Kidney glomerular explants in serum-free media. Sequential morphologic and quantitative analysis of cell outgrowths

Guinea pig glomeruli were grown in vitro for 22 days in a serum-free medium composed of Waymouth's MB 752/1 supplemented with sodium pyruvate, nonessential amino acids, antibiotics, insulin, transferrin, selenium, triiodothyronine, and fibronectin (FN), and sequential morphologic and quantitative studies of cell outgrowth were performed. Glomeruli grown in serum-free medium showed preservation of glomerular visceral epithelial cells but extensive necrosis of endocapillary cells (endothelial and mesangial cells). Morphologic analysis demonstrated progressive morphologic changes in cultured glomerular cells; however, most cell types observed in culture appeared to grow from the epithelial side of the glomerular basement membrane. Mitosis was a prominent component of glomerular cell outgrowth in vitro, and total DNA increased slightly during glomerular culture. FN was required for glomerular cell outgrowth, and studies using FN fragments demonstrated that the carboxy-terminal portion of FN was required for whole glomerular attachment. These results are used to develop a model for glomerular cell outgrowth in vitro.     

Kidney glomerular explants in serum-free media: Demonstration of intracellular antioxidant enzymes and active oxygen metabolites

Summary Guinea pig glomeruli were grown for 22 d in a serum-free medium composed of Waymouth's MB 752/1 supplemented with sodium pyruvate, nonessential amino acids, and antibiotics (the basic medium). Intracellular cellular activity of the antioxidant enzymes superoxide dismutase (SOD; both copper-zinc [Cu,Zn] and manganese [Mn] forms) and catalase, and intracellular active oxygen metabolites (hydrogen peroxide [H₂O₂] and superoxide [O_{2 −} ^· ]) were measured with time in culture. The results were compared to results obtained from glomeruli grown in different serum-free media, including the basic medium plus fibronectin (FN), the basic medium plus transferrin and FN, and a complex medium containing insulin, transferrin, selenium (Se), triiodothyronine, and FN (complete medium). In general, although the intracellular activity of antioxidant enzymes and active oxygen metabolites varied over time in culture in all media, there were only a few statistically significant differences among different media. Both CuZn SOD and Mn SOD activity were demonstrated, in isolated glomeruli. The CuZn SOD activity per DNA ratio decreased slightly with time in culture in all media tested except the complete medium, in which CuZn SOD activity per DNA ratio remained more constant. The Mn SOD activity per DNA ratio did not vary significantly over time in culture. Catalaselike activity was very low in isolated glomeruli and declined sharply with time in culture in all media except the complete medium. Both H₂O₂ and O_{2 −} ^· were detected intracellularly in glomerular culture. Our results indicate that intracellular antioxidant enzymes and active oxygen metabolites in glomeruli vary with time in culture and, in some instances, with culture conditions. Supported by grants to Dr. Terry Oberley from the University of Wisconsin Graduate School and by the Veterans Administration. Mr. Steinert was a predoctoral fellow supported by National Institutes of Health training grant 5-T32 ES0715.     

The effect of the dimeric and multimeric forms of fibronectin on the adhesion and growth of primary glomerular cells

Primary glomerular cells placed in a chemically defined medium containing Waymouth's medium MB 752/1 supplemented with insulin, transferrin, fibroblast growth factor, nonessential amino acids, sodium pyruvate, and antibiotics showed rapid outgrowth of cells which morphologically resembled well differentiated visceral epithelial cells followed by outgrowth of poorly differentiated cells; morphologic evidence suggests these latter cells are precursor cells of the epithelial cell lineage. Whereas the well differentiated glomerular epithelial cells were never observed to divide by sequential phase microscopic observations, a chemically defined medium was developed for optimal growth of the poorly differentiated cell type. This serum-free medium contained Waymouth's medium MB 752/1 supplemented with insulin, transferrin, selenium, and fibronectin (plus non-essential amino acids, sodium pyruvate, and antibiotics). Using this chemically defined medium, we have compared the effects of dimeric and multimeric fibronectin (high molecular weight disulfide-bonded fibronectin produced by incubation of dimeric fibronectin with 3 M guanidine followed by dialysis against 0.05 M cyclohexylaminopropane sulfonic acid (CAPS) buffer, pH 11) on the adhesion and growth of the poorly differentiated primary glomerular cell type. Dimeric fibronectin (FN) was twice as effective as multimeric FN in promoting glomerular cell adhesion, although both forms of FN promoted cell adhesion better than an uncoated substratum. In contrast, cell growth studies demonstrated that multimeric FN was a more potent growth stimulant than dimeric FN. The differential effects of dimeric and multimeric forms of FN in vitro suggests that these molecules may have different functions in vivo.     

Optimisation of media for the culture of normal human epithelial cells from oesophageal mucosa

A technique has been developed which allows growth and histology/cytochemistry of primary oesophageal mucosal explant cultures to be monitored over four weeks. The paper describes experiments designed to optimise media and culture conditions. The results suggest that optimal growth can be obtained in media containing RPMI 1640, and 10% horse or newborn calf serum. McCoy's 5A medium or Dulbecco's modified MEM could be substituted for RPMI but Iscove's serum-free medium or Ham's nutrient mixture inhibited growth or promoted fibroblast contamination. The essential additive appeared to be insulin while selenium was highly toxic to the cells. Hydrocortisone or EGF improved growth slightly under some conditions. Neither transferrin nor cholera toxin had any beneficial effect. None of the cell culture flask coating agents improved attachment or growth.     

Regulation of growth and differentiation of a rat hepatoma cell line by the synergistic interactions of hormones and collagenous substrata

Serum-free, hormonally defined media have been developed for optimal growth of a rat hepatoma cell line. The cells' hormonal requirements for growth are dramatically altered both qualitatively and quantitatively by whether they were plated onto tissue culture plastic or collagenous substrata. On collagenous substrata, the cells required insulin, glucagon, growth hormone, prolactin, and linoleic acid (bound to BSA), and zinc, copper, and selenium. For growth on tissue culture plastic, the cells required the above factors at higher concentrations plus several additional factors: transferrin, hydrocortisone, and triiodothyronine. To ascertain the relative influence of hormones versus substratum on the growth and differentiation of rat hepatoma cells, various parameters of growth and of liver-specific and housekeeping functions were compared in cells grown in serum-free, hormonally supplemented, or serum-supplemented medium and on either tissue culture plastic or type I collagen gels. The substratum was found to be the primary determinant of attachment and survival of the cells. Even in serum-free media, the cells showed attachment and survival efficiencies of 40-50% at low seeding densities and even higher efficiencies at high seeding densities when the cells were plated onto collagenous substrata. However, optimal attachment and survival efficiencies of the cells on collagenous substrata still required either serum or hormonal supplements. On tissue culture plastic, there was no survival of the cells at any seeding density without either serum or hormonal supplements added to the medium. A defined medium designed for cells plated on tissue culture plastic, containing increased levels of hormones plus additional factors over those in the defined medium designed for cells on collagenous substrata, was found to permit attachment and survival of the cells plated into serum-free medium and onto tissue culture plastic. Growth of the cells was influenced by both substrata and hormones. When plated onto collagen gel substrata as compared with tissue culture plastic, the cells required fewer hormones and growth factors in the serum-free, hormone-supplemented media to achieve optimal growth rates. Growth rates of the cells at low and high seeding densities were equivalent in the hormonally and serum-supplemented media as long as comparisons were made on the same substratum and the hormonally supplemented medium used was the one designed for that substratum. For a given medium, either serum or hormonally supplemented, the saturation densities were highest for tissue culture plastic as compared with collagen gels.(ABSTRACT TRUNCATED AT 400 WORDS)     

Three-dimensional growth and morphogenesis of mouse submandibular epithelial cells in serum-free primary culture

Mouse submandibular epithelial cells can be grown in primary culture using the collagen gel matrix and a chemically defined medium consisting of insulin, transferrin, cholera toxin, and BSA (or FGF). Sustained cell growth leading to a 5–10-fold increase in cell number was observed in less than 2 weeks. In the presence of these additives, clumps of cells proliferate by extending ‘star-like’ projections into the matrix, resulting in three-dimensional outgrowths. The morphology of these outgrowths can be modulated to form a ‘cyst-like’ appearance by deleting BSA and adding cortisol to the basal medium containing insulin, transferrin, cholera toxin and FGF. In brief, a serum-free medium for sustained growth has been devised and a simple manipulation of supplements can modulate the three-dimensional colony morphology in the collagen gel matrix. Finally, the resulting outgrowths can produce epidermal growth factor (EGF) in response to dihydrotestosterone.     

A morphologic and immunofluorescent analysis of primary guinea pig glomerular cell types grown in chemically defined media. Evidence for clonal growth and cell differentiation

Primary kidney guinea pig glomerular cells were successfully grown in chemically defined media containing insulin, transferrin, and fibronectin or glycylhistidyllysine and fibronectin. Morphologic analysis of glomerular cells grown in either of these chemically defined media provided identical results with respect to cell growth properties and cell types involved. Electron microscopic studies of glomeruli early after they had been placed in culture showed definite evidence of "dedifferentiation" of some glomerular cells. Most glomerular cells in later cultures were undifferentiated. However, since electron microscopic analyses of glomeruli in confluent cultures demonstrated that the majority of cells in culture grow from the epithelial side of the glomerular basement membrane, we suggest that these cells were some form of epithelial cell. This conclusion was further strengthened by the fact that cells resembling well differentiated glomerular epithelial cells were seen in cultures of glomeruli grown in chemically defined media; these cells have never been observed in glomeruli grown in calf serum. Fluorescent microscopy of cell stained with the mitochondrial stain rhodamine 123 allowed identification of several glomerular cell types according to distribution, number, and morphology of mitochondria. Similarly, indirect immunofluorescent microscopy studies using antibodies to fibronectin or laminin provided evidence that glomerular cells separated into cell types according to mitochondrial staining properties were unique biochemically. Using these histochemical criteria it was possible to demonstrate that certain of the glomerular cell types could be selectively grown by addition of the enzyme galactose oxidase to the media. Analysis of our morphologic and histochemical results suggests the possibility that clonal growth and differentiation of glomerular epithelial cells occurs when glomeruli are placed in chemically defined media, and our results are compatible with the hypothesis that either "stem cells" or "dedifferentiated" cells are the primary cells dividing in culture.     

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.     

Growth of mouse vaginal epithelial cells in culture: Effect of sera and supplemented serum-free media

Summary Normal mouse vaginal epithelial cells isolated from ovariectomized ca. 35-d-old BALB/cCrgl mice were grown in primary culture using collagen gel metrix and a serum-free medium composed of a 1∶1 mixture of Dulbecco’s modified Eagle’s medium and Ham’s F12 (D:H) medium supplemented with insulin (IN), epidermal growth factor (EGF), cholera toxin, transferrin, and bovine serum albumin V (BSA). Three-dimensional cellular outgrowths occurred inside the collagen gel matrix. The contribution of each factor to cell growth was examined by individual addition to the basic D:H medium and by individual deletion from the complete serum-free medium. When added individually, only IN promoted growth. Deletion of IN from the complete serum-free medium markedly, diminished growth; deletion of EGF or BSA slightly diminished growth. When horse, fetal bovine, or chicken serum was added to the basal D:H medium, only with increasing doses of horse serum was there enhanced cell growth. The effect of 17?-estradiol and diethylstilbestrol on the growth of cells was also tested, using a suboptimal medium of D:H supplemented with BSA and IN, or a minimal medium supplemented with IN alone. During the 8-d time period, addition of estrogen did not enhance cell growth in either medium. To date, we have been unable to demonstrate a mitogenic effect of estrogen; rather a dose-dependent inhibition of proliferation is seen. This investigation was supported by grants CA-05388 and CA-09041, awarded by the National Institutes of Health, DHHS, Bethesda, MD.     

Proteins secreted by Caco-2 cells support growth of other tumor cells in Chee's Essential Medium without supplements.

The growth promoting effect of several hormones and growth factors on two human colon tumor cell lines (Caco-2 and SW 48) was studied using six different chemically defined serum-free media (SFM). Caco-2 grew in a simple SFM [GF3: Chee's Essential Medium (CEM) plus insulin, transferrin and selenium], whereas, SW 48 cells did not grow in GF3 medium. This suggested that Caco-2 cells probably secrete proteins in SFM which influence attachment and growth of Caco-2 and other tumor cells. Lyophilized Caco-2 conditioned medium and substratum, when added to plain CEM, supported growth of SW 48 and SW 948 cells. The substratum material was more effective than conditioned medium in promoting growth of the cell lines. The substratum material helps attachment and spreading of the cells and, thus, improves growth of the cells over conditioned medium. Caco-2 conditioned medium and substratum were analyzed for their components using SDS-PAGE system and gel filtration chromatography. The substratum was analyzed for the presence of fibronectin and laminin by the ELISA technique. The conditioned medium does not contain TGF alpha and TGF beta. The growth stimulating activity of the conditioned medium is due to a protein component, approximately 58Kd in size.     

Growth of enteric neurones from isolated myenteric ganglia in dissociated cell culture

Summary Ganglia of the myenteric plexus from the newborn guinea-pig, isolated by microdissection, were dissociated by a combination of enzymatic and mechanical methods. The neurones and glial cells in the resulting cell suspension were cultured for up to 21 days in vitro. The growth of the enteric ganglion cells in serum-free, hormone-supplemented (N1) medium and in serum-supplemented medium containing a mitotic inhibitor was compared over a period of 14 days in vitro. Enteric neurones were outnumbered by glia in both culture media, although glial cell proliferation was inhibited in both media compared with that in serum-supplemented medium without mitotic inhibitors. Glial cell numbers appeared to decline in serum-free medium after the first week in vitro. Neurites tended to be more varicose in the serum-free medium, and the morphology of the enteric glial cells also differed markedly in the two media. This is the first report of the dissociation and subsequent culture of myenteric ganglia that had previously been completely isolated from the remainder of the gut wall.     

Insulin-like growth factors, IGF-1, IGF-2 and somatomedin C trigger cell proliferation in mammalian epithelial cells cultured in a serum-free medium

A single insulin-like growth factor which constitutes part of a defined serum-free medium is sufficient to stimulate DNA synthesis and mitosis in mammalian lens epithelial cells. Rabbit lenses were cultured in KEI-4, a medium which mimics rabbit aqueous humor, or in KEI-4 containing insulin growth factor I (IGF I), insulin growth factor II (IGF II) or somatomedin C. The magnitude of DNA synthesis and mitosis was evaluated on whole mount preparations of the epithelium at various times of culture. IGF I and II, the most highly purified of the insulin-like growth factors, and somatomedin C were equipotent lens mitogens, were active at the ng level, were more mitogenic toward lens epithelial cells than insulin, and initiated cell proliferation throughout the normally amitotic central region of the lens epithelium. The time course of the mitotic response elicited by the insulin-like growth factors was identical to that noted in lenses cultured in medium supplemented with serum or insulin. The present results, coupled with those of other investigators, suggest that insulin-like factors may regulate cell division in the mammalian lens in vivo.     

Protein secretion by the mouse trophoblast during attachment and outgrowth in vitro

Protein secretion from mouse blastocysts undergoing attachment and trophoblast outgrowth in vitro was assessed. When Day 5 blastocysts were cultured in serum-containing medium, secretion of several 'attachment-associated' proteins (PAS) was initiated within 24 h, coincident with attachment and outgrowth. Those proteins characteristic of the pre-attachment blastocyst disappeared or made-up only a small portion of the secretions once attachment began. The major secreted protein from attached embryos, PA1, is a 35,000-45,000 Mr acidic glycoprotein with multiple isoelectric forms. PA2, a group of basic 40,000 Mr proteins and PA3 a group of 72,000 Mr proteins were also produced during outgrowth. PAS were secreted during outgrowth on fibronectin-coated plastic in serum-free medium, but not by blastocysts held in a non-attachment state during culture in serum-free medium on uncoated plastic. In pre-attachment blastocysts, secreted proteins were produced by trophoblast vesicles, but not by isolated inner cell masses. Both trophoblast vesicles growing out in vitro and surgically isolated trophoblast from spreading blastocysts had secreted protein patterns qualitatively similar to those of intact blastocyst outgrowths. The results indicate that development of trophoblast protein secretion continues through the period of outgrowth and giant cell transformation. These changes are apparently dependent on attachment of the blastocyst to a suitable substrate, but not dependent on any other serum influence.     

Serum-free primary culture of human normal mammary epithelial cells in collagen gel matrix

Collagen gel matrix has been used successfully to promote sustained growth of human normal mammary epithelial cells in primary culture using serum-containing medium supplemented with hormones and growth factors (Nandi et al., 1932). Sustained growth can now be accomplished in a serum-free medium consisting of a 1:1 mixture of Ham's F12 and DMEM supplemented with insulin, transferrin, epidermal growth factor, cholera toxin, cortisol, and BSA. Human normal mammary epithelial cells derived from reduction mammoplasties can be routinely propagated in this serum-free medium. The extent of growth and the resulting three-dimensional outgrowths in this serum-free medium, using the collagen gel matrix system, are comparable to those seen in serum-containing medium. This is the first demonstration of sustained growth of human normal mammary epithelial cells in serum-free primary culture.     

A serum-free medium for clonal growth and serial subculture of diploid rat liver epithelial cells

Summary Clonal growth and serial subculture of diploid liver epithelial cells from neonatal rats were achieved in a serum-free medium (SFM) supplemented with linoleic and oleic acid linked to fatty acid-free bovine serum albumin (fafBSA), epidermal growth factor (EGF), transferrin, insulin, selenous acid, and fetuin. Because it is not known whether factors added to defined media facilitate attachment, support proliferation, or both, a serum-free “attachment medium” was first devised in which cells would attach to the substratum without loss of viability. Then a growth medium that would support cell proliferation was developed. Fetuin enhanced the degree of attachment, and the lipid supplements and EGF induced a marked proliferative response. Serum-free medium supported the formation of colonies equivalent in size, number, and morphology to those obtained in serum-supplemented medium. Cells plated at a higher inoculum density and subcultured regularly for up to 25 wk underwent two to three doublings per week and acquired a flattened epithelial cell morphology. Early passages of rat liver epithelial cells, cultured in SFM may be useful in studies of the regulation of cell proliferation and differentiation. This research was sponsored by the National Cancer Institute, DHHS, under Contract NO1-CO-23909 with Litton Bionetics, Inc. The contents of this publication do not necessarily reflect the views or policies of the Department of Health and Human Services, nor does mention of trade names, commercial products, or organizations imply endorsement by the U. S. Government.     

Application of percent labeled mitoses (PLM) analysis to the investigation of melanoma cell responsiveness to MSH stimulation throughout the cell cycle

Dissociated embryonic chick dorsal root ganglionic cells were plated on collagen-coated tissue culture dishes in Eagle's basal medium containing 10% fetal calf serum (FCS). After 48 h, which allowed adequate cell attachment, the cultures were washed with serum-free medium and then received fresh medium supplemented with 10% FCS or serum-free defined medium (N1), which was supplemented with insulin, transferrin, progesterone, putrescine and selenium. In addition, both media required the addition of Nerve Growth Factor (NGF). N1 medium selectively maintained the neurons and did not support proliferation or even survival of almost all non-neuronal elements (fibroblasts and Schwann cells). Survival of neurons in N1 was initially as good and eventually better than in serum-containing medium. After 6 days in N1 the cultures consisted almost entirely of neurons (>95%), which had smaller cell bodies but more extensive process formation than in serum-supplemented medium. The omission of any one of the supplements resulted in a reduction of neuron survival. The ability to generate cultures of pure neurons in a serum-free defined medium may be useful for studying (i) the role of specific hormones and growth factors normally supplied by serum in the maintenance of neurons and (ii) biochemical parameters of neurons in the absence of the substantial background due to non-neuronal elements.     

The role of iron in the growth of human leukemic cell lines

The growth requirements of three human leukemic cell lines (K 562, HEL, U937) have been studied in the absence of serum. For growth in serum-free medium, the cells require insulin, transferrin, and albumin. Two highly water-soluble iron salts, ferric ammonium citrate and ferric ammonium sulfate, may completely replace transferrin for supporting the growth of these cell lines. Similar results were obtained when mitogen-stimulated lymphocytes were grown in serum-free media. Iron containing compounds, such as hemin or hemoglobin, were also able to replace transferrin. Experiments using 42/6 monoclonal antibody strongly suggest that free-iron salts are taken up by the cells by a mechanism that is completely independent from transferrin-receptors.     

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.     

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.     

Proteins excreted by primary human colon carcinoma cells (SW 480) promote spreading and growth of metastatic human colon carcinoma cells (SW 620) in serum-free medium

The growth behavior of the two human colon tumor cell lines (SW 480, primary and SW 620, metastatic), originating from the same patient, was studied in six different serum-free media (SFM) [GF3, Chee's essential medium plus insulin, transferrin and selenium; GF3F, GF3 plus fetuin; GF4, GF3 plus linoleic acid-BSA; GF5, GF4 plus fetuin; GF5E, GF5 plus EGF; GF5T, GF5 plus triiodothyronine]. SW 480 grew in all of the SFM. In contrast, SW 620 grew only in four SFM. The cells did not grow in GF3 and GF4. When grown in SFM, SW 480 attached much more firmly to the dishes than SW 620 as determined by the time required to detach the cells with trypsin-EDTA (SW 480, greater than 20 min and SW 620, less than 5 min). It was speculated that SW 480 cells excrete proteins in SFM which influence attachment and growth of the cells. Growth behavior of SW 480 cells which did not grow in GF3, was studied using GF3 medium and SW 480 substratum dishes. SW 620 cells readily attached to the SW 480 substratum dishes and grew. Furthermore, when SW 620 cells were grown on substratum prepared from serum-supplemented medium incubated in the absence of cells (serum substratum), the cell growth was comparable to the cell growth on SW 480 substratum in GF3. Substratum from SW 480 cells and the serum substratum were compared for their components using SDS-PAGE system. The SW 480 substratum contains many more components than serum substratum. A protein band at 60 kD appears to be common in both SW 480 and serum substrata.