Adipocyte conversion of CHEF cells in serum-free medium

When grown in the presence of serum with added insulin, Chinese hamster embryonic fibroblasts (CHEF/18) cells can be induced to become preadipocytes that are committed to the adipocyte pathway of terminal differentiation (Sager, R., and P. Kovac, 1982, Proc. Natl. Acad. Sci. USA, 79:480-484). We found that commitment to the adipocyte pathway, as well as terminal differentiation to form mature adipocytes, can occur in a defined serum-free medium containing insulin. When CHEF/18 cells are plated in serum-containing medium, only 5-10% of cells in each colony undergo terminal differentiation, whereas in serum-free medium, greater than 90% of the cells became adipocytes. These and other results show that CHEF/18 cells require no adipogenic factors in addition to insulin and the other components of the serum-free medium (transferrin, epithelial growth factor, thrombin) to form adipocytes, and furthermore, that serum inhibits the rate of terminal adipocyte differentiation of these cells. As little as 10 ng/ml insulin added to serum-containing medium can induce adipogenesis, suggesting that insulin rather than an insulinlike growth factor is the active agent. The results further demonstrate that virtually every CHEF/18 cell can be induced into the adipocyte pathway.     

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.     

Maintenance of the keratocyte phenotype during cell proliferation stimulated by insulin

Keratocytes normally express high levels of aldehyde dehydrogenase and keratocan. They proliferate and lose their keratocyte markers when they become fibroblastic during corneal wound healing. Keratocytes cultured in fetal bovine serum also become fibroblastic, proliferate, and lose these markers. In this report, we studied the effects of three serum growth factors, fibroblast growth factor-2, insulin, and platelet-derived growth factor-BB, on keratocyte proliferation and the maintenance of the keratocyte markers in 7-day cultures in cells plated at low (5,000 cells/cm2) and high (20,000 cells/cm2) density in serum-free medium. Keratocyte proliferation was measured by [3H]thymidine incorporation and by DNA content of the cultures. Cytosolic aldehyde dehydrogenase and keratocan accumulated in the medium were quantified by Western blot. The results showed that all the growth factors stimulated proliferation, but insulin stimulated proliferation more consistently. The keratocyte markers aldehyde dehydrogenase and keratocan were maintained after 7 days in culture in all growth factors, but keratocyte cell morphology was only maintained in medium containing insulin. Most of the proteoglycans were degraded in cultures of keratocytes plated at low density and cultured in the absence of growth factors. This degradation was prevented when keratocytes were cultured in the presence of the growth factors or when keratocytes were plated at high density. The results of this study show that insulin can expand keratocytes in vitro, maintain their phenotype, and prevent proteoglycan degradation.     

A new serum-free method of measuring growth factor activities for human breast cancer cells in culture

Summary Growth of the MCF-7, T47D, and ZR-75-1 human breast cancer cells was established in a serum-free defined medium (MOM-1) composed of a 1∶1 (vol/vol) mixture of Ham's F12 medium and Dulbecco's modified Eagle's medium containing 15 mM HEPES (pH 7.2), 2 mM 1-glutamine, 20 μg/ml glutathione, 10 μg/ml insulin, 10 μg/ml transferrin (Tf), 10 ng/ml selenous acid, 0.3 nM triiodothyronine, 50 μg/ml ethanolamine, 20 ng/ml epidermal, growth factor, 2.0 nM 17β-estradiol, and 1.0 mg/ml bovine serum albumin (BSA). Proliferation in MOM-1 was 50 to 70% of the serum stimulated rate. Deletion of components from MOM-1 gave a medium (Tf-BSA) containing only HEPES, 10 μg/ml Tf, and 200 μg/ml BSA, which sustained MCF-7 and T47D cells in a slowly dividing and mitogen responsive state; ZR-75-1 cells required Tf plus 1.0 mg/ml BSA. In Tf-BSA, insulin and insulin-like growth factor I(IGF-I) were mitogenic with ED₅₀ values of 2 to 3 ng/ml and 30 to 150 pg/ml, respectively, with MCF-7 cells. The T47D cells were responsive to these factors in Tf-BSA but required 10-fold higher concentrations for ED₅₀. At saturating concentrations, insulin and IGF-I promoted 1.5 to 3.5 cell population doublings over controls in 8 d. At≤ng/ml concentrations, epidermal growth factor, insulin-like growth factor II, and basic fibroblast growth factor were mitogenic for human breast cancer cells in Tf-BSA. Mitogen activities in uterus and pituitary extracts were assayed readily in Tf-BSA. This new method offers a convenient means of comparing the potencies of growth-promoting factors on human breast cancer cells without interfering activities known to be present in serum. This work was supported by grants CA-38024 and CA-26617, from the National Cancer Institute, Bethesda, MD, and by American Cancer Society grant BC-255 and grant 2225 from the Council for Tobacco Research, USA, Inc.     

Oestradiol treatment increases the sensitivity of MCF-7 cells for the growth stimulatory effect of IGF-I

MCF-7 cells were grown in serum free medium (Dulbecco MEM without phenol red, supplemented with Costar SF-1 without insulin). Insulin was added as required and gave dose dependent growth stimulation at concentrations between 5 and 10,000 nM. Identical growth response curves were obtained for thymidine uptake and cell number. Oestradiol and insulin-like growth factor I (IGF-I) added individually both gave a dose dependent stimulation of cell growth in serum free medium containing 50 nM insulin. The growth stimulatory effect of oestradiol was to a large extent inhibited with suramine, a general inhibitor of growth factors, indicating that the effect of oestradiol was mediated through stimulating autocrine secretion of a growth factor.

To investigate a possible link between the effects of oestradiol and IGF-I, a specific IGF-I receptor antibody (IR-3), 10 μg/ml was used. These experiments were carried out with 2.5 nM insulin in the medium, a concentration at which insulin had no growth stimulatory effect. Stimulation was carried out for 18 h before assay of thymidine uptake. The effect of oestradiol was not significantly reduced by IR-3, indicating that IGF-I was not an autocrine mediator of oestradiol stimulation of cell growth under these conditions, whereas IR-3 extensively reduced growth stimulation by IGF-I. On long term stimulation (5 days) oestradiol had a marked stimulatory effect on cell number and IR-3 almost totally abrogated this effect. When oestradiol (1 nM) and IFG-I (2.5 nM) were added together, the combined effect on thymidine incorporation and cell number was significantly greater than additive. This synergistic effect on the IGF-I growth response was totally abolished by the IGF-I receptor antibody. The results suggest a cooperative interaction of oestradiol and IGF-I. It is concluded that growth stimulation of MCF-7 cells by long term treatment with oestradiol may be mediated through autocrine secretion of IGF-I.

The effect of short term stimulation of thymidine incorporation suggest that the growth response of oestradiol is more complex, and indicate that a cooperative interaction with IGF-I is involved, which is unrelated to stimulated autocrine secretion.     

Stimulation of growth of human breast cancer cell lines in culture by linoleic acid

Linoleic acid, an omega-6 unsaturated fatty acid, stimulated growth of the MDA-MB-231 and MCF-7 human breast cancer cell lines in culture. Responses of the estrogen-independent MDA-MB-231 cells both in serum-free medium and with 1% fetal bovine serum added were positively correlated with linoleic acid concentration over the entire range examined (5-750 ng/ml). Growth stimulation of the estrogen-responsive MCF-7 cell line was maximal at a LA concentration of 500 ng/ml when cultured in 1% fetal bovine serum-containing medium with added estradiol. Linoleic acid had no mitogenic effect on three human cancer cell lines derived from sites other than breast, or on untransformed 3T3 cells.     

Isolation of human Leydig cell mesenchymal precursors from patients with the androgen insensitivity syndrome: testosterone production and response to human chorionic gonadotropin stimulation in culture.

Mature Leydig cells, the main source of testicular testosterone in mammals, arise from immature mesenchymal precursors through an LH-dependent differentiation process. In order to study the steroidogenic potential of these precursors, undifferentiated mesenchymal cells were obtained from the testicular interstitium of two patients with androgen insensitivity syndrome. After double digestion with collagenase and separation of the suspensions in a Percoll density gradient, the cells were cultured in Ham's F12 medium: Dulbecco's Modified Eagle Medium (1:1) supplemented with antibiotics, transferrin, insulin, hydrocortisone, and vitamin E with or without 1 IU of hCG/ml. At 11 days in culture, samples were removed for morphological characterization and determination of 3 beta-hydroxysteroid dehydrogenase activity (3 beta-HSD). Testosterone concentration was determined by RIA in the culture medium at different intervals. Cultured cells were mesenchymal in appearance, elongated in shape, with numerous processes running in different directions. No mature Leydig cells were present. In basal conditions, the percentages of 3 beta-HSD-positive cells at 11 days on patients 1 and 2 were 33% and 28%, respectively, and the testosterone concentrations in the culture media were 4.8 and 8.4 ng.10(6) cells.24 h, respectively. In cultures stimulated with hCG, there was an increase of histochemical reactivity (47% and 42% in patients 1 and 2, respectively) and in the amount of testosterone secreted (10.2 and 12.0 ng.10(6) cells, respectively). Electron microscopic studies of cultures grown in the absence of hCG demonstrated a homogenous population of poorly differentiated, fibroblastic-type mesenchymal cells.(ABSTRACT TRUNCATED AT 250 WORDS)     

Polyamine requirement for prolactin action on macromolecular synthesis in the MCF-7 human mammary epithelial cell line

The actions of insulin, hydrocortisone, prolactin and growth hormone on the synthesis of macromolecules in MCF-7 cells was determined in a serum-free defined medium. The inclusion of the polyamine spermidine in the medium was shown to enhance the insulin stimulation of the rate of [3H]uridine incorporation into RNA in a manner similar to that demonstrated for hydrocortisone. Spermidine, in addition to insulin and hydrocortisone, was also essential for prolactin to manifest a stimulation of the rate of [3H]uridine incorporation; this effect of spermidine was optimal with spermidine concentrations between 1 and 5 mM. Prolactin also stimulated the rate of [3H]leucine incorporation into total cellular protein and into an isoelectrically precipitable (pH 4.6) phosphoprotein fraction. The actions of prolactin on total protein and phosphoprotein synthesis were only expressed if spermidine, in addition to insulin and hydrocortisone, was contained in the culture medium. All of the prolactin responses were observed employing physiological concentrations of prolactin. Specificity of the prolactin responses was established by demonstrating that porcine growth hormone had no effects on RNA or phosphoprotein synthesis in the MCF-7 cells.     

The effect of physiological concentrations of sex hormones,insulin, and glucagon on growth of breast and prostate cells supplemented with unmodified human serum

The majority of cell culture studies have assessed the effect of hormones on cancer cell growth using media supplemented with charcoal-treated fetal bovine serum (CTS). We aimed to determine whether using a system more reflective of the human condition by changing the charcoal-treated serum to an untreated pooled human serum (PHS) resulted in the same hormone responses in breast and prostate cell lines. MCF-7 breast cancer, MCF-10A non-transformed breast, and LNCaP prostate cancer cell lines supplemented with PHS were treated with high and low physiological concentrations of six hormones (17β-estradiol, dehydroepiandosterone (DHEA), dihydrotestosterone (DHT), testosterone, insulin, and glucagon). Cell growth was measured after 72 h of incubation. All hormones stimulated growth of MCF-7 cells (p < 0.05). MCF-10A cell growth was inhibited by DHEA, DHT, and testosterone (p < 0.05), unaffected by 17β-estradiol and glucagon, and stimulated by insulin (p < 0.05). LNCaP cell growth was stimulated by the highest concentration of DHEA and DHT (p < 0.05) and inhibited by the highest concentration of 17β-estradiol (p < 0.05), while insulin and testosterone, had no effect. Overall, PHS lowered the magnitude of the effect of hormones on cell growth in comparison to CTS. Due to the presence of all serum constituents, our model represents a more appropriate physiological environment for determining the effect of hormones on cancer cell growth. Further studies are required to determine the mechanisms by which added hormones interact with the constituents of untreated human serum.     

Direct analysis of growth factor requirements for isolated human fetal hepatocytes

Summary Hepatocytes were isolated from human fetal liver in order to analyze the direct effects of growth factors and hormones on human hepatocyte proliferation and function. Mechanical fragmentation and then dissociation of fetal liver tissue with a collagenase/dispase mixture resulted in high yield and viability of hepatocytes. Hepatocytes were selected in arginine-free, ornithine-supplemented medium and defined by morphology, albumin production and ornithine uptake into cellular protein. A screen of over twenty growth factors, hormones, mitogenic agents and crude organ and cell extracts for effect on the stimulation of hepatocyte growth revealed that EGF, insulin, dexamethasone, and factors concentrated in bovine neural extract and hepatoma cell-conditioned medium supported attachment, maintenance and growth of hepatocytes on a collagen-coated substratum. The population of cells selected and defined as differentiated hepatocytes had a proliferative potential of about 4 cumulative population doublings. EGF and insulin synergistically stimulated DNA synthesis in the absence of other hormones and growth factors. Although neural extracts enhanced hepatocyte number, no effect on DNA synthesis of neural extracts or purified heparin-binding growth factors from neural extracts could be demonstrated in the absence or presence of defined hormones, hepatoma-conditioned medium or serum. Hepatoma cell-conditioned medium had the largest impact on both hepatocyte cell number and DNA synthesis under all conditions. Dialyzed serum protein (1 mg/ml) at 10 times higher protein concentration had a similar effect to hepatoma cell-conditioned medium (100 μg/ml). The results suggest that hepatoma cell conditioned medium may be a concentrated and less complicated source than serum for purification and characterization of additional normal hepatocyte growth factors. This work was supported by NIH grant DK35310. Editor’s statement Many investigators have struggled with the special problems associated with culture of differentiated hepatocytes. In this paper attention is given to the specific growth factor requirements for fetal human hepatocytes. The observation that factors from hepatoma conditioned medium or neural extracts enhanced the growth of the cells may indicate that additional growth factors are to be identified that are important in the survival and proliferation of hepatocytes, and may also indicate that the malignant transformation of these cells may involve the production of autocrine growth stimulators.     

Comparative studies on the effects of steroidal and nonsteroidal oestrogen antagonists on the proliferation of human breast cancer cells

Pure and partial agonist antioestrogens, exemplified by ICI 164,384 and tamoxifen or 4-hydroxytamoxifen (4'-OHT) respectively, differ in their capacity to inhibit the growth of MCF-7 human breast cancer cells. Under basal conditions which maintain but do not permit proliferation of MCF-7 cells, growth rate was enhanced by oestradiol, Phenol Red, insulin and 4'-OHT but not by ICI 164,384. Oestradiol and insulin together enhanced cell growth rate synergistically. 4'-OHT, but not ICI 164,384, similarly increased insulin-stimulated cell growth in the absence of oestradiol. ICI 164,384 blocked the stimulatory action of 4'-OHT. The stimulatory effect of the peptide growth factors TGF-alpha and IGFI on MCF-7 cells were attenuated by ICI 164,384 and 4'-OHT; ICI 164,384 was more effective than 4'-OHT. The antiproliferative action of ICI 164,384 on oestradiol or growth factor stimulated MCF-7 cells was only weakly inhibited by TGF-beta antibodies.     

Protein kinase C is differentially regulated by thrombin, insulin, and epidermal growth factor in human mammary tumor cells

The exposure of serum-deprived mammary tumor cells MCF-7 and T-47D to insulin, thrombin, and epidermal growth factor (EGF) resulted in dramatic modifications in the activity and in the translocation capacity of protein kinase C from cytosol to membrane fractions. Insulin induces a 600% activation of the enzyme after 5 h of exposure to the hormone in MCF-7 cells; thrombin either activates (200% in MCF-7) or down-regulates (in T-47D), and EGF exerts only a moderate effect. Thus, the growth factors studied modulate differentially the protein kinase C activity in human mammary tumor cells. The physiological significance of the results obtained are discussed in terms of the growth response elicited by insulin, thrombin, and EGF.     

The regulation of oestrone sulphate formation in breast cancer cells.

The formation of oestrone sulphate has been examined in MCF-7 (oestrogen receptor positive, ER+) and MDA-MB-231 (ER negative, ER-) breast cancer cells. Using intact cell monolayers and a physiological substrate concentration, progesterone (1 microM) and dexamethasone (1 microM) both increased oestrone sulphate formation in MCF-7 cells. In MDA-MB-231 cells, dexamethasone, but not progesterone, increased conjugate formation. A number of growth factors, cytokines and human serum albumin (HSA), which have previously been found to regulate oestrogen synthesis, were also examined for their ability to regulate oestrone sulphate formation. In MCF-7 cells epidermal growth factor, acidic and basic fibroblast growth factors, insulin-like growth factor-type I and insulin all stimulated oestrone sulphate formation. The cytokines, tumour necrosis factor alpha (TNFalpha) and interleukin-1beta also increased conjugate formation in the ER+ cells, as did HSA. In contrast, in MDA-MB-231 cells TNFalpha was without effect and HSA inhibited oestrone sulphate formation. The ability to modulate oestrone sulphate formation in ER+ cells may be an important mechanism to limit the availability of oestrogen to interact with the ER.     

Comparison of exogenous growth stimuli for chemically transformed cells: growth factors, serum and cocultures

Rat tumor cells isolated from 2 fibrosarcomas which differed in their degree of differentiation were exposed to growth-stimulating influences in soft agar. The effects of growth factors (epidermal growth factor, fibrosarcoma growth factor and insulin), of fetal calf serum and of cocultured normal mesenchymal cells of rats and nude mice were compared. Each of the 3 growth factors exerted a specific response and dose dependence. Increasing concentrations of serum stimulated the number of cells which formed clones in soft agar. Experiments using combinations of growth factors and fetal calf serum demonstrated that a complex optimal mixture of growth stimuli was responsible for the efficient growth-promoting activity of the serum. In cocultures with normal cells, cloning efficiency of tumor cells was enhanced and growth of tumor cells was accelerated. This stimulus was due to the constant release of an agar-diffusible growth-stimulating factor by the normal, nondividing cells. Cocultured mouse cells showed an even higher growth-stimulating activity than rat fibroblasts. Cells obtained from the poorly differentiated fibrosarcoma responded, in relative terms, better to all growth-stimulating influences, than those derived from the well-differentiated tumor.     

Growth-stimulatory effects of androgen, high concentration of glucocorticoid or fibroblast growth factors on a cloned cell line from Shionogi carcinoma 115 cells in a serum-free medium

The effects of various kinds of growth factors or steroids on the proliferation of Shionogi carcinoma 115 (SC115) cells were investigated in cell culture. In a serum-free medium [Ham's F-12:Eagle's minimum essential medium (1:1, vol/vol) containing 0.1% bovine serum albumin], the proliferation of SC-3 cells (a cloned cell line from SC115 cells) estimated by [3H]thymidine incorporation into DNA and cell number reached a plateau at 10(-8) M testosterone (up to 200-fold), 10(-7) M dexamethasone (up to 30-fold) or 1 ng/ml of fibroblast growth factors (FGF; up to 50-fold). However, the proliferation in the serum-free medium was not significantly stimulated by the addition of low to very high concentrations of progesterone, oestradiol-17 beta, epidermal growth factor, platelet derived growth factor or insulin; transforming growth factor beta slightly stimulated the growth (up to 5-fold) but markedly inhibited the growth stimulation induced by testosterone. Furthermore, an epithelial appearance of SC-3 cells grown in the absence of growth factors or steroids was changed to a fibroblast-like appearance only by the addition of testosterone, high concentrations of dexamethasone or FGF. By investigating various kinds of growth factors or steroids, the present study demonstrates that androgen, high concentration of glucocorticoid or FGF alone significantly stimulates the proliferation of SC-3 cells with a change of morphology in the serum-free medium.     

Culture of cardiac muscle cells in serum-free media

Cardiac muscle cells from neonatal rats have been cultured in completely defined serum-free media. The most successful system consists of precoating culture flasks with fibronectin at a concentration of 5 μg/cm² of surface area and adding fetuin and either dibutyryl cyclic AMP (db-cAMP), cholera toxin, epidermal growth factor or insulin plus dexamethasone to the medium. In order to define a serum- and a hormone or growth factor-free medium, cardiac muscle cells were grown in the presence of fibronectin, fetuin and db-cAMP for 4 days, after which time db-cAMP was omitted from the medium. Under these conditions the cells continue to maintain their differentiated morphology for at least 4 days thereafter. These morphological studies demonstrate that dissociated neonatal cardiac muscle cells are able to grow and differentiate in a chemically defined medium in the absence of animal serum.     

Manipulation of cell cycle kinetics: Influence on the cytotoxicity of doxorubicin in human breast cancer cells

In vitro exposure of estrogen receptor-negative (ER-) EVSA-T human breast cancer cells to insulin and/or estradiol had no effect on cell cycle distribution, in contrast to a 3–5-fold increase in the percentages of cells in the S-phase of the cell cycle in the ER+ MCF-7 cell line. Estrogen pretreatment of MCF-7 cells followed by incubation with doxorubicin resulted in an augmented inhibition of cell growth compared to unstimulated controls. This delay in growth was accompanied by a decrease in the percentages of cells actively synthesizing DNA, and by an augmented percentage of cells exhibiting a G₂M-amount of DNA at the end of a 6–9 day period of culture in complete growth medium.