selective medium in recovery ofPythium spp. directly from soil is discussed.     

The influence of gelling agent purity and ion additions on in vitro tomato pollen germinability and pollen tube growth on semi-solid substrates

The physicochemical properties and inherent ion content of the gelling agents used for the preparation of semi-solid substrates significantly affect the germination of tomato pollen in vitro. The addition of Ca, K and Mg to semi-solid, agar-based, substrates improved the germination of tomato pollen when the inherent Ca content of the agar was low, but was without effect or even inhibitory when the Ca level was high. However, Κ and/or Mg addition was beneficial irrespective of the agar source. When agarose replaced agar and K, Mg and Ca were added individually or in combination, pollen germination and pollen tube growth were affected differently by each ion but were optimal only in the presence of all three ions, reflecting the absence of these ions in agarose. An involvement of Na was also implicated since reduction of the inherently high Na content of agar by washing improved germination, with or without the addition of Κ, Mg and Ca. Since >3 mM Ca in the semi-solid substrate impairs tomato pollen germination, the gelling agent must be of high purity, which in the case of agar may entail washing, followed by the addition of K, Mg and Ca. The adoption of such a medium would permit the standardization of semi-solid substrates for in vitro tomato pollen germination studies.     

Influence of Structural Properties and Kinetic Constraints on Bacillus cereus Growth

The influence of structural properties and kinetic constraints on the behavior of Bacillus cereus was investigated on agar media. Dimensional criteria were used to study the growth in bacterial colonies. The architecture of the agar gel as modified by the agar content was found to influence the colony size, and smaller colonies were observed on media containing 50 to 70 g of agar liter⁻¹. Except at low nutrient levels, colonies responded to nutrient gradients by decreasing in size the farther away they were from the nutrient source, and the decrease in colony size was influenced by the agar content. The diffusivities of glucose and a protein (insulin-like growth factor) were not affected by the gel architecture, suggesting that other factors, such as mechanical factors, could influence microbial growth in the agar systems used. Increasing the viscosity of the liquid phase of the agar media by adding polyvinylpyrrolidone resulted in a reduction in colony size. When the agar concentration was increased, the colony areas were not influenced by the viscosity of the system.     

Kinetics of the clonal proliferation of granulocytes and macrophages in cultures of mouse bone marrow cells as supported by two distinct types of colony-stimulating factors

Two different types of colony-stimulating factors (CSF) were used to support the clonal growth of myeloid progenitor cells (CFUc) in semi-solid agar or viscous methylcellulose cultures of mouse bone marrow cells. The cultures stimulated for 5 days with RSP-2-P3 cell CSF (CSFRSP) contained mainly granulocyte colonies, whereas the cultures stimulated for 10 days with human urine CSF (CSFhu) contained mainly monocyte/macrophage colonies. Four lines of study were carried out: 1) a kinetic study using combinations of the two types of CSFs in the same culture; 2) a study of transferring CFUc from the initial 3-day cultures to recipient cultures containing the same or different types of CSF; 3) an examination of the morphology over time of colonies that were confined by glass capillaries plunged in agar; and 4) electron microscopic observations on disintegrating granulocytes. The results of all these lines of study suggest that about one third of the CFUc can be stimulated both by CSFRSP and CSFhu while the other two thirds react specifically either with CSFRSP or with CSFhu. The present study also suggests that granulocytes in the culture stop proliferation and disintegrate while macrophages are still growing there. Thus, mixed-type colonies containing both macrophages and granulocytes later become macrophage colonies.     

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.     

Effects of epidermal growth factor and transforming growth factor-beta 1 on rat heart endothelial cell anchorage-dependent and -independent growth

This report describes the effects of epidermal growth factor (EGF) and transforming growth factor-beta 1 (TGF-beta 1) on the anchorage-dependent and -independent growth of rat heart endothelial cells (RHE-1A). When RHE-1A cells were grown in monolayer culture with medium containing 10% fetal bovine serum (FBS) supplemented with epidermal growth factor (0.1-100 ng/ml), growth was stimulated fivefold when compared to that of cells grown in medium containing 10% FBS alone. The stimulatory effect of EGF on RHE-1A cell monolayer growth was dose-dependent and half-maximal at 5 ng/ml. The addition of TGF-beta 1 in the range 0.1-10 ng/ml had no effect on RHE-1A cell monolayer growth when added to medium containing 10% FBS alone or 10% FBS supplemented with EGF (50 ng/ml). RHE-1A cells failed to grow under anchorage-independent conditions in 0.3% agar medium containing 10% FBS. In the presence of EGF, however, colony formation increased dramatically. The stimulatory effect of EGF was dose-dependent in the range 0.1-100 ng/ml and was half-maximal at 5 ng/ml. In contrast to its effects under anchorage-dependent conditions, TGF-beta 1 (0.1-10 ng/ml) antagonized the stimulatory effects of EGF on RHE-1A cell anchorage-independent growth. The inhibitory effect of TGF-beta 1 was dose-dependent and half-maximal at 0.1 ng/ml. EGF-induced RHE-1A soft agar colonies were isolated and reinitiated in monolayer culture. They retained the cobblestone morphology and contact-inhibition characteristic of normal vascular endothelial cells. Each of the clones continued to express Factor VIII antigen. These findings suggest that TGF-beta may influence not only endothelial cell proliferation but also anchorage dependence. These effects may in turn be of relevance to endothelial cell growth and angiogenesis in vivo.     

Analysis of human ascites effect on clonogenic growth of human tumor cell lines and NRK-49F cells in soft agar

We studied the factors that control the capacity of tumor cells to grow in soft agar. And, we analyzed the effect of cell-free ascites (CFA) obtained from ovarian cancer patients in combination with various media on the cloning efficiency of H-134 and OVCAR-3nu ovarian carcinoma cell lines and the WiDr colon carcinoma cell line. Seven batches of CFA consistently enhanced the soft agar growth of tumor cells more efficiently than tested sera. The addition of charcoal-treated bovine serum albumin (BSA) lowered the amount of CFA required for optimal tumor cell growth. As little as 1.25 ng of epidermal growth factor (EGF)/ml further improved OVCAR-3nu soft agar growth in combination with all of the amounts of CFA tested. Thus, neither BSA nor EGF seems to account for the colony-stimulating effect of ascites on tumor cells. Four batches of CFA were tested for stimulating soft agar growth of normal rat kidney (NRK-49F) fibroblasts; all induced colonies of different morphologies. This effect was potentiated by EGF, which suggests the presence of several transforming growth factor-like activities in CFA. The results show that differences in cloning efficiency of tumor cells of one or two orders of magnitude can be found between standard (anchorage-dependent growth-supporting) media and media optimalized for soft agar growth, such as CFA in the presence of EGF. This paper will discuss the similarity in effects of CFA on various tumor cells and NRK cells, and possible implications of the stimulatory effects of CFA.     

Oligotrophic Bacterioplankton with a Novel Single-Cell Life Strategy

A large fraction of the marine bacterioplankton community is unable to form colonies on agar surfaces, which so far no experimental evidence can explain. Here we describe a previously undescribed growth behavior of three non-colony-forming oligotrophic bacterioplankton, including a SAR11 cluster representative, the world's most abundant organism. We found that these bacteria exhibit a behavior that promotes growth and dispersal instead of colony formation. Although these bacteria do not form colonies on agar, it was possible to monitor growth on the surface of seawater agar slides containing a fluorescent stain, 4′,6′-diamidino-2-phenylindole (DAPI). Agar slides were prepared by pouring a solution containing 0.7% agar and 0.5 μg of DAPI per ml in seawater onto glass slides. Prompt dispersal of newly divided cells explained the inability to form colonies since immobilized cells (cells immersed in agar) formed microcolonies. The behavior observed suggests a life strategy intended to optimize access of individual cells to substrates. Thus, the inability to form colonies or biofilms appears to be part of a K-selected population strategy in which oligotrophic bacteria explore dissolved organic matter in seawater as single cells.     

Behavior of transforming growth factors in serum-free media: An improved assay for transforming growth factors

Summary Transforming growth factors (TGFs) are a relatively new category of factors that induce the anchorage-independent growth of non-transformed cells. These factors are usually detected by their ability to induce normal rat kidney (NRK) fibroblasts to grow in soft agar. Until now, this assay has been performed in serum-containing medium (SCM). Unfortunately, the background activity of this assay is variable and dependent on several factors, including passage number of the cells and the serum lot used. Furthermore, the addition of either EGF or TGF-β alone results in the appearance of additional colonies, which decreases the sensitivity of the assay. To circumvent these problems, serum-free media have been developed that support the growth of the NRK cells at low density in both monolayer culture and soft agar. Long-term growth in monolayer cultures occurs in serum-free medium supplemented with laminin, insulin, transferrin, epidermal growth factor (EGF), fibroblast growth factor (FGF) and high density lipoprotein (HDL). Growth in soft agar occurs when TGFs are added to a serum-free medium, AIG medium, that contains insulin, transferrin, FGF and HDL. In contrast to the background activity observed when the assay is performed in SCM, no colonies form in the AIG medium unless TGFs are added and few, if any, colonies form if EGF or TGF-β are added alone. Thus, the AIG medium provides an improved assay for TGFs. In addition, the AIG medium should prove useful for examining other factors, including serum factors, for TGF activity. Editor's Statement This communication describes a modification of the standard assay for transforming growth factors. The techniques employed make use of advantages provided by recent advances in serum-free cell culture to provide a well-defined detection system that is more sensitive than conventional procedures. Experimental approaches described in this article also should be helpful in unraveling differences in cellular behavior encountered under anchorage-dependent vs. anchorage-independent conditions. D. W. Barnes     

The proliferation of human tumor cell lines in the presence of different agars,agaroses, and methyl cellulose

Summary Human tumor cell lines, derived from cancers of the colon, ovary, and cervix, were grown in liquid tissue culture media and media made semisolid with agar (Bacto & deoxycholate lactose agar), agarose [LE, ME, Sea Plaque and Sea Prep (15/45)], and methyl cellulose. The effects of each agent on overall cell proliferation and rate of overall cell proliferation were examined. The agents, used to make media semisolid, were observed to inhibit or, in some cases, enhance cell growth in a fashion that was characteristic of individual cell lines. These phenomena may be of consequence to the optimization of nutrient media for primary tumor cell preparations. This work was supported by the Veteran's Administration.