Extracellular regulation of fibroblast multiplication: A direct kinetic approach to analysis of role of low molecular weight nutrients and serum growth factors

The principles of enzyme kinetic analysis were applied to quantitate the relationships among serum-derived growth factors, nutrients, and the rate of survival and multiplication of human fibroblasts in culture. The survival or multiplication rate of a population of cells plotted against an increasing concentration of a growth factor or nutrient in the medium exhibited a hyperbolic pattern that is characteristic of a dissociable, saturable interaction between cells and the ligands. Parameters equivalent to the K_m and V_max of enzyme kinetics were assigned to nutrients and growth factors. When all nutrient concentrations were optimized and in steady state, serum factors accelerated the rate of multiplication of a normal cell population. The same set of nutrients that supported a maximal rate of multiplication in the presence of serum factors supported the maintenance of non-proliferating cells in the absence of serum factors. Therefore, under this condition, serum factors are required for cell division and play a purely regulatory iole in multiplication of the cell population. The quantitative requirement for 18 nutrients of 29 that were examined was significantly higher (P < 0.001) for cell multiplication in the presence of serum factors than for cell maintenance in the absence of serum factors. This indicated specific nutrients that may be quantitatively important in cell division processes as well as in cell maintenance. The quantitative requirement for Ca²⁺, Mg²⁺, K⁺, Pi, and 2-oxocarboxylic acid for cell multiplication was modified by serum factors and other purified growth factors. The requirement for over 30 other nutrients could not clearly be related to the level of serum factors in the medium. Serum factors also determined the Ca²⁺, K⁺, and 2-oxocarboxylic acid requirement for maintenance of non-proliferating cells. Therefore, when either Ca²⁺, K⁺, or 2-oxocarboxylic acid concentration was limiting, factors in serum played a role as cell “survival or maintenance” factors in addition to their role in cell division as “growth regulatory” factors. However, with equivalent levels of serum factors in the medium, the requirement for Ca²⁺, K⁺, and 2-oxocarboxylic acids was still much higher for multiplication than for maintenance. Kinetic analysis revealed that the concentrations of individual nutrients modify the quantitative requirement for others for cell multiplication in a specific pattern. Thus, specific quantitative relationships among different nutrients in the medium are important in the control of the multiplication rate of the cell population. When all nutrient concentrations were optimal for multiplication of normal cells, the multiplication response of SV40-virus-transformed cells to serum factors was similar to that of normal cells. When serum factors were held constant, transformed cells required significantly less (P < 0.001) of 12 of the 26 nutrients examined. Therefore, the transformed cells only have a growth advantage when the external concentration of specific nutrients limits the multiplication rate of normal cells. Taken together, the results suggest that the control of cell multiplication is intimately related to external concentrations of nutrients. Specific growth regulatory factors may stimulate cell proliferation by modification of the response of normal cells to nutrients. Transforming agents may confer a selective growth advantage on cells by a constitutive alteration of their response to extracellular nutrients.     

Long-term culture of human endothelial cells

Summary Human umbilical vein endothelial cells can be grown in vitro for 28 passages (CPDL 58) in Medium 199 supplemented with newborn bovine serum and a partially purified growth factor derived from bovine brain. Newborn bovine serum is superior to fetal bovine serum for the proliferation of human umbilical vein endothelial cells seeded at low density in the presence of the growth factor. The endothelial cells, which can be passaged every 7 to 10 d at a 1-to-5 split ratio, retain their morphological and biochemical characteristics. The proliferation of cells seeded at low density (10³/cm²) is proportional to the concentration of the growth factor present in the medium. The growth factor, which has an isoelectric point between 5.0 and 5.5, can support cell proliferation at reduced serum concentrations; half-maximal growth is achieved in medium containing the growth factor and 3% serum. The brain endothelial cell growth factor does not stimulate DNA synthesis significantly in cultures of human skin fibroblasts. This research was supported by grants from the U.S. Public Health Service (AG 01732, HL 16387, and HL 07080), the Cystic Fibrosis Foundation, and the New York and American Heart Associations. Victor B. Hatcher is an Established Fellow of the New York Heart Association and a recipient of the Ann Weinberg Cystic Fibrosis Research Scholarship Award.     

Modulation of EGF binding and action by succinylated concanavalin A in fibroblast cell cultures

The role of the binding of succinylated concanavalin A to tissue culture cells in influencing epidermal growth factor (EGF)-mediated cell proliferation has been studied. Succinylated concanavalin A dramatically reduces the stimulation of 3T6 cells by EGF in Dulbecco's modified Eagle's medium (DME) containing insulin and vitamin B₁₂ as additional growth factors, but no serum. Furthermore, binding studies using ¹²⁵I-labeled EGF have shown that the binding of EGF to the cell surface is reduced upon addition of succinylated concanavalin A.     

The growth of WI-38 cells in a serum-free,growth factor-free,medium with elevated calcium concentrations

Summary The growth of WI-38 cells in serum-free growth medium with and without hormone supplementation in the presence of elevated Ca²⁺ concentrations was investigated. At 5 mM CaCl₂, WI-38 cells seeded at low density without serum or hormone supplementation showed up to a 12-fold increased in cell number at saturation density over that obtained at day 1. Saturation densities were comparable when either 5 mM CaCl₂ or epidermal growth factor (1 mM CaCl₂) was used in the presence of insulin, dexamethasone and transferrin. Combining suboptimal doses of epidermal growth factor and CaCl₂ resulted in an additive effect on saturation density. Thus, nornal human diploid cells are capable of substantial growth in serum-free, hormone-free growth medium. In contrast, confluent cultures refed with the same medium are not responsive to elevated Ca²⁺ concentrations. In fact, elevated Ca²⁺ concentrations inhibited the proliferative response of confluent cultures to epidermal growth factor, but enhanced their response to the combined treatment of insulin, transferrin and dexamethasone. This work was supported by the United States Public Health Society grants T-32, CA09171 and AG-00378. Editor's Statement This paper rigorously dissects the interplay among external Ca²⁺ concentration, cell density and specific growth factors on fibroblast growth in defined medium. Wallace L. McKeehan     

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.     

N-terminal amino acid sequence of leukemia derived growth factor (LGF) from human erythroleukemia cell culture

Summary A human erythroleukemia cell line, K-562 T1, was adapted to a protein-free chemically defined medium (1); that is, the medium does not contain any proteins such as exogenous hormones, growth factors, serum and serum albumin. The K-562 T1 cells which can proliferate in a protein-free medium are one of the model systems suitably supporting the autocrine hypothesis (2), which claims that cancer cells produce and respond to their own growth factors (3). The K-562 T1 cells were cultured in a protein-free medium at large scale and the growth factors were purified from the conditioned medium. It was found that K-562 T1 cells produce at least two growth factors; one is LGF-I (leukemia-derived growth factor-I) which can stimulate the proliferation of a wide range of human leukemia cell lines and the other is LGF-II (leukemia-derived growth factor-II), which can contribute to the growth of fibroblasts. LGF-I was purified using QAE-Sephadex, Bio Gel P-60 and Mono S FPLC. The purified protein was found to be homogenous by SDS-polyacrylamide gel electrophoresis and NH₂-terminal sequence analysis. The molecular weight of LGF-I was 20,000 by SDS-polyacrylamide gel electrophoresis. The 30 NH₂-terminal residues of LGF-I are the same as that of ubiquitin. Ubiquitin is a protein found in eukaryotic cells with molecular weight of 8,600. In the nucleus ubiquitin is conjugated to histone 2A to form the nuclear protein A24 which may play a role in regulation of chromatin structure (3), and in the cytoplasm is part of an ATP-dependent non-lysosomal proteolytic pathway (4). However, its physiological significance has not yet been fully resolved. Ubiquitin purified from bovine thymus did not show cell proliferating activity for any cells tested. The results suggest that LGF-I is a new autocrine growth factor with a molecular weight of 20,000 daltons, containing ubiquitin at the NH₂-terminal end. This work was supported by funds obtained under the Research and Development Project of Basic Technologies for Future Industries from the Ministry of International Trade and Industry of Japan. Editor’s Statement Identification of sequences identical to ubiquitin associated with the leukemia-derived growth factor described in this report is particularly intriguing considering recent reports of association of ubiquitin with surface membrane receptors of lymphocytes and fibroblasts. References: SCIENCE vol. 231, pgs, 823–829; NATURE vol. 323, pgs 226–232, 1986. David W. Barnes     

Epidermal growth factor stimulates DNA-synthesis of astrocytes in primary cerebellar cultures

Summary The capability of epidermal growth factor (EGF) to stimulate DNA synthesis in neural cells was investigated in primary cultures of early postnatal mouse cerebellum. At concentrations of 10^-8M, EGF stimulates DNA synthesis in astrocytes, which were identified immunocytologically by the cell type-specific marker, glial fibrillary acidic (GFA) protein. Astrocytes express cell-surface receptors for EGF as can be shown by binding of [¹²⁵I]-labeled EGF to live monolayer cultures. In the presence of 10% horse serum, EGF stimulates DNA-synthesis by a factor of about two-fold. Stimulation by EGF over control values is approximately 4-fold in the presence of 1% serum and 6 to 10-fold in the absence of serum. Absolute numbers of astrocytes are increased after more prolonged action of EGF. DNA-synthesis in neurons or oligodendroglia is not significantly stimulated by EGF. EGF enhances cell survival of serum-deprived cerebellar cultures. Fibroblast growth factor does not increase DNA-synthesis in astrocytes under the conditions used in this study.Abbreviations BME basal medium, Eagle's - BME-BSA basal medium, Eagle's containing 0.1% bovine serum albumin - EDTA ethylene-diamino-N, N-tetraacetic acid - EGF epidermal growth factor - FGF fibroblast growth factor - GFA glial fibrillary acidic - HS horse serum - [³ H] TdR tritium-labeled thymidine - PAP peroxidase-anti-peroxidase - PBS phosphate-buffered saline - SDS sodium dodecyl sulfate - TCA trichloroacetic acid     

Copper stimulates proliferation of human endothelial cells under culture

Copper ions stimulate proliferation of human umbilical artery and vein endothelial cells but not human dermal fibroblasts or arterial smooth muscle cells. Incubation of human umbilical vein endothelial cells for 48 h with 500 μM CuSO₄ in a serum-free medium in the absence of exogenous growth factors results in a twofold increase in cell number, similar to the cell number increase induced by 20 ng/ml of basic fibroblast growth factor under the same conditions. Copper-induced proliferation of endothelial cells is not inhibited by 10% fetal bovine serum or by the presence of antibodies against a variety of angiogenic, growth, and chemotactic factors including angiogenin, fibroblast growth factors, epidermal growth factor, platelet-derived growth factor, tumor necrosis factor-α, transforming growth factor-β, macrophage/monocyte chemotactic and activating factor, and macrophage inflammatory protein-1α. Moreover, despite the previous observations that copper increased total specific binding of ¹²⁵I-angiogenin to endothelial cells, binding to the 170 kDa receptor is not changed; hence, the mitogenic activity of angiogenin is not altered by copper. Copper-induced proliferation, along with early reports that copper induces migration of endothelial cells, may suggest a possible mechanism for the involvement of copper in the process of angiogenesis. J. Cell. Biochem. 69:326–335, 1998. © 1998 Wiley-Liss, Inc.     

Phosphorylation of the Mr = 34,000 protein in normal and Rous sarcoma virus-transformed rat fibroblasts

Antiserum was raised against the M_r = 34,000 chick cell protein which may serve as a substrate for the Rous sarcoma virus transforming gene product. The antiserum specifically immunoprecipitated 2 proteins from [³⁵S]methionine labeled Rous sarcoma virus-transformed rat cell extracts (a M_r = 35,000 and a M_r = 38,000 protein). Partial protease treatment revealed these two proteins to be very closely related. The protein of apparent M_r = 38,000 was phosphorylated and the phosphate was present exclusively on tyrosine residues. The effect of epidermal growth factor on phosphorylation of the M_r = 35,000 protein was examined in several normal rat fibroblast cell lines. EGF treatment had no effect on phosphorylation of the M_r = 35,000 protein for any normal cell line and also failed to elevate overall levels of phosphotyrosine.     

An optimized culture medium for human vascular endothelial cells from umbilical cord veins

Various polypeptide growth factors, culture substrates, basal media, sera and further supplements were assayed for improvement of growth of human vascular endothelial cells from umbilical cord veins. The resulting optimized medium consisted of gelatinized culture substrates, a mixture (1:1) of Iscove's MDM and Ham's F12 basal media supplemented with 20% newborn calf serum, 500 ng/ml crude fibroblast growth factor, 20 ng/ml epidermal growth factor, 5 g/ml transferrin, 5 g/ml insulin and 10 g/ml heparin. The medium allowed long term cultivation of HUVEC up to 45 generations with maximal cell densities of about 10⁵ cells per cm² and a minimal doubling time of about 14 hours at low cell densities.Abbreviations HUVEC Human Endothelial Cells From Umbilical Cord Veins - FGF Fibroblast growth factor - EGF Epidermal Growth Factor - FCS Fetal Calf Serum - NCS Newborn Calf Serum - HBS HEPES-Buffered Saline - ECM Extracellular Matrix - LHM Peptide PyroGlu-His-Ser-Phe-Thr-Ile-Lys-Ile-ThrCONH₂ - IF 1:1 mixture of Iscove's MDM and F12 basal media     

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.     

The effects of adenoviral transfection of the keratinocyte growth factor gene on epidermal stem cells: An in vitro study

Epidermal stem cells (ESCs) are characterized as slow-cycling, multi-potent, and self-renewing cells that not only maintain somatic homeostasis but also participate in tissue regeneration and repair. To examine the feasibility of adenoviral vector-mediated keratinocyte growth factor (KGF) gene transfer into in vitro-expanded ESCs, ESCs were isolated from samples of human skin, cultured in vitro, and then transfected with recombinant adenovirus (Ad) carrying the human KGF gene (AdKGF) or green fluorescent protein gene (AdGFP). The effects of KGF gene transfer on cell proliferation, cell cycle arrest, cell surface antigen phenotype, and β-catenin expression were investigated. Compared to ESCs transfected with AdGFP, AdKGF-transfected ESCs grew well, maintained a high proliferative capacity in keratinocyte serum-free medium, and expressed high levels of β-catenin. AdKGF infection increased the number of ESCs in the G0/G1 phase and promoted ESCs entry into the G2/M phase, but had no effect on cell surface antigen phenotype (CD49f⁺/CD71⁻). The results suggest that KGF gene transfer can stimulate ESCs to grow and undergo cell division, which can be applied to enhance cutaneous wound healing.     

Nerve Growth Factor Stimulates the Production of Inositol 1,3,4-and 1,4,5-Trisphosphate and Inositol 1,3,4,5-Tetrakisphosphate in PC 12 Cells

Abstract: In PC12 cells, preincubated with [³H]inositol, nerve growth factor (NGF) stimulated an ～ 100% increase in the levels of [³H]inositol 1,3,4-trisphosphate {[³H]-Ins(1,3,4)P₃}, [³H]inositol 1,4,5-trisphosphate {[³H]lns(1,4,5)P₃}, and [³H]inositol 1,3,4,5-tetrakisphosphate {[³H]-Ins(1,3,4,5)P₄} as early as 5–15 s after addition of NGF. This NGF-mediated response was apparent only when the cells had been cultured in the absence of fetal bovine serum (FBS). PC12 cells cultured in FBS-containing medium did not display NGF-mediated increases in [³H]-Ins(1,3,4)P₃, [³H]-Ins(1,4,5)P₃, and [³H]-Ins(1,3,4,5)P₄ levels. Using cells cultured in the absence of FBS, epidermal growth factor (EGF) and fibroblast growth factor also stimulated production of [³H]lns(1,3,4)P₃, [³H]-Ins(1,4,5)P₃, and [³H]lns(1,3,4,5)P₄. Lavendustin A, a tyrosine kinase inhibitor, inhibited both the EGF-and NGF-stimulated increases in the levels of these tritiated inositol phosphates. These results suggest that NGF stimulates the production of lns(1,3,4)P₃, lns(1,4,5)P₃, and lns(1,3,4,5)P₄ and that this response is dependent on tyrosine kinase activity. Furthermore, although the production of lns(1,3,4)P₃, lns(1,4,5)P₃, and lns(1,3,4,5)P₄ may be a common response to factors stimulating neuronal differentiation, it is not sufficient for stimulation of neuronal differentiation.     

Supplementary factors required for serum-free culture of rat kidney cells of line NRK-49F

Summary Factors requred as supplements to basal tissue culture medium for the multiplication of cells of the cloned rat fibroblast line called normal rat kidney 49F (NRK-49F) were identified as epidermal growth factor, fibronectin, insulin, and retinoic acid. The requirement for fibronectin was manifested on a clean glass surface but not on the polystyrene plastic surface tested. This set of required factors differs substantially from the factor sets required by the Madin-Darby, canine kidney (MDCK) and LLC-PK₁ pig kidney lines of epithelial cells and the baby hamster kidney 21 (BHK-21) line of fibroblasts. The serum-free medium supplemented with the four factors supported rapid growth of NRK-49F cells when the initial cell population density was about 8,000 cells/cm² or greater. At lower initial densities, cell multiplication was markedly increased by adding serum-free medium that had been conditioned by NRK-49F cells. Cell growth rate in the defined serum-free medium stayed high through two serial passages but declined in the third serial passage unless the cell-conditioned medium was added.     

Serum glucocorticoids have persistent and controlling effects on insulinlike growth factor i action under serum-free assay conditions in cultured human fibroblasts

Summary The biological actions of insulinlike growth factor I (IGF-I) measured under serum-free assay conditions were found to be significantly influenced by prior subculture conditions for adult human fibroblasts. Glucocorticoids seemed to be the major medium variable affecting IGF-I action. IGF-I added to serum-free cultures had little or no effect on [¹⁴C]aminoisobutyric acid uptake or [³H]thymidine incorporation in human fibroblasts previously maintained in media containing serum with low glucocorticoid levels or in serum stripped of endogenous steroids. However, a 48-h preincubation with dexamethasone resulted in a marked synergistic increase in IGF-I stimulation of [¹⁴C]aminoisobutyric acid uptake and [³Hthymidine incorporation in these cultures. In contrast, IGF-I in serum-free medium seemed to be a potent mitogenic and metabolic stimulus for human fibroblasts which had been subcultured in media with a high glucocorticoid content, either endogenous, or supplemented. After these culture conditions, a 48-h preexposure to dexamethasone had no further enhancing effect on IGF-I action. Dexamethasone also potentiated IGF-I, insulin, and epidermal growth factor stimulation of fibroblast replication depending on the earlier subcultivation conditions. Thus, glucocorticoids are important modulators of IGF-I bioactivity in cultured human fibroblasts. Serum glucocorticoids can exert a profound influence on the biological phenomena measured in cell culture, even when the serum has been removed before the actual experiment, and must be carefully taken into account for accurate evaluation of the biological function of IGF-I and other growth factors. This work was supported in part by grants DK28229, DK36054, CA42106, RCDA01275, and DK24085 from the National Institutes of Health, Bethesda, MD.     

Effects of TRH on cell proliferation of rat pituitary cells (GH3)

Summary Chronic treatment (more than 3 d) of GH₃ cells, cloned rat pituitary cells producing prolactin, with 100 nM TRH resulted in a 41% reduction in the rate of cell growth in a medium containing 0.5% fetal bovine serum. These effects of TRH appeared both in the medium containing a higher concentration of serum and in that containing six growth factors, i.e. insulin, transferrin, parathyroid hormone, fibroblast growth factor, triiodothyronine, and multiplication-stimulating activity (MSA) instead of serum. TRH stimulated prolactin production by GH₃ cells in a dose-dependent manner both in the serum-supplemented and serum-free media. On the other hand, TRH, at 1 nM, elicited a 130% stimulation in the cellular growth, whereas, at concentrations of more than 10 nM, it inhibited the growth significantly. In the defined culture system, it was demonstrated that TRH stimulated prolactin production in the presence or absence of six growth factors, whereas its inhibitory effects on cellular growth appeared only in the presence of MSA regardless of the presence or absence of the other five factors. Furthermore, it was shown that a dose-dependent stimulatory effect of MSA on the growth of GH₃ cells was suppressed by TRH. TRH exhibited only a stimulatory effect on cellular growth in the medium containing the five factors other than MSA. In conclusion, TRH could inhibit cell growth of GH₃ in the presence of MSA in the defined medium or MSA-like factor(s) in the serum-supplemented medium.     

Initiation of Cartilage Cell Culture from Skate (<Emphasis Type="Italic">Raja porasa</Emphasis> Günther)

Abstract Cartilage tissues from the proboscis of skate (Raja porasa Günther) were used to initiate primary cultures of cartilage cells. Aseptically dissected cartilage tissues were immersed in MEM medium free of fetal bovine serum (FBS), pH 7.6, and minced into small pieces (1 mm³ on average). After hydrolysis with collagenase II, hyaluronidase, and trypsin for 2 hours at room temperature, the acquired cartilage cells were rinsed twice with 20% FBS-supplemented MEM medium and then inoculated into 25-cm³ cell culture flasks, and incubated at 24°C. The primary cultures were initiated successfully, and the cartilage cells grew gradually into a confluent monolayer at day 10. Effects of growth factors were also tested in this study, and it was found that 20 ng/ml of basic fibroblast growth factor and 100 ng/ml of insulin-like growth factor II together had the most prominent stimulating effect on the growth and division of cartilage cells in the series of concentration combinations employed. The induced cartilage cells cultured formed a confluent monolayer at day 7.     

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.     

Induction of aryl hydrocarbon hydroxylase by a light-driven superoxide generating system in liver cell culture

Aryl Hydrocarbon Hydroxylase activity can be increased in rat liver cell cultures by the generation of the superoxide ion (O₂^?) in the growth medium. This can be achieved by mild illumination of the cells in the presence of riboflavin and methionine. The increased activity that results can be prevented by Cycloheximide and appears to be a typical induction. It is suggested that superoxide generation within cells may be a common factor linking different microsomal enzyme inducers.     

Myelin Gene Expression in Immortalized Schwann Cells: Relationship to Cell Density and Proliferation

Abstract: Myelin gene expression was investigated in the immortalized S16 Schwann cell line grown in the presence and absence of serum and at different densities. Protein expression was monitored by western blotting, and message levels were determined by RNase protection assays. To study cell proliferation rates at different cell densities and serum conditions. [³H]thymidine uptake assays and cell counts were performed. Although serum deprivation decreased cell proliferation as expected, the proliferation of S16 cells was unchanged or slightly increased at high density under the conditions of our experiments in either serum-containing or serum-free medium. This increased cell division at high density appeared to be due to greater release of an autocrine growth factor to the medium by dense cell populations. For both sparse and dense cells, substantially more P₀ glycoprotein (P₀) and myelin-associated glycoprotein (MAG) per milligram of total cellular protein were expressed when the cells were proliferating slowly in defined medium in comparison with more rapidly proliferating cells in serum-containing medium. Furthermore, in both serum-containing and defined media, dense cell populations expressed more MAG and P₀ than sparse ones. P₀ mRNA and MAG mRNA levels generally paralleled protein levels. The level of mRNA for peripheral myelin protein-22 (PMP-22) was also increased at high cell density but did not change much when proliferation was decreased by serum deprivation. PMP-22 protein was not detected under any of the growth conditions. The changes in expression of these genes with growth conditions may be specific for myelin proteins, because the expression of a nonmyelin glycoprotein, L1, remained constant. The level of cyclic AMP in the cells did not change with the different growth conditions tested. The results indicate that the S16 Schwann cell line mimics primary or secondary Schwann cells by down-regulating myelin gene expression when it proliferates more rapidly in the presence of serum. Furthermore, in both the presence and absence of serum, there was greater expression of myelin genes at high cell density that was not associated with a decreased proliferative rate. Because evidence for a role of secretory factors in affecting myelin gene expression was not obtained by treating sparse S16 cells with medium conditioned by dense S16 cells, the results suggest that the higher expression of myelin genes at high density may be mediated by cell-to-cell contact.