Developing a novel serum-free cell culture model of skeletal muscle differentiation by systematically studying the role of different growth factors in myotube formation

This work describes the step-by-step development of a novel, serum-free, in vitro cell culture system resulting in the formation of robust, contracting, multinucleate myotubes from dissociated skeletal muscle cells obtained from the hind limbs of fetal rats. This defined system consisted of a serum-free medium formulation developed by the systematic addition of different growth factors as well as a nonbiological cell growth promoting substrate, N-1[3-(trimethoxysilyl) propyl] diethylenetriamine. Each growth factor in the medium was experimentally evaluated for its effect on myotube formation. The resulting myotubes were evaluated immunocytochemically using embryonic skeletal muscle, specifically the myosin heavy chain antibody. Based upon this analysis, we propose a new skeletal muscle differentiation protocol that reflects the roles of the various growth factors which promote robust myotube formation. Further observation noted that the proposed skeletal muscle differentiation technique also supported muscle–nerve coculture. Immunocytochemical evidence of nerve–muscle coculture has also been documented. Applications for this novel culture system include biocompatibility and skeletal muscle differentiation studies, understanding myopathies, neuromuscular disorders, and skeletal muscle tissue engineering.     

A new method for study of normal lens developmentin vitro using pulsatile delivery of PDGF or EGF in HL-1 serum-free medium

Summary A new culture method was used to study increases in wet and dry weight and soluble protein during normal development of the transparent lens. Seven different media with more than ten different additives were tested for their effects on cultured lens transparency.In vivo, rat lenses increased 53% in soluble protein content between 3 and 5.5 days of age. Only HL-1 serum-free medium containing 15 μg/ml insulin plus 1–2 ng/ml BB platelet-derived growth factor (PDGF), or 5–7 ng/ml epidermal growth factor (EGF) allowed similar growthin vitro, during the same time period. Normal lens grwoth occurred in culture when fresh medium was delivered to lenses as a pulse every 4–6 hours. Lenses decreased in dry weight and soluble protein content, and became opaque when the same medium was delivered continuously. Lenses increased only 26% and 32% in soluble protein content when delivered pulses of HL-1 medium containing BB PDGF or EGF in the absence of insulin. We suggest that pulsatile delivery of medium containing insulin and PDGF or EGF stimulates lens growth during developmentin vitro. This pulsatile organ culture system is presented as a new approach for studying the effects of growth factors on cell proliferation, differentiation, and receptor regulation in a developing tissue. This work was supported by grants from EY-07031 and EY-04542 from the National Eye Institute and a grant from the Oculon Corporation. Editor's statement This report documents an in vitro system that may mimic lens development and response to growth regulators and hormones. The system may be useful for application to other organs and provide a foundation for cell and molecular level analysis.     

Growth of H-35 rat hepatoma cells in unsupplemented serum-free media: Effect of transferrin,insulin and cell density

Summary Serum-free tissue culture medium consisting of a 1∶1 mixture of Dulbecco's modified Eagle's medium (DMEM) and Ham's F12 medium is herein shown to support growth of Reuber H-35 cells over several days in culture. Cells were initially plated in serum containing DMEM medium for 3 h. After cell attachment, serum is removed and replaced with a serum-free 1∶1 mixture of these two commercially available tissue culture media. The doubling time of cell growth in this unsupplemented serum-free medium was 46 h in lightly plated cultures over the first 5 d. The presence of transferrin (5 μg/ml) and insulin (3.3 nM) results in a cell doubling time of 17 h, which equaled the growth rate in medium containing 10% fetal bovine serum. In the absence of transferrin, growth rates in serum-free medium were correlated with the cell density of cultures. Conditioned medium from dense, serum-free cultures has growth-stimulating activity in recipient lightly plated cultures. This simple, serum-free culture medium will facilitate studies on the growth regulation of H-35 rat hepatoma cells. This work was funded by a feasibility grant from the American Diabetes Association, as well as by the National Institutes of Health grants CA 24604-09 and CA 16463-14.     

Recombinant protein production in insect cell cultures infected with a temperature-sensitive baculovirus

Spodoptera frugiperda (IPLB-SF-21) insect cells were grown in shake-flasks and infected with a temperature-sensitive baculovirus to express the gene of chloramphenicol acetyl transferase (CAT) in serum-free medium (SF-900) and two serum-supplemented media (IPL-41 and Grace's). In temperature-shift experiments (cell growth at 33°C followed by virus replication at 27°C 3–4 days later), virus and CAT production were much poorer in the serum-free medium than in serum-supplemented media, though cell growth was virtually the same in the different media tested. In all the three media, highest virus and CAT titers were obtained at the lowest MOI (multiplicity of infection 0.02). This result is contrary to that obtained in constant-temperature culture (27°C for both cell growth and virus replication). Virus and CAT production was greatly improved when the entire culture was run at constant temperature. It appeared that infected cells were severely damaged at 33°C (6°C above the optimal 27°C), resulting in little or no virus and protein production. As a result of these temperature-shift experiments, a larger-scale (141 air-lift bioreactor) serum-free culture of Sf-9 insect cells was conducted at constant temperature (27°C) to produce recombinant protein (β-galactosidase). A cell density as high as 1×10⁷ cells.ml⁻¹, and a β-gal concentration of up to 104,000 unit.ml⁻¹ were achieved.     

Effects of serum and serum-derived factors on growth and differentiation of mouse keratinocytes

Summary Mouse epidermal keratinocytes (MK cells) were grown as replicating subcultures at clonal density, in a serum-free, low calcium basal medium supplemented with seven different growth factors (Bertolero et al., Exp. Cell. Res. 155:64–80, 1984). This serum-free system was used to investigate the activity of cells. bovine serum (FBS) and of serum-derived factors on the growth and differentiation of MK cells. Unfractionated, whole FBS inhibited growth and induced terminal differentiation of normal MK cells. The growth inhibitory activity was considerably reduced by passing whole FBS over a resin (Chelex) to remove Ca²⁺ and other di- and trivalent cations. It is not known whether this treatment removed other factors. Addition of individual serum components either stimulated or inhibited cell-growth and differentiation. Fetuin, a major α-globulin of FBS, and high density lipoprotein strongly inhibited the colony forming efficiency (CFE) of MK cells, whereas bovine serum albumin increased the CFE 4.5-fold and stimulated the growth rate as well. The addition of impure commercial preparations of platelet-derived growth factor inhibited the CFE and induced the morphological features of squamous terminally-differentiating keratinocytes. As reported in other systems, transforming growth factor beta (TGF-β) inhibited the growth of secondary keratinocytes in a dose-dependent manner. Thus, at least three factors present in FBS inhibited growth whereas others were stimulatory. These observations explain the difficulties in obtaining replicating subcultures of mouse keratinocytes in serum-supplemented media and emphasize the importance of a serum-free system for studies on growth control and carcinogenesis in keratinocytes. Editor’s Statement This report contributes significantly to our knowledge of keratinocyte cell biology in two ways. First, a serum-free medium has been developed that can now be used by many investigators to define growth versus differentiation factors for these cells. This is important since several impure or relatively crude preparations of factors are known to influence these cells. Second, the finding that TGF-Beta is an inhibitor of keratinocyte growth opens new avenues to investigate the biochemical events leading to differentiation. David A. Sirbasku     

Human macrovascular endothelial cells: Optimization of culture conditions

Summary The purpose of this study is to identify optimal culture conditions to support the proliferation of human macrovascular endothelial cells. Two cell lines were employed: human saphenous vein endothelial cells (HSVEC) and human umbilical vein endothelial cells (HUVEC). The influence of basal nutrient media (14 types), fetal bovine serum (FBS), and mitogens (three types) were investigated in relation to cell proliferation. Additionally, a variety of extracellular matrix (ECM) substrate-coated culture dishes were also tested. The most effective nutrient medium in augmenting cell proliferation was MCDB 131. Compared to the more commonly used M199 medium, MCDB 131 resulted in a 2.3-fold increase in cell proliferation. Media containing 20% FBS increased cell proliferation 7.5-fold compared to serum-free media. Among the mitogens tested, heparin (50 μg/ml) and endothelial cell growth supplement (ECGS) (50μg/ml) significantly improved cell proliferation. Epithelial growth factor (EGF) provided no improvement in cell proliferation. There were no statistical differences in cell proliferation or morphology when endothelial cells were grown on uncoated culture plates compared to plates coated with ECM proteins: fibronectin, laminin, gelatin, or collagen types I and IV. The culture environment yielding maximal HSVEC and HUVEC proliferation is MCDB 131 nutrient medium supplemented with 2 mM glutamine, 20% FBS, 50 μg/ml heparin, and 50 μg/ml ECGS. The ECM substrate-coated culture dishes offer no advantage.     

Characterization of yeastolate fractions that promote insect cell growth and recombinant protein production

Yeastolate is effective in promoting growth of insect cell and enhancing production of recombinant protein, thus it is a key component in formulating serum-free medium for insect cell culture. However, yeastolate is a complex mixture and identification of the constituents responsible for cell growth promotion has not yet been achieved. This study used sequential ethanol precipitation to fractionate yeastolate ultrafiltrate (YUF) into six fractions (F1–F6). Fractions were characterized and evaluated for their growth promoting activities. Fraction F1 was obtained by 65% ethanol precipitation. When supplemented to IPL-41 medium at a concentration of 1 g L⁻¹, fraction F1 showed 71% Sf-9 cell growth improvement and 22% β-galactosidase production enhancement over YUF (at 1 g L⁻¹ in IPL-41 medium). However, the superiority of F1 over YUF on promoting cell growth gradually diminished as its concentration in IPL-41 medium increased. At 4 g L⁻¹, the relative activity of F1 was 93% whereas YUF was 100% at the same concentration. At 1 g L⁻¹, four other fractions (F2–F5) precipitated with higher ethanol concentrations and F6, the final supernatant, showed growth promoting activities ranging from 32 to 80% as compared to YUF (100%). Interestingly, a synergistic effect on promoting cell growth was observed when F6 was supplemented in IPL-41 medium in presence of high concentrations of F1 (>3 g L⁻¹). The results suggest that ethanol precipitation was a practical method to fractionate growth-promoting components from YUF, but more than one components contributed to the optimum growth of Sf-9 cells. Further fractionation, isolation and identification of individual active components would be needed to better understand the role of these components on the cell metabolism.     

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.     

Increased glucocorticoid responsiveness of CD4+ T-cell clonal lines grown in serum-free media

Summary CEM-C7, a human leukemic CD4+ T-lymphocyte cell line and three of its subclones, CEM-4R4, CEM-3R43, and ICR-27, previously cultured in a medium supplemented with 5 to 10% fetal bovine serum, have been adapted to serum-free media. The best medium of those tested was RPMI 1640 supplemented with 5 μg/ml each transferrin and insulin + 5 ng/ml sodium selinite ± 0.1% bovine serum albumin. While growing either with or without albumin, the several clonal lines of CEM cells displayed growth similar to serum-supplemented cultures. Cell proliferation of CEM-C7 cells cultured in both serum-free media has been sustained for 3 mo, with culture doubling times of about 25 h for both serum-supplemented and serum-free cultures (viability ≥ 90%). Cell morphology remained essentially the same in serum-free or serum containing media. The expression of CD4, a marker for T-derived lymphoid cells, was not significantly different in serum-free medium. When grown in serum-free medium, CEM-C7 cells exhibited increased steroid responsiveness as evidenced by increased glucocorticoid receptor binding sites, increased induction of glutamine synthetase, and cell lysis at lower concentrations of steroid. Receptor mutant subclones of CEM-C7, which are proven to be completely unresponsive to micromolar concentrations of dexamethasone when grown in serum-supplemented medium, become partially sensitive to the hormone after growth in defined medium. The increased sensitivity of CEM-C7 cells and its subclones to dexamethasone in serum-free medium returned to previous levels when these cells were recultured in serum-containing medium. Our results suggest that substances in serum influence steroid effects on these cells and that the molecular details of glucocorticoid hormone action may be pursued more precisely in a clearly defined culture medium. This work was conducted in conjunction with the Walls Medical Research Foundation.     

Cell-mediated contraction of collagen lattices in serum-free medium: Effect of serum and nonserum factors

Summary This study was conducted to identify a defined, serum-free culture medium that supports cell dependent contraction of a collagen lattice. Collagen lattices were found to contract in cultures containing human foreskin fibroblasts (HFF) or rabbit aortic smooth muscle (RASM) cells incubated in serum-free medium. HFF and RASM cells required different supplements to contract the collagen gels. HFF cultured in Dulbecco’s modified Eagle’s (DME) medium supplemented with bovine serum albumin (BSA) and either endothelial cell growth supplement (EnGS), insulin (In), or platelet derived growth factor (PDGF) supported collagen lattice contraction. Replacement of BSA with casein without the addition of other supplements improved contraction. In contrast, RASM cells supplemented with BSA, EnGS, In, and PDGF were able to contract collagen gels only minimally. Similar to HFF, RASM cells cultured in DME medium supplemented with casein, but without the addition of other supplements, contracted collagen lattices. HFF-mediated collagen contraction was inhibited by prostaglandins E₁ or E₂, fibronectin, or ascorbic acid. The reported serum-free model provides a useful in vitro method to investigate the role of serum and nonserum factors regulating cell mediated-contraction of insoluble collagen fibrils. Presented in part as abstract 1963 in the 1985 Federation of American Societies for Experimental Biology, April 21–26, Anaheim, California, and published in Fed. Proc. (44):747; 1985.     

Growth of preadipocyte cell lines and cell strains from rodents in serum-free hormone-supplemented medium

Summary Ob17 is a clonal cell line isolated from the epididymal fat pad of C57 BL/6J ob/ob mouse that differentiates into adiposelike cells in serum-supplemented medium. In serum-free medium, this cell line shows increased growth under the addition of insulin, transferrin, fibroblast growth factor (FGF), and a factor present in extract of rat submaxillary gland (SMGE). This medium is referred to as 4F. Epidermal growth factor or nerve growth factor cannot replace SMGE, whereas partially purified platelet extract can substitute for FGF but only partially for SMGE. 4F Medium is able to support the proliferation of cells from other established preadipocyte clonal lines, HGFu and 3T3-F442A, and also of preadipocyte cells isolated from the stromal-vascular fraction of rat and mouse adipose tissues. In each case 4F medium is insufficient to support the differentiation of these cells into adipocytes. Ob17 cells grown and maintained in serum-free hormone-supplemented medium retain the ability to convert to adiposelike cells after serum addition. This serum requirement for differentiation cannot be substituted by the addition of growth hormone or of other putative adipogenic factors, or both. The results are discussed with respect to the requirements for growth and differentiation of the 3T3-L1 and 1246 preadipocyte cell lines previously described. This work was supported by the “Centre National de la Recherche Scientifique” (Grant 1208-Biochimie du Développement and Grant 4162-Endocrinologie), by the “Ministère de la Recherce et de la Technologie” (Grant 81-L-1322), by the “Fondation pour la Recherche Médicale,” by NATO (Grant 1704), and by the “Institut National de la Santé et de la Recherche Médicale” (Grant 827006).     

Continuous growth of human tumor cell lines in serum-free media

Summary Five human tumor cell lines were studied for growth factor requirements and for replication in serum-free media. Of the five tumor lines HT-29 (colon carcinoma), TWI (melanoma), A-549 (lung carcinoma), Panc-1, (carcinoma of the pancreas) and EJ, (bladder carcinoma) only HT-29 and TWI grew in the serum-free medium (SFM). In a series of additional experiments, a combination of transferrin (5 μg/ml), insulin (5 μg/ml), triiodothyronine (2×10⁻¹⁰ M), epidermal growth factor (20 ng/ml), and selenium (5 ng/ml) was added to Chee’s essential medium (CEM) without serum (C-TITES medium). The C-TITES modification of CEM was found to allow optimal replication of HT-29 and TWI cells. Both HT-29 and TWI cells have replicated continuously in C-TITES medium for periods of more than 15 mo. These cells replicate with slightly lower doubling times than in CEM supplemented with 10% fetal bovine serum. Deletion of insulin or transferrin from the C-TITES medium resulted in cessation of cell growth of HT-29 and TWI. HT-29 assumed a somewhat rounded morphology, whereas TWI grew with the characteristic fibroblastic morphology in C-TITES medium. Cell line EJ did not grow in C-TITES medium. The other two cell lines, A-549 and Panc-1, grew in C-TITES medium but their growth rate was much slower than that in SSM. Availability of cell lines that can be propagated in serum-free, hormone-supplemented medium may aid in the study of the mechanisms by which hormones influence cell growth. This work was supported by Veterans Administration Research Awards to two of the authors (Karimullah A. Zirvi and George J. Hill) and grant no. CA-37138 from the National Cancer Institute.     

Further optimization of culture method for rat keratinocytes: Titration of glucose and sodium chloride

Summary The present study further improved the serum-free method of culturing rat keratinocytes. To obtain the best growth of rat keratinocytes, we modified our previous serum-free medium (MCDB153 based medium), particularly the amounts of glucose and sodium chloride (NaCl). Titration experiments showed the optimal concentration to be 0.8 mM for glucose and 100 mM for NaCl. This modification eliminated the requirement for albumin, which had been essential for colony formation when our previous medium was used. Titration of glucose and NaCl, followed by adjustment of essential amino acids and growth factors, produced a new formulation. More satisfactory and better growth was achieved with the new medium than with the previous medium. Accumulation of monoalkyldiacylglycerol (MADAG) was consistently noted in this study, representing the unusual lipid profile. A tendency toward normalization was, however, noted with the neutral lipid profile of keratinocytes cultivated in the new medium: lower production of MADAG was obtained with the new formulation, rather than the previous one.     

Growth factor requirements of organogenesis in serum-free metanephric organ culture

Summary In order to define humoral growth factors which may regulate mammalian renal development, the growth requirements of fetal metanephric organogenesis were studied in serum-free murine organ culture. Metanephric growth, determined by cell proliferation and protein content, and metanephric differentiation, determined morphometrically as epithelial glomerular formation, were compared and contrasted following 144 hours of organ culture incubation in basal medium, basal medium supplemented with 10% fetal bovine serum, and basal medium supplemented with various combinations of growth factors. The basal medium was composed of equal volumes of Dulbecco's modified Eagle's medium and Hams' F-12 medium. Five humoral growth factors were studied in the following concentrations: selenium, 6.8×10⁻⁹ M; insulin, 8.3×10⁻⁷ M; triiodothyronine, 2×10⁻⁹ M; transferrin, 6.2×10⁻⁸ M; and prostaglandin E₁, 7.1×10⁻⁸ M. Results showed that transferrin and prostaglandin E₁ were necessary for optimal growth in the system and that prostaglandin E₁ was necessary for maximal metanephric differentiation. Such data provide guidelines for the creation of serum-free medium for future fetal renal cell and tissue culture systems, and provide insight into the factors which may regulate normal and abnormal renal embryogenesis and the reparative processes of renal hyperplasia and hypertrophy which follow renal injury. A preliminary report of this work was presented at the Ninth International Congress of Nephrology, Los Angeles, June 1984. These studies were supported in part by Basil O'Connor Starter Research Grant 5-349 from the March of Dimes Birth Defects Foundation and New Investigator Research Award I-R23-AM34891-01 from the National Institute of Arthritis, Diabetes, and Digestive and Kidney Diseases of the National Institutes of Health (Both to Dr. Avner). Editor's Statement The determination of effects of extracellular components on the introduction and maintenance of differentiation is an area for which serum-free culture techniques are particularly suited. The approaches described in this report utilize morphometric techniques to quantitate differentiation in serum-free fetal organ culture in addition to standard methodologies for assessing growth. The purely epithelial nature of the cultures used in these studies also provides some interesting advantages in the design of experiments aimed, at determining the importance of cell-cell interactions at various stages in the differentiative process. David W. Barnes     

Physiology of myeloma cells grown in glucose-limited chemostat cultures

A recombinant myeloma NS1-derived clone was grown in chemostat cultures in Dulbecco's MEM/Ham's F12 (1∶1) medium containing various concentrations of glucose, at a dilution rate of 0.028 h⁻¹. Serum-supplemented cultures were virtually glucose-limited at a large range of glucose feed concentrations (0.7–5 mM). True glucose-limited cultures, however, were only established at low glucose supply levels to 1.3 mM at a maximum. In cultures obtained at higher glucose concentrations methionine was shown to be the growth-limiting compound. The pattern derived for serum-free chemostat cultures was similar, except that growth yields on glucose were much lower. Glucose was shown to be the growth-limiting substrate in cultures fed with media containing less than 4.5 mM glucose. Upon supplying glucose at higher concentrations such cultures presumably run into methionine and/or tryptophan limitation.     

Inhibition effect of pcDNA-tum-5 on the growth of S180 tumor

Tumor growth and metastasis depend on vessel formation, and inhibition of angiogenesis of tumor by production of anti-angiogenic drugs should be a promising approach for cancer therapy. Tumstatin is an angiogenesis inhibitor. The anti-angiogenic activity of tumstatin is localized to the 54–132 amino acids. The gene fragment encoding amino acids 45–132 of tumstatin (tum-5) was subcloned into pcDNA3.1 (pcDNA-tum5). Tum-5 protein could be expressed and secreted in CHO cells after transfection. The conditioned medium (containing tum-5 protein) from the transfectant has an anti-angiogenic effect on HUVEC cells in vitro. The anti-tumor effect of pcDNA-tum5 on mice bearing S180 tumors was evaluated. The results showed that pcDNA-tum-5 has a significant inhibition activity in the growth of the tumors. This study suggests that the gene delivery of tum-5 may be an effective strategy for cancer therapy.     

Acquisition of in vitro growth autonomy during B16 melanoma malignant progression is associated with autocrine stimulation by transferrin and fibronectin

Summary Four mouse B16 melanoma subclones representing distinct stages in the benign-to-malignant progression of that tumor (G3.15, G3.5, G3.12, and G3.26), and three phenotype conversion variants with enhanced malignancy (G3.15*, G3.5*, and G3.12*), were comparatively examined for exogenous mitogen and growth factor requirements and for responsiveness to exogenous and endogenous growth modulators in monolayer culture. Growth behavior in serum-free medium with or without mitogen or growth factor supplements, and in supplemented quiescent serum-containing medium, confirmed previous indications that the G3.5 and G3.15* phenotypes were identical, as were the G3.26 and G3.12* phenotypes. However, G3.12 differed from the closest conversion equivalent, G3.5*, and probably represents an aberrant phenotype within this sequence. There was a direct relationship between degree of malignancy (G3.15 → G3.5 → G3.5* → G3.26), growth capacity in serum-free medium, and responsiveness to transferrin. Only G3.5*, G3.26, and G3.12* cells were growth-autonomous in serum-free medium and also highly responsive to mitogens. The polypeptide growth factors epidermal growth factor, platelet-derived growth factor, basic fibroblast growth factor, transforming growth factor-α, and insulinlike growth factor-1 and -2 were generally stimulatory in quiescent medium, but the degree of growth promotion was unrelated to malignancy level. Transforming growth factor-β1 was inhibitory to the more benign populations (G3.15, G3.5, and G3.15*) but stimulated proliferation of other cells. All populations produced autocrine fibronectin, and G3.12, G3.5*, G3.26, and G3.12* cells also produced autocrine transferrin. Only G3.12 cells failed to utilize both of those factors. Reversible mitogen-stimulated G3.12 cell growth was accompanied by partial and reversible responsiveness to both autocrine transferrin and fibronectin, whereas permanent stimulation by both factors characterized all growth-autonomous populations.     

The Kinetics of Polyethylenimine-Mediated Transfection in Suspension Cultures of Chinese Hamster Ovary Cells

The kinetics of polyethylenimine (PEI)-mediated gene transfer at early times after transfection of Chinese hamster ovary (CHO) cell in suspension were investigated using a novel in vitro assay. Addition of an excess of competitor DNA to the culture medium at various times after the initiation of transfection inhibited further cellular uptake of PEI–DNA particles. Using this approach, a constant rate of particle uptake was observed during the first 60 min of transfection at a PEI:DNA ratio of 2:1 (w/w) and a cell density of 2 × 10⁶ cells/ml under serum-free conditions. The uptake rate declined considerably during the next 2 h of transfection. Both the rate and the level of PEI–DNA uptake in serum-free minimal medium were found to be dependent on the PEI–DNA ratio, the cell density at the time of transfection, and the extent of particle aggregation. These studies of the early phase of PEI-mediated transfection are expected to lead to further opportunities for optimization of gene transfer to suspension cultures of mammalian cells for the purpose of large-scale transient recombinant protein production.     

Effects of subcultivation and culture medium on differentiation of human fetal cardiac myocytes

Summary Previous work has suggested that subcultivated human fetal heart muscle cell cultures contain immature cardiac muscle cells capable only of limited differentiation after mitogen withdrawal. We studied several human fetal heart cultures (14–15 wk gestation) at several passage levels using immunocytochemistry, autoradiography, and Northern blot analysis. Characteristics in high-mitogen (growth) medium were compared with those after serum withdrawal. Cultured cells from one heart, expanded through 2 passages in growth medium, did not beat; however, 75% of cells did beat after subsequent culture for 24 days in low-serum (differentiation) medium containing insulin. In confluent cultures after 1 passage, there was no detectable difference in the number of cardiac myocytes present in growth medium compared with that 7 days after serum withdrawal. After 4 passages, however, serum withdrawal increased the number of cells expressing immunoreactive sarcomeric myosin heavy chain by 100-fold; expression of immunoreactive sarcomeric actin andα-cardiac actin mRNA also increased in the same cultures. Similar results were obtained in cultures kept in differentiation medium for 20 days before passage and expansion in growth medium. Using isopycinc centrifugation, a high-density cell fraction was isolated which contained no immunostained myocytes in growth medium but numerous myocytes after serum withdrawal. Combined immunocytochemistry/autoradiography showed that myocytes synthesize DNA in growth medium and in serum-free medium containing fibroblast growth factor, but not in serum-free medium alone. The results indicate that a) human fetal cardiac muscle cells proliferate in vitro and can maintain a phenotype characteristic of fetal myocytes after multiple subcultivations followed by serum withdrawal; b) after subcultivation in growth medium, some myocytes modulate their phenotype into one in which detectable levels of cardiac contractile proteins are expressed only after mitogen withdrawal, and c) the phenotype attained after serum withdrawal is in part dependent on passage level. Cultured human fetal myocardial cells my provide a useful experimental system for the study of human cardiac muscle cell biology.     

Submerged culture of a mycelial formulation of a bioherbicidal strain of <Emphasis Type="Italic">Myrothecium </Emphasis><Emphasis Type="Italic">verrucaria</Emphasis> with mitigated mycotoxin production

A mycelial formulation of the fungus Myrothecium verrucaria (IMI 361690) containing 0.20% Silwet L-77 surfactant was found to be highly efficacious in controlling the exotic invasive weed kudzu. The mycelium can be rapidly (48–72 h) produced in several media, including an inexpensive soy flour–corn meal medium. Mycelial yields were 2, 10, and 25 g dry weight l⁻¹ in Czapek-Dox, Richard’s V-8, and soy flour–corn meal media, respectively. Scale-up production in soy flour–corn meal medium using laboratory fermenters (10–25 l), resulted in a mycelial formulation that caused 90% mortality of naturally-occurring mature (0.9–1.0 m in height) kudzu within 48 h after application in field experiments. HPLC analyses revealed that the mycelium produced in this liquid culture contained no detectable amounts of the trichothecene mycotoxins roridin A and verrucarin A (limit of detection 2 μg ml⁻¹). This has resulted in a safer, yet effective bioherbicidal product. We anticipate that these findings should improve the probability of EPA registration and subsequent commercial development of this bioherbicide.