Transforming growth factor-beta and platelet-derived growth factor synergistically stimulate contraction by testicular peritubular cells in culture in serum-free medium

We report investigations on factors influencing contractility by testicular peritubular cells (PC) maintained in culture in a three-dimensional collagen gel system, and the behavior of PC in culture on a two-dimensional system. At low and moderate cell densities, PC embedded in collagen gels in serum-free Eagle's minimal essential medium (MEM) have a lesser degree of contractility than PC in culture in MEM containing calf serum. The contractility by PC, measured by determining changes in diameter of the collagen gel, was increased by addition of transforming growth factor-beta (TGF-beta) to serum-free MEM, and this was further enhanced by supplementing the medium with platelet-derived growth factor (PDGF). In the absence of TGF-beta, however, PDGF had no detectable effects on PC contractility. Other growth factors examined (epidermal growth factor, insulin, and fibroblast growth factor) did not influence the degree of contractility of PC in serum-free MEM in the presence or absence of TGF-beta. PC maintained in MEM supplemented with platelet-poor serum (PPS) have a lesser degree of contractility than their counterparts in MEM containing 2.5% calf serum. The addition of TGF-beta and PDGF to PPS-supplemented MEM restored contractility by PC to a level comparable to that observed by PC in MEM containing complete serum. The addition of nonpurified bovine serum albumin (BSA) to MEM greatly increased PC contractility. By contrast, highly purified BSA had no such effect, suggesting that one or more components adsorbed to the impure BSA was implicated. Polyclonal antibody against fibronectin did not influence the contractility of PC in collagen gels in the presence or absence of serum. Antiserum against TGF-beta partially blocked the enhancement of contractility of PC in MEM containing non-purified BSA. In PC plated on top of a collagen gel lattice, the attachment, spreading, and cell shape were greatly influenced by the presence of TGF-beta and PDGF, both singly and together. Data presented are interpreted to indicate that effects elicited by serum on the properties of PC in culture, and on the contractility of PC, can be attributed in part to the combined influences of TGF-beta and PDGF in serum.     

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)     

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.     

Fibronectin dependence of the contraction of collagen lattices by human skin fibroblasts

The role of fibronectin in the contraction of collagen lattices by human skin fibroblasts has been investigated. Incubation of lattice cultures in Dulbecco's modified Eagle's medium supplemented with increasing concentrations of non-dialysed or dialysed fetal calf serum demonstrated that the rate of contraction was dependent on non-dialysable serum components. The suppression of contraction observed when fibronectin was eliminated from serum, either by affinity chromatography on gelatin-agarose columns or by precipitation with anti-fibronectin antibodies, showed that fibronectin is critical for the contraction. When collagen lattices were incubated in a serum-free culture medium totally devoid of fibronectin, no contraction occurred. When fibronectin was added to this medium, their contraction was correlated with the concentration of fibronectin added. The contraction was inhibited by cycloheximide, tunicamycin, and monensin. These results demonstrate that the contraction of collagen lattices by human skin fibroblasts is dependent on fibronectin, and that other protein factors synthesized by the cells or contained in serum are also necessary.     

Morphological and functional differentiation of cryopreserved lactating bovine mammary cells cultured on floating collagen gels

Cryopreserved bovine mammary epithelial cells prepared from lactating mammary tissue synthesize and secrete the milk proteins alpha_s1-casein, lactoferrin (Lf), and alpha-lactalhumin during in vitro culture on collagen gels in serum-free medium. Each milk protein is differently regulated by detachment and thickness of the collagen substratum, fetal calf scrum, and prolactin in the medium. Collagen detachment did not modulate lactoferrin secretion but strongly induced casein secretion, with detachment on day 6 (after formation of cell sheets) inducing casein secretion to 3 μg/ml medium, which was 2–3-fold higher than for cells on collagen detached on day 2 (prior to cell spreading to form sheets), and ten-fold higher than for cells grown on collagen not detached. Alpha-lactalbumin secretion was also induced, but only to low levels, in cells grown on detached but not on attached collagen. Cells grown on thin collagen gels secreted lower levels of lactoferrin and casein compared to cells on thick collagen. Lactoferrin but not casein secretion was increased in cells grown in the presence of fetal calf serum. Casein but not lactoferrin secretion was completely dependent on prolactin. Cells grown serum-free on collagen gels detached on day 6 of culture showed a polarized epithelial cell layer with high differentiation evidenced by the apical microvilli, tight junctions, and fat droplets surrounded by casein-containing secretory vesicles. An underlying layer of myoepithelial-like cells was also evident. These studies show for eryopreserved primary bovine mammary cells prepared from lactating mammary tissue the induction of highly differentiated and polarized cell morphology and ultrastructure with concomitant induction of the secretion of casein, lactoferrin. and alpha-lactalbumin in vitro, and that the non-coordinate regulation of milk protein secretion by substratum, prolactin, and serum likely involves alternate routing and control of secretion pathways for casein and lactoferrin.     

β1 Integrin-mediated collagen gel contraction is stimulated by PDGF

The attachment of primary rat hepatocytes and fibroblasts to collagen type I is mediated by non-RGD-dependent β₁ integrin matrix receptors. In this report we describe a novel 96-well microtiter plate assay for the quantification of fibroblast-mediated contraction of floating collagen type I gels. Fetal calf serum and platelet-derived growth factor (PDGF), but not transforming growth factor-β1, stimulated primary rat heart fibroblasts and normal human diploid fibroblasts (AG 1518) to contract collagen gels to less than 10% of the initial gel volume within a 24-h incubation period. Rabbit polyclonal antibodies directed to the rat hepatocyte integrin β₁-chain inhibited the PDGF-stimulated collagen gel contraction. The inhibitory activity on contraction of the anti-β₁ integrin IgG could be overcome by adding higher doses of PDGF. The contraction process was not blocked by anti-fibronectin IgG nor by synthetic peptides containing the tripeptide Arg-Gly-Asp (RGD), in concentrations that readily blocked fibroblast attachment to fibronectin-coated planar substrates. Autologous fibronectin or control peptides containing the tripeptide Arg-Gly-Glu were without effect. Immunofluorescence microscopy on fibroblasts grown within collagen gels revealed a punctate distribution of the β₁ integrin and a lack of detectable levels of endogenously produced fibronectin. Collectively these data suggest a role for integrin collagen receptors with affinity for collagen fibers, distinct from the previously described RGD-dependent fibronectin receptors, in the fibronectin-independent PDGF-stimulated collagen gel contraction process.     

Fibroblast contraction of collagen lattices in vitro: Inhibition by chronic inflammatory cell mediators

Fibroblast-populated collagen lattices (FPCL), prepared in petri dishes with serum-containing culture medium and incubated at 37°C, undergo progressive and symmetric contraction (reduction in size) over a period of days. The in vitro contraction process requires viable cells with intact cytoskeletal elements, is associated with cell elongation, and is believed to represent a fibroblast function which also occurs in vivo during wound healing and tissue fibrosis. We report that soluble mediators elaborated by chronic inflammatory cells cultured in vitro, when added to FPCL, inhibit lattice contraction. Granulomas, isolated from the liver of Schistosoma mansoni-infected mice, secrete a factor(s) with an estimated molecular weight between 13,700 and 43,000 daltons (gel filtration: Sephadex G-200) and pl = 6 (preparative isoelectrofocusing in granular gel) which inhibits lattice contraction but is not toxic to fibroblasts. Supernatants (cell-free conditioned culture medium) of cultured macrophages isolated from these granulomas also contain this activity. The contraction inhibitory activity present in granuloma culture supernatants is abrogated by the addition of indomethacin to the lattices, while the addition of prostaglandin E₂ (PGE₂) alone to lattices inhibits contraction. Furthermore, culture supernatants interfere with fibroblast elongation in lattices. We propose that the ability of fibroblasts to contract collagen lattices in vitro and a fibrotic mass in vivo may be regulated by soluble products of chronic inflammatory cells, including macrophages. This process may be mediated by fibroblast-derived prostaglandins which alter cytoskeletal functions and has implications for understanding regulation of tissue fibrogenesis in a variety of diseases.     

Growth of seminal vesicle epithelial cells in serum-free collagen gel culture

Summary Epithelial cells from mouse seminal vesicles were enzymatically dissociated enriched by gradient centrifugation, and maintained in collagen gel cultures with defined (serum-free) media. The epithelial origin of the cells was determined morhologically, immunocytochemically, and biochemically. Cells formed three-dimensional colonies with a lumen in collagen gels. Cell number was increased eight-fold within a 8 to 12-d culture period in a medium supplemented with epidermal growth factor (EGF) (10 ng/ml), insulin (10 μg/ml), transferrin (10 μg/ml), cholera toxin (10 ng/ml), and hydrocortisone (0.1 μg/ml). The cells required eGF and insulin; the growth-promoting effects of these two peptide hormones were optimized by transferrin, cholera toxin, and hydrocortisone. Fetal bovine serum did not support growth; rather, it suppressed the stimulated growth observed in serum-free media. A time-course study revealed that a lag period preceded rapi growth. The collagen gel, serum-free culture provides a powerful tool to study the effects of hormones on proliferation and differentiation of androgen sensitive cells.     

Prolactin sensitivity of mammary epithelial cells from mice exposed neonatally to diethylstilbestrol

We examined the responsiveness to prolactin and growth hormone of mammary epithelial cells from mice exposed neonatally to diethylstilbestrol (DES) and from control mice. The mammary epithelial cells were cultured inside collagen gels with serum-free medium containing insulin, epidermal growth factor, and linoleic acid. This produces prolactin-sensitive cells with low levels of casein production, as measured in cellular homogenates with a specific enzyme-linked immunosorbent assay for alpha-casein. The collagen gels containing these cells were then released and the medium supplements changed to insulin, linoleic acid, and prolactin at concentrations from 10 to 1000 ng/ml and growth hormone at 0, 10, or 100 ng/ml. This second phase of the culture, the differentiation phase, allows the cells to accumulate casein if they have this capacity. When cultured with prolactin only (no growth hormone), the cells from DES-exposed mice consistently accumulated 50-100% of the casein content of normal cells, but never more. Growth hormone, when added to prolactin-containing medium, increased casein accumulation above the levels seen with prolactin alone. Combinations of prolactin and growth hormone enhanced the difference between casein accumulation in DES-exposed and control cells, and DES-exposed cells were much less responsive to growth hormone. In our studies, the isolated mammary epithelial cells of estrogen-exposed mice are not more sensitive to prolactin than cells from normal animals as previous reports reports had suggested, but rather are generally less sensitive to hormonal stimulants.     

Growth and Differentiation of Primary Cultures of Mouse Mammary Epithelium Embedded in Collagen Gel

Mammary glands from BALB/cfC3H midpregnant (9–11 days) mice were dissociated with collagenase and pronase, separated on a Percoll gradient, and the epithelial cells were cultured inside collagen gel. The cell number increased three-to five-fold when cultured for 6–8 days in DME/F12 (1: 1) medium containing 3% swine serum, insulin (10 μg/ml), cortisol (1.0 μg/ml), prolactin (10 μg/ml), transferrin (10 μg/ml), and epidermal growth factor (0.01 μg/ml). The casein level, as determined by radioimmunoassay, at the end of this growth phase, was much lower than that present in freshly dissociated cells. In order to stimulate casein production, the gels were released from the sides of the plastic dish and allowed to float for eight days in Waymouth's medium, containing insulin (10 μg/ml), cortisol (5 μg/ml), prolactin (10 μg/ml), and 0.25% bovine serum albumin. The casein level at the end of this differentiation phase was found to be comparable to that seen in the original freshly dissociated cells. Cells grown in DME/F12 (1: 1) medium containing 3% swine serum, insulin (10 μg/ml), and transferrin (10 μg/ml) were still capable of undergoing casein production, indicating that the presence of exogenous lactogenic hormones such as cortisol and prolactin, as well as exogenous growth factors such as epidermal growth factor, is not necessary during the growth phase for subsequent casein production during the differentiation phase. Two factors that seemed more important for subsequent casein stimulation were: (1) releasing collagen gels at the beginning of the differentiation phase, and (2) switching to'differentiation' medium. This present two-step protocol has allowed primary cultures of dissociated midpregnant mouse mammary epithelial cells to undergo several rounds of division inside a collagen gel matrix and to be subsequently stimulated to produce the mammary-specific protein, casein.     

A serum-free,chemically-defined medium for function and growth of primary neonatal rat heart cell cultures

Summary A serum-free, chemically defined medium for supporting rhythmic contraction, maximum survival, and moderate growth of cardiac cells was achieved by using a combination of hormones and growth supplements in a mixture of equal volumes of Ham’s F12 and Dulbecco’s modified Eagle’s medium. The hormones and growth supplements included insulin, transferrin, selenium, fetuin, bovine serum albumin, hydrocortisone (HC),l-thyroxine (T₄), and epidermal growth factor (EGF). Cardiac cells were grown on fibronectin-precoated plates using the above serum-free medium. Cells grow in this medium exhibited a higher beating rate and were maintained for a longer time compared to those cells grown in serum. The effects of T₄, EGF, and HC on beating rate and survival time of both cultures of mixed cell population and enriched myoblast cell population were studied. In the enriched myoblast cell cultures grown in serum-supplemented medium, the beating rate ranged from 40 to 200 beats/min, and these cultures survived for 30 d. When these enriched cell cultures were grown in serum-free hormone-supplemented medium, the beating rate ranged from 190 to 240 beats/min, and these cultures survived for more than 90 d. These results show that some hormones affect growth, whereas others affect function.     

The interaction of epidermal keratinocytes and fibroblasts during the formation of a live skin equivalent]

The effect of human fetal fibroblasts and adult keratinocytes on collagen contraction was studied. Keratinocytes embedded in collagen lattices did not spread and produced only a slight contraction. When keratinocytes were seeded on the surface of tht gel, the contraction began within 24 h and correlated with the formation of epithelial colonies. Transplantation of multilayered epithelial sheets on the gel significantly accelerated the onset of contraction. Keratinocytes seeded on and fibroblasts grown in collagen lattices cooperatively contracted the gel, and keratinocytes were able to stimulate gel contraction even when they had no contact with the collagen roughly populated with fibroblasts. Swiss 3T3 cells remained spherical in collagen lattices and did not contract the gel but when cultivated with keratinocytes they stimulated gel contraction. In their turn, keratinocytes influenced the behaviour of Swiss 3T3 cells which elongated and produced processes. We suggest that both keratinocytes and mesenchymal cells can affect gel contraction 1) by a direct contact with collagen lattices, and 2) through potentiation of the ability of another cell type to contract the gel.     

Role of growth factors in the contraction and maintenance of collagen lattices made with arterial smooth muscle cells.

The contraction of collagen lattices made with arterial smooth muscle cells was studied in medium MCDB 107 without serum or supplemented with 1% fetal bovine serum, plus insulin, transferrin, and low-density lipoprotein. Under these conditions, smooth muscle cell mitogens including HBGF-1 (aFGF), PDGF, and EGF stimulated contraction. Stimulation by HBGF-1 was more profound than with other factors tested. HBGF-1 stimulation of lattice contraction was blocked by protein synthesis inhibitors, but not inhibitors of DNA synthesis. Histological observations indicated that HBGF-1 also enhanced the maintenance of healthy cells in the lattice. Taken together, these observations suggest that HBGF-1 stimulates lattice contraction, not by a mitogenic effect, but by stimulating synthesis of specific cellular proteins. Since the greatest effects of HBGF-1 on lattice contraction were seen during the first 72 h following casting, the effects on maintenance of cell viability are probably less important in promoting lattice contraction.     

Mechanical behavior of fibroblasts included in collagen lattices

Striae distensae are characterized by linear, smooth bands of atrophic-appearing skin. Excessive steroid activity, genetic and mechanical factors and inherited defects of connective tissues are the most frequent causes of this disease. Fibroblasts derived from women presenting striae distensae lesions were included into collagen gels to study their mechanical behavior: capacity to contract free-floating lattices and to produce isometric force in tense lattices. To measure the retracted lattice diameter, the culture dishes were placed on a transparent metric scale. An isometric force system was used to study quantitatively the forces developed during lattice contraction. alpha 2 beta 1 integrins expression (transmembrane receptors) was evaluated by flux cytometry. Striae distensae fibroblasts contract collagen gels slower than normal human fibroblasts but the final contraction is similar. They produce a greater isometric force which is associated with enhanced alpha 2 beta 1 integrins expression. By their mechanical properties, striae distensae fibroblasts appear as a different population from normal fibroblasts.     

Beta 1 integrin-mediated collagen gel contraction is stimulated by PDGF

The attachment of primary rat hepatocytes and fibroblasts to collagen type I is mediated by non-RGD-dependent beta 1 integrin matrix receptors. In this report we describe a novel 96-well microtiter plate assay for the quantification of fibroblast-mediated contraction of floating collagen type I gels. Fetal calf serum and platelet-derived growth factor (PDGF), but not transforming growth factor-beta 1, stimulated primary rat heart fibroblasts and normal human diploid fibroblasts (AG 1518) to contract collagen gels to less than 10% of the initial gel volume within a 24-h incubation period. Rabbit polyclonal antibodies directed to the rat hepatocyte integrin beta 1-chain inhibited the PDGF-stimulated collagen gel contraction. The inhibitory activity on contraction of the anti-beta 1 integrin IgG could be overcome by adding higher doses of PDGF. The contraction process was not blocked by anti-fibronectin IgG nor by synthetic peptides containing the tripeptide Arg-Gly-Asp (RGD), in concentrations that readily blocked fibroblast attachment to fibronectin-coated planar substrates. Autologous fibronectin or control peptides containing the tripeptide Arg-Gly-Glu were without effect. Immunofluorescence microscopy on fibroblasts grown within collagen gels revealed a punctate distribution of the beta 1 integrin and a lack of detectable levels of endogenously produced fibronectin. Collectively these data suggest a role for integrin collagen receptors with affinity for collagen fibers, distinct from the previously described RGD-dependent fibronectin receptors, in the fibronectin-independent PDGF-stimulated collagen gel contraction process.     

Growth effect of lithium on mouse mammary epithelial cells in serum-free collagen gel culture

The effect of lithium on the growth of mammary epithelial cells from adult virgin and midpregnant BALB/c or BALB/cfC3H mice was tested in a serum-free collagen gel culture system. The serum-free medium consisted of a 1:1 mixture of Ham's F12 and Dulbecco's Modified Eagle's medium supplemented with insulin, transferrin, cholera toxin, epidermal growth factor (EGF), and bovine serum albumin fraction V (BSA V). A multifold increase in cell number occurred during 10–12 days of culture in this medium. In dose-response studies in which the concentration of each component of this serum-free medium was varied in turn, the addition of LiCL (10 mM) enhanced growth at most concentrations of each factor. However, LiCL could not enhance growth in the absence of insulin or BSA V, but could replace EGF. The optimal concentration of LiCl was 5–10 mM; higher concentrations (20–80 mM) were toxic. KCl (1–10 mM) when added to the serum-free medium slightly stimulated growth; the addition of NaCl to the medium had little effect on growth. LiCl did not enhance the growth of cells from spontaneous mammary tumors of BALB/cfC3H mice.     

Prolactin augments luteinizing hormone binding to rat Leydig cells in serum-free culture

Effect of prolactin on the testicular luteinizing hormone binding was studied in a serum-free culture system. By the collagenase digestion of decapsulated testes taken out from 25-day-old rats, Leydig cells were isolated and cultured for 7 days in DME/F12 (1:1) medium supplemented with insulin, transferrin, epidermal growth factor, and gentamicin. The cultured cells exhibited the 3β-hydroxysteroid dehydrogenase activity. Hill plots constructed from the data of competition experiment showed that the dissociation constant (K_d) was 0.33 × 10^–10M. The K_d value was approximately the same as the known value for the rat testicular homogenates. When the Leydig cells were cultured with ovine prolactin for the last 3 days of 7-day culture period, the binding of luteinizing hormone increased to 1.7-fold ofthat in the control group. From these results it is concluded that prolactin acts to up-regulate the binding of luteinizing hormone to rat testicular Leydig cells in serum-free culture     

Collagen gel contraction by fibroblasts requires cellular fibronectin but not plasma fibronectin

Fibroblasts embedded in three-dimensional lattices of collagen fibrils have been known to require serum constituents to induce a cell-mediated contraction of collagen gels. The gel contraction was studied with human skin fibroblasts cultured in the presence of fetal bovine serum (FBS). Removal of bovine serum fibronectin (sFN) from FBS did not affect the extent of gel contraction. Gel contraction occurred in serum-free defined media. Therefore, it is concluded that sFN is not required for gel contraction. That cellular FN (cFN) synthesized and secreted by fibroblasts plays a crucial role in gel contraction was suggested by the following experiments: (1) We obtained monoclonal antibodies (mAb A3A5) against fibroblast surface antigens, which suppressed the fibroblast-mediated gel contraction. Immunoblot analyses showed that mAb A3A5 recognizes cFN secreted by human fibroblasts and human plasma FN (pFN), but not bovine sFN in FBS used for culture. (2) Addition of rabbit antisera, which recognize human cFN, to a serum-free gel culture inhibited contraction. Uninvolvement of human pFN in gel contraction was further confirmed by the fact that neither pretreatment of fibroblasts with excess amounts of human pFN nor the presence of excess amounts of human pFN in gels affected the extent of gel contraction. This study seems to be the first demonstration of functional difference between cFN and pFN (or sFN) and proposes a novel mode of binding of fibroblasts with collagen fibrils via cFN during cell-mediated collagen morphogenesis.     

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.     

Cellular adhesion to collagen

BALB/3T3 cells were released from tissue culture plates with EGTA, and their rates of attachment to collagen gels polymerized on Millipore filters; were measured. Cell attachment in serum-free medium was 20–50% of that which occurred in medium containing 10% fetal calf serum (FCS). Cell attachment to gels pretreated with FCS and assayed in serum-free medium was identical with that of gels in FCS-containing medium. Thus, it seems there are two separate mechanisms of attachment to collagen; one involving direct attachment and a second mediated by a serum component(s) which binds to collagen.