Human recombinant insulin-like growth factor I. I. Development of a serum-free medium for clonal density assay of growth factors using balb/c 3T3 mouse embryo fibroblasts

Summary A serum-free clonal density growth assay was developed for the quantification of the biological activity of human recombinant insulin-like growth factor I (IGF-I). The assay measures IGF-I stimulated growth of Balb/c 3T3 cells cultured over 4 d on poly-d-lysine-coated plastic surfaces in a serum-free medium formulation composed of a 1∶1 (vol/vol) mixture of Ham's F12 and Dulbecco's modified Eagle's media, supplemented with 3.0 ng/ml bovine basic fibroblast growth factor (bFGF), 10 μg/ml human transferrin, 100 μg/ml ovalbumin, and 1.0 μM dexamethanose. Low-temperature trypsinization of serum-supplemented stock cultures combined with the use of poly-d-lysine-coated plates made it unnecessary to use serum or fibronectin to promote cell attachment and survival. Serum-free growth conditions were optimized with respect to the concentrations of the supplements. Addition of IGF-I resulted in 3.5-fold more cells than control cultures without IGF-I after 4 d. Deletion of bFGF resulted in no IGF-I stimulation of growth. The concentrations of various preparations of IGF-I required to achieve one-half maximal stimulation of cell number (ED₅₀), ranged between 1.25 and 4.7 ng/ml. In parallel assays, IGF-I was 6.6 times more potent than human recombinant insulin-like growth factor II and 32 times more potent than insulin. When cells were seeded into medium containing IGF-I, transferrin, ovalbumin, and dexamethasone but no bFGF, growth was minimal. Dose-response addition of bFGF showed an ED₅₀, of 0.9 ng/ml. The methods reported are useful to monitor the biological potency of recombinant and natural-source growth factors as well as providing a new means of studying the multiple growth factor requirements of Balb/c 3T3 cells in cultures. This work was supported by a contract from IMCERA Bioproducts, Inc.     

Difference in growth factor requirements of rat 3Y1 cells among growth in mass culture,clonal growth in low density culture,and stimulation to enter S phase in resting culture

Summary A semiserum-free medium was developed for monolayer culture of rat 3Y1 fibroblastic cells. The main components of the developed medium added to Dulbecco's modified Eagle's medium (DMEM) were insulin transferrin epidermal growth factor, poly-d-lysine, bovine albumin, oleic acid, and bovine α-globulin. In this medium, 3Y1 cells grew in mass culture at much the same rate as in DMEM supplemented with 10% fetat bovine serum (FBS), and colonies, albeit of smaller sizes, diddform. Virally transformed derivatives of 3Y1 (simian virus 40-3Y1, polyoma virus-3Y1 and adenovirus type 12-3Y1) also formed colonies in the semiserum-free medium. When trypsinized 3Y1 cells were seeded with the medium lacking α-globulin, neither growth in the mass culture nor clonal growth in the low density culture (clonal growth) occurred. In this case, cell spreading was inhibited by albumin, and this inhibition was overcome by adding α-globulin or treating dishes with serum. When albumin was excluded from the semiserum-free medium, clonal growth did not occur, whereas growth in mass culture and stimulation of DNA synthesis in the resting mass culture (stimulation of DNA synthesis) were not so drastically affected. When oleic acid was removed, growth in mass culture was inhibited considerably, but no considerable effect was seen on clonal growth or on stimulation of DNA synthesis. In the absence of insulin, stimulation of DNA synthesis was inhibited more markedly than when other components were removed, but such was not the case with growth in mass culture and clonal growth.     

Clonal growth of normal human uroepithelial cells

Summary We report the development of culture conditions which routinely support clonal growth of normal human uroepithelial cells (HUC). Secondary cultures seeded at clonal densities and grown under conditions described herein have a colony-forming efficiency (CFE) and colony size that will be useful for in vitro experiments. Primary cultures were dispersed to single cells and seeded in a supplemented Ham's F12 medium containing 1% fetal bovine serum together with 3×10⁵ lethally irradiated Swiss 3T3 feeder cells on plastic substrates preequilibrated with F12 medium containing 5 or 10% serum. Using these conditions, the average CFE was 16.1±2.5%. A cloning efficiency of 4.9±1.5% was obtained under the same conditions in serum-free F12+ when supplemented with a mixture of trace elements or 0.1 mM ethanolamine. The epithelial nature of the cloned cells was confirmed by morphology and by positive immunofluorescent staining for human epithelial keratin proteins. To make this system useful for mutagenesis experiments, a clone of Swiss 3T3 feeder cells resistant to 5 μg/ml 6-thioguanine (6TG) was derived from the parental cell line. This 6-TG-resistant Swiss 3T3 clone supports HUC clonal growth with a CFE of 17.9±2.0% CFE. We also report clonal growth of HUC without feeder cells using supplemented MCDB 170 medium containing 70 μg/ml bovine pituitary extract. The average cloning efficiency using these conditions was 5.7±1.7%. This work was supported by NIH grant 29525 to C. A. R. L. J. L. is a recipient of National Science Foundation predoctoral fellowship.     

Improved medium for clonal growth of human diploid fibroblasts at low concentrations of serum protein

Summary A new medium (MCDB 104) has been developed which will support clonal growth of WI-38 cells at concentrations of serum protein as low as 25 μg per ml (equivalent to 0.05% serum). The principal factors responsible for reduction of the protein requirement are: (a) adjustment of all nutrient concentrations in medium F12 to experimentally determined optimum values for WI-38 cells; (b) supplementation with trace elements; (c) replacement of hypoxanthine and folic acid with adenine and folinic acid; and (d) coating of the culture surface with polylysine. Individually, many of these modifications exert only a small effect on cellular growth at reduced protein concentrations, but collectively their effect has been very substantial. Other strains of fibroblast-like human diploid cells from amniotic fluid, fetal lung and newborn foreskin also will grow at reduced concentrations of serum protein in the new medium. This work was supported by Grant No. AG00310 from the National Institute on Aging, and by Contract No. 223-74-1156 from the Bureau of Biologics, U.S. Food and Drug Administration.     

The serum growth and survival requirements of SV40-transformed 3T3 cells

Summary Simian virus 40-transformed 3T3 cells are dependent on serum for survival and growth. This growth activity can be separated on a pH 2 Sephadex G100 column into two fractions: a high molecular weight activity and a low molecular weight substance that has recently been characterized as containing as its major agent, biotin. To replace the remainder of the serum requirement, hormones and other growth factors were tested. Both insulin at high, nonphysiological concentrations (200 to 500 ng/ml) and transferrin (5×10⁻⁸ M) stimulate the growth rate in low serum medium (0.3% v/v bovine calf serum DME) individually and, when added together, are nearly as growth enhancing as 10% serum. The need for the residual serum in this medium can be eliminated by the use of crystalline trypsin during trypsinization. Under these serum-free conditions, biotin and transferrin supplementation provide for moderately good growth (20 to 30 hr population doubling time, 1×10⁶ cells/3.2-cm dish final cell density). Insulin addition further stimulates the growth rate (16 to 20 hr) and the final density (1.5×10⁶ cells). Although the protein growth factors, EGF (0.5 to 1.0 ng/ml) and FGF (4 to 10 ng/ml), also appear to enhance growth individually and additively, their effects are slight and very variable. Nevertheless, the complete serum-free medium (DME supplemented with biotin, transferrin, insulin, EGF and FGF) yields growth comparable but still inferior to 10% serum supplementation (14-versus 12-hr population doubling time, 1 to 2×10⁶ versus 2 to 3×10⁶ cells final cell density). This work was supported by NIH Grant CA 20040.     

Development of improved media and culture conditions for clonal growth of normal diploid cells

Summary Multiplication of normal diploid cells in culture is controlled by a complex set of interacting extracellular variables. The amount of serum protein needed for colony formation by such cells is affected directly by many of the other variables, including the nature of the culture surface, the type of trypsinization procedure used, and the qualitative and quantitative composition of the culture medium. By a sequential process of adjusting all of these variables to optimum values for cellular multiplication with minimal amounts of serum protein, we have been able to obtain clonal growth of normal human and chicken cells with less than 500 μg per ml dialyzed serum protein. Precise quantitative adjustment of nutrient concentrations is particularly important. The multiplication-promoting functions of serum can be classified operationally as “replaceable” (those that can be replaced by modifying the medium or the culture conditions) and “nonreplaceable” (those that we have not yet been able to replace). Elimination of the requirement for replaceable functions of serum has improved greatly the specificity and sensitivity of the bioassay for the nonreplaceable functions. The nonreplaceable multiplication-promoting activity from fetal bovine serum for human diploid fibroblasts has been separated from fetuin and serum albumin and purified approximately 15-fold. Presented in the Opening Symposium on Nutritional Factors and Differentiation at the 28th Annual Meeting of the Tissue Culture Association, New Orleans, Louisiana, June 6–9, 1977. This work was supported by Contract 223-74-1156 from the Bureau of Biologics, U.S. Food and Drug Adminsstration, Grant AG 00310 from the National Institute on Aging, and Grant CA 15305 from the National Cancer Institute.     

Optimized medium for clonal growth of human microvascular endothelial cells with minimal serum

Summary An optimized basal nutrient medium, MCBD 131, has been developed that supports clonal growth of human microvascular endothelial cells (HMVEC) with as little as 0.7% dialyzed fetal bovine serum (dFBS) when also supplemented with 10 ng/ml epidermal growth factor (EGF) and 1 μg/ml hydrocortisone. An extensive initial survey of available media showed that MCDB 402, a medium optimized for low-serum growth of Swiss 3T3 cells, supported the best clonal growth of HMVEC with 10% dFBS. Quantitative adjustment of the composition of MCDB 402 for improved clonal growth of HMVEC with reduced amounts of dFBS resulted in development of MCDB 131. Although many different adjustments contributed to the optimal properties of MCDB 131 for growth of HMVEC, the most unusual feature of this medium is its high magnesium concentration. A major benefit was achieved by increasing Mg²⁺ from 0.8 mM in MCDB 402 to 10.0 mM in MCDB 131. In the absence of defined supplements, MCDB 131 supports good clonal growth of HMVEC with 2% dFBS. This can be reduced to 0.7% by adding EGF and hydrocortisone, which act synergistically to improve growth with low levels of dFBS. This research was supported by grant CA 15305 from the National Cancer Institute, Bethesda, MD.     

Improved medium for clonal growth of human diploid fibroblasts at low concentrations of serum protein.

A new medium (MCDB 104) has been developed which will support clonal growth of WI-38 cells at concentrations of serum protein as low as 25 micrograms per ml (equivalent to 0.05% serum). The principal factors responsible for reduction of the protein requirement are: (a) adjustment of all nutrient concentrations in medium F12 to experimentally determined optimum values for WI-38 cells; (b) supplementation with trace elements; (c) replacement of hypoxanthine and folic acid with adenine and folinic acid; and (d) coating of the culture surface with polylysine. Individually, many of these modifications exert only a small effect on cellular growth at reduced protein concentrations, but collectively their effect has been very substantial. Other strains of fibroblast-like human diploid cells from amniotic fluid, fetal lung and newborn foreskin also will grow at reduced concentrations of serum protein in the new medium.     

Effect of cultivation conditions on the growth properties of Swiss 3T3 cells

A possibility of using Swiss 3T3 cells, adapted to the growth in the Eagle basal medium and bovine serum, in studies of cell proliferation and quiescent state was shown on the basis of their growth characteristics. Proliferative activity of cultures was estimated by measuring the intensity of DNA synthesis (incorporation of labeled thymidine and flow cytofluorometric analysis), mitotic index and cell number counts. Growth rate and saturation density of the culture were analyzed depending on serum concentration, substrate quality and medium changes both in growth and quiescent states. In spite of repeated medium changes such adapted cells had saturation density within 4.10(4)--7.10(4) cells/cm2, standard for this line. Besides, a distinct inhibition of cell proliferation at confluence or after incubation with low serum (0.5%) and a possibility of the following stimulation of cell divisions by adding a fresh medium containing different concentrations of serum were demonstrated. The increased rate of adipose conversion was detected in resting confluent 3T3 cells cultivated in closed vessels, as compared to cells growing in tissue culture dishes in the CO2 incubator.     

Distinct proteolytic mechanisms in serum-sufficient and serum-restricted fibroblasts. Transformed 3T3 cells fail to regulate proteolysis in relation to culture density only during serum-sufficiency.

Thymidine incorporation (reflecting cell division), degradation of long-half-life proteins and protein synthesis were compared in normal Swiss mouse 3T3 fibroblasts and their counterparts transformed by simian virus 40 at both high and low culture densities (no. of cells/cm2). Normal cells maintained faster proteolysis at high culture density than at low. Degradation was in all conditions enhanced by serum deprivation (1% serum). In serum-sufficient (10%) conditions, there was an inverse correlation between degradation and cell division, but in serum-restricted conditions proteolysis increased substantially as culture density was increased, without change in cell division. Protein synthesis generally changed in a converse sense to protein degradation. In serum-sufficient conditions, transformed 3T3 cells failed to regulate proteolysis in response to culture density. However, in serum-restricted conditions they can regulate proteolysis as do normal cells. Transformed 3T3 cells regulate protein synthesis and thymidine incorporation very poorly in response to culture density in both conditions studied. The failure of regulation of both protein synthesis and degradation may contribute to the exaggerated growth of transformed cells in serum-sufficient conditions. The retention by such cells of regulation of proteolysis during serum restriction may also aid their survival. Studies with several lysosomotropic agents indicated that lysosomes contribute to proteolysis in all conditions studied, but also that its regulation in serum restriction is distinct from that in serum sufficiency, and may involve primarily a non-lysosomal mechanism.     

Optimization of culture conditions for human corneal endothelial cells

Summary Long-term cultivation of human corneal endothelial cells (HCEC) was optimized with respect to different components of the culture system: 25 different nutrient media, different sera, 6 mitogens and various substrates were tested in their ability to influence clonal growth and morphology of HCEC. F99, a 1∶1 mixture of the two media M199 and Ham’s F12, was the most effective basal medium in promoting clonal growth of HCEC. Among various sera, human serum and fetal bovine serum showed optimal growth promoting activities in combination with F99, whereas newborn bovine serum (NBS) was by far superior for the development of a typically corneal endothelial morphology. Crude fibroblast growth factor (FGF), or alternatively endothelial cell growth supplement, was absolutely essential for clonal growth of HCEC at low serum concentrations, for example 5% NBS. Formation of a monolayer with a morphology similar to corneal endothelium in vivo was observed only on culture dishes coated with basal membrane components such as collagen type IV, laminin, or fibronectin. The most pronounced effect on morphologic appearance was obtained by culturing the cells on the extracellular matrix (ECM) produced by bovine corneal endothelial cells. Moreover, ECM could substitute for crude FGF in clonal growth assays.     

Defined medium for normal adult human prostatic stromal cells

Summary Stromal-epithelial interactions are pivotal in many aspects of prostatic biology. A defined culture system is critical for the investigation of factors that regulate the growth and differentiation of human prostatic stromal cells. We have identified conditions which promote stromal cell attachment and proliferation in serum-free medium. MCDB 201, originally developed for the clonal growth of chick embryo fibroblasts, proved to be a superior basal medium of those that we tested. Supplementation of MCDB 201 with basic fibroblast growth factor (FGF), insulin-like growth factor (IGF), and platelet-derived growth factor (PDGF) permitted attachment and exponential growth of cells throughout a 7-d period with an initial inoculum as low as 10³ cells per well of a 96-well microtiter dish. Using these assay conditions, we subsequently verified that basic FGF and IGF, but not PDGF, were required for optimal growth. No activity was found for heparin, transferrin, or the androgen R1881. Epidermal growth factor (EGF) didn’t stimulate growth when added to medium containing basic FGF and IGF, but was moderately stimulatory when added to basal medium alone. Cholera toxin inhibited growth. This simple and efficient culture medium provides a suitable assay system for more extensive studies of growth regulation and differentiation of human prostatic stromal cells, and will provide the basis for future development of a defined medium that supports clonal growth. Characterization of stromal-epithelial interactions will be facilitated by the use of this defined culture system for stromal cells in conjunction with the serum-free culture systems previously developed for human prostatic epithelial cells.     

Growth and differentiation of human keratinocytes without a feeder layer or conditioned medium

Summary An improved procedure has been developed for clonal growth of normal human epidermal keratinocytes (HK) without feeder cells or conditioned medium. The use of medium 199, supplemented with 0.4 μg/ml hydrocortisone (HC) and 20% (v/v) whole fetal bovine serum (wFBS) and conditioned overnight by 3T3 cells, eliminated the need for a feeder layer of lethally irradiated 3T3 cells for HK growth. Several other media with equivalent conditioning and supplementation failed to support satisfactory multiplication of HK, including Dulbecco's modified Eagle's medium, which is normally used for growth of HK with a feeder layer. Increasing the concentration of HC to 10 μg/ml (2.8×10⁻⁵ M) made possible clonal growth of HK without any conditioning of the medium. The addition of 10⁻⁵ M putrescine, 10⁻⁵ M vitamin B₁₂, or 3.7×10⁻⁶ M β-estradiol further enhanced growth in unconditioned medium. Substantially greater improvement was obtained by the addition of pituitary extract or fractions prepared from pituitary extract. In medium 199 supplemented with 10 μg/ml HC, 20% (v/v) wFBS, and 0.15 mg/ml each of two pituitary fractions, single HK attach with a colony-forming efficiency equal to that in conditioned medium and form stratified, keratinized colonies that grow to confluency and can be subcultured. These results make it clear that HK do not require special “conditioning factors” from fibroblasts for clonal growth and differentiation in culture. Thus, factors directly involved in growth and the expression of differentiation can be analyzed without the interfering effects of any other type of cell. Preliminary studies with epidermal growth factor (EGF), which stimulates growth and extends life span of HK grown in the presence of fibroblasts, have shown that, in the absence of fibroblasts, EGF has no effect either on clonal growth or on cumulative multiplication potential of HK. This paper contains material from a thesis submitted to the Graduate School of the University of Colorado, Boulder, by Donna M. Peehl in partial fulfillment of the requirements for the Ph.D. degree. This work was supported by Grant CA 15305 from the National Cancer Institute and Grant AG 00310 from the National Institute on Aging.     

Survival of 3T3 cells expressing or co-expressing bFGF and/or IGF-I and/or IGF-II in low serum and serum free media

The aim of this study was to improve the survival ofNIH3T3 cells in low serum or serum-free media by theendogenous expression of recombinant bFGF (basicfibroblast growth factor) and/or IGF (insulin-likegrowth factor) -I and II. Expression was detected byWestern blotting, and the growth characteristics ofdifferent transfected cell lines investigated in bothserum-free and low serum conditions and also in softagar. Morphological changes and the growth rate werecompared with growth in normal serum-containingmedium. The experimental data suggested that theexpression of either bFGF alone, or the co-expressionof bFGF and either IGF-I or II could improve thesurvival of NIH3T3 cells in low serum or serum-freemedia. The use of such lines could decrease the use ofserum in cell culture and thus both reduce the costsinvolved in this technique and simplify thedown-stream purification procedure in protein harvest.Hence, such lines may be of value in both experimentaland industrial applications.     

Nuclear GTP-binding proteins of Swiss 3T3 cells

The GTP-binding proteins of Swiss 3T3 cell nuclei were analyzed by filter binding assay and UV cross-linking analysis. The results showed the presence of multiple GTP-binding proteins in the nuclei. Scatchard analysis revealed that the Kd value for GTP binding to high-affinity components was 69 nM, that to low-affinity components being 2.7 microM. The GTP-binding activities of some nuclear proteins were found to change significantly in response to the growth conditions of the cells. During culture of cells in medium without serum, the GTP-binding activity of a 140 kDa protein clearly decreased, whereas that of a 40 kDa protein increased.     

l-Arginine stimulates proliferation and prevents endotoxin-induced death of intestinal cells

This study tested the hypothesis that l-arginine (Arg) may stimulate cell proliferation and prevent lipopolysaccharide (LPS)-induced death of intestinal cells. Intestinal porcine epithelial cells (IPEC-1) were cultured for 4 days in Arg-free Dulbecco’s modified Eagle’s-F12 Ham medium (DMEM-F12) containing 10, 100 or 350 μM Arg and 0 or 20 ng/ml LPS. Cell numbers, protein concentrations, protein synthesis and degradation, as well as mammalian target of rapamycin (mTOR) and Toll-like receptor 4 (TLR4) signaling pathways were determined. Without LPS, IPEC-1 cells exhibited time- and Arg-dependent growth curves. LPS treatment increased cell death and reduced protein concentrations in IPEC-1 cells. Addition of 100 and 350 μM Arg to culture medium dose-dependently attenuated LPS-induced cell death and reduction of protein concentrations, in comparison with the basal medium containing 10 μM Arg. Furthermore, supplementation of 100 and 350 μM Arg increased protein synthesis and reduced protein degradation in both control and LPS-treated IPEC-1 cells. Consistent with the data on cell growth and protein turnover, addition of 100 or 350 μM Arg to culture medium increased relative protein levels for phosphorylated mTOR and phosphorylated ribosomal protein S6 kinase-1, while reducing the relative levels of TLR4 and phosphorylated levels of nuclear factor-κB in LPS-treated IPEC-1 cells. These results demonstrate a protective effect of Arg against LPS-induced enterocyte damage through mechanisms involving mTOR and TLR4 signaling pathways, as well as intracellular protein turnover.     

Quantitative studies of amino acid and growth factor requirements of transformed and nontransformed cells in high concentrations of serum of lymph

Summary The growth rate of spontaneously transformed BALB/3T3 cells is proportional to glutamine concentration between 50 and 400 μM, with little or no growth occurring in less than 50 μM glutamine. By contrast, nontransformed BALB/3T3 cells multiply, although slowly, with as little as 20 μM glutamine. Neither cell type depletes the medium of glutamine at the low concentrations. Cystine requirements of both cell types increase with serum concentration, probably due to the binding of half-cystine residues by the serum. Calf serum is a much more potent stimulator of cell multiplication than calf lymph, especially for the nontransformed cells. The rate of cell multiplication can be reduced by lowering the concentration of essential amino acids to the physiologic level found in body fluids, but the growth limitations can be fully compensated by simply raising the serum concentration. Growth factors may act by enhancing the utilization of amino acids, particularly of glutamine which is a required substrate for the first and chief regulatory steps of purine and pyrimidine synthesis. Lymph, which is coextensive with interstitial fluid in vivo, is poor in growth factors for the nontransformed BLAB/3T3 cells as well as for recently explanted mouse embryo cells, which raises questions of how normal cell growth is maintained in the body. This work was supported by USPHS grant CA-15744 from the Division of Extramural Activities, National Cancer Institute; by American Cancer Society Research Development Program grant RD-231; and by The Council for Tobacco Research grant 1948.     

Clonal growth of human keratinocytes with small amounts of dialyzed serum

Summary A survey of commercially availabla media revealed that medium F-12 was superior to medium 199 for clonal growth of human epidermal keratinocytes (HK) when supplemented with 10 μg/ml hydrocortisone (HC) plus dialyzed fetal bovine serum protein (FBSP), rather than the whole serum used in previous studies. Qualitative and quantitative adjustment of the medium composition for optimal clonal growth with minimal amounts of FBSP generated a new medium, MCDB 151, which supports clonal growth of HK with 10 μg/ml HC and as little as 1 mg/ml FBSP (equivalent in protein concentration to 2.0% whole serum). MCDB 151 differs significantly from MCDB 105, previously developed in this laboratory for normal human fibroblasts, and each medium selectively favors growth of its own type of cell in primary cultures of disaggregated human neonatal foreskin cells. Differences in the amounts of calcium and adenine in the two media appear to be among the most influential factors mediating the selective growth. Optimal growth of HK occurs at a very low level of Ca²⁺ that causes the colonies to remain as monolayers rather than stratifying as they do in the presence of higher levels of calcium. However, keratin synthesis, which was examined through use of highly specific fluorescent antibodies, is not affected by the Ca²⁺ concentration. Agents that increase intracellular cyclic AMP levels appear to have no effect on HK growth in MCDB 151 with 10 μg/ml HC and 1.0 mg/ml FBSP. This paper contains material from a thesis submitted to the Graduate School of the University of Colorado, Boulder, by Donna M. Peehl in partial fulfillment of the requirements for the Ph.D. degree. This work was supported by Grant CA 15305 from the National Cancer Institute and Grant AG 00310 from the National Institute on Aging.     

Iron salts and transferrin are specifically required for cell division of cultured 3T6 cells.

3T6 Swiss mouse fibroblasts can be plated in medium without serum. Prostaglandin F₂^∞, fibroblastic growth factor, epidermal growth factor and insulin stimulate DNA synthesis in medium containing vitamin B₁₂. A combination of these factors, however, does not stimulate cell division under our conditions. Iron salts and transferrin or low concentrations of serum are required to be concurrently present with the growth factors before cell division is observed.     

Difference in growth factor requirements of rat 3Y1 cells among growth in mass culture, clonal growth in low density culture, and stimulation to enter S phase in resting culture

A semiserum-free medium was developed for monolayer culture of rat 3Y1 fibroblastic cells. The main components of the developed medium added to Dulbecco's modified Eagle's medium (DMEM) were insulin, transferrin, epidermal growth factor, poly-D-lysine, bovine albumin, oleic acid, and bovine alpha-globulin. In this medium, 3Y1 cells grew in mass culture at much the same rate as in DMEM supplemented with 10% fetal bovine serum (FBS), and colonies, albeit of smaller sizes, did form. Virally transformed derivatives of 3Y1 (simian virus 40-3Y1, polyoma virus-3Y1 and adenovirus type 12-3Y1) also formed colonies in the semiserum-free medium. When trypsinized 3Y1 cells were seeded with the medium lacking alpha-globulin, neither growth in the mass culture nor clonal growth in the low density culture (clonal growth) occurred. In this case, cell spreading was inhibited by albumin, and this inhibition was overcome by adding alpha-globulin or treating dishes with serum. When albumin was excluded from the semiserum-free medium, clonal growth did not occur, whereas growth in mass culture and stimulation of DNA synthesis in the resting mass culture (stimulation of DNA synthesis) were not so drastically affected. When oleic acid was removed, growth in mass culture was inhibited considerably, but no considerable effect was seen on clonal growth or on stimulation of DNA synthesis. In the absence of insulin, stimulation of DNA synthesis was inhibited more markedly than when other components were removed, but such was not the case with growth in mass culture and clonal growth.