A serum-free medium supplemented with multiplication-stimulating activity (MSA) supports both proliferation and differentiation of chondrocytes in primary culture

The effect of hormones influencing cartilage metabolism on the growth of chondrocytes isolated from rabbit and rat ribs was investigated in serum-free medium. Insulin supported growth of the cells slightly, whereas calcitonin and parathyroid hormone did not. On the other hand, multiplication-stimulating activity (MSA), a substance partially purified from serum-free medium conditioned by the growth of Buffalo rat liver cells, markedly induced not only proliferation of the chondrocytes but also their synthesis of acid mucopolysaccharides, the characteristic cartilage phenotype, in serum-free medium. These cells maintained this specialized cellular function of differentiated chondrocytes for at least 21 days in serum-free medium. A combination of MSA and other hormones, such as insulin, calcitonin, and parathyroid hormone was even more effective in stimulating sulfation of glycosaminoglycans. These rabbit and rat chondrocytes cultured in completely defined medium seem to be a good experimental system for studies on chondrogenesis and endochondral ossification.     

Cell multiplication and type II collagen production by rabbit articular chondrocytes cultivated in a defined medium

The complexity and the variations in the efficiency of different batches of serum stimulated the preparation of a serum-free medium which could promote not only growth, but also the differentiation properties of rabbit articular chondrocytes in culture. The serum-free medium (SFM) developed in this study contained insulin, transferrin, Na-selenite, human fibronectin bovine serum albumin (BSA), brain growth factor (BGF) or fibroblast growth factor (FGF), hydrocortisone and multiplication stimulating activity (MSA). Primary or secondary cultures of chondrocytes in such a medium attained a proliferation rate equal to 70-80% of that obtained with chondrocytes grown in a serum control medium. The deletion of various factors from SFM indicates that BGF or FGF are the most stimulating of growth factors. Insulin was beneficial when used individually; when combined with BGF or FGF, they had a synergistic effect on cell proliferation. MSA seemed not to play any role in chondrocyte growth in culture. The SFM medium did not modify either the morphology or the progression of cells into the cell cycle. It moreover allowed the maintenance of the specific function of chondrocytes to synthesize type II collagen.     

Human vascular smooth muscle cells in culture: growth characteristics and protein pattern by use of serum-free media supplements

This study demonstrates that cultivation of vascular smooth muscle cells from human artery wall is possible under completely serum-free conditions. The effects of attachment factors on cell spreading and cell proliferation are described in detail as well as routine cultivation methods under serum-free conditions (clone cultures, cell migration, subcultivation by use of an exogenous trypsin inhibitor, cryopreservation and readaptation of cells). After a careful adaptation period, only two (BMS and Ultroser G) of the four commercially available serum-free media supplements tested were used successfully for a routine cultivation of the smooth muscle cells over several passages. With both supplements cell proliferation rates were comparable with those obtained in medium containing 10% fetal calf serum. The addition of platelet-derived growth factor or transferrin to serum-free cultures had no growth-stimulating effect. The addition of endothelial cell growth factor isolated from bovine brain caused a significant increase in proliferative activity of cells cultivated with BMS, but not with Ultroser G. Moreover, we report that under the serum-free culture conditions described here, the gamma-actin content of the cells is largely reduced (51% +/- 13% (means +/- SD) for cells cultivated in Ultroser G, and 12% +/- 4% (means +/- SD) for cells cultivated in BMS) when compared with cells cultivated under serum-containing conditions (gamma-actin content = 100%). The alpha-actin content was observed to be unaltered. Even after a careful readaptation of serum-free cultured cells to serum conditions, the gamma-actin content remained reduced.     

Modulation of chondrocyte proliferation by ascorbic acid and BMP-2

Chondrocytes show an unusual ability to thrive under serum-free conditions as long as insulin, thyroxine, and cysteine are present. Studies with sternal chondrocytes from chick embryos indicate that thymidine incorporation in chondrocytes cultured under serum-free conditions is 30–50% of that seen with fetal bovine serum (FBS). In contrast, skin fibroblast proliferation in serum-free culture is <5% of that seen with serum. Addition of 30–50 μM ascorbic acid to serum-free medium stimulates chondrocyte proliferation 4–5×, resulting in levels of thymidine incorporation higher than that seen with 10% serum. Three to five hours of ascorbate exposure is sufficient to stimulate proliferation, with maximal stimulation seen after 12–15 h. Bromo-deoxyuridine (BrdU) labelling indicated that approximately 25% of chondrocytes transit S phase during a 4-h period (16–20 h after ascorbate). Once maximal stimulation is reached, the proliferation rate remains fairly constant over at least 40 h. Ascorbate therefore increases the steady-state level of chondrocytes in the cycle. Because the stimulation of chondrocyte proliferation was greater than the net increase in cell numbers, we examined the level of apoptosis. Nuclear morphology, terminal uridine nucleotide end-labelling (TUNEL) assay, and 7-AAD/Hoechst dye FACS analyses all indicated that approximately 15% of the ascorbate-treated chondrocytes were undergoing apoptosis, while only 5% of the control chondrocytes were apoptotic. When prehypertrophic chondrocytes from the cephalic region of embryonic sternae were stimulated to undergo hypertrophy with rhBMP-2 + ascorbate, levels of apoptosis were similar to that seen with ascorbate alone. In contrast, treatment of caudal chondrocytes with BMP plus ascorbate does not induce hypertrophy, and the proportion of apoptotic cells was less than that seen with ascorbate alone. These results imply that in chondrocytes the transition to hypertrophy is associated with a decreased number of proliferating cells and a relatively high level of apoptosis. J. Cell. Physiol. 174:331–341, 1998. © 1998 Wiley-Liss, Inc.     

Development of a new serum-free medium,USC-HC1, for growth and normal phenotype in postembryonic chicken growth plate chondrocytes

Summary A serum-free medium for postembryonic chicken epiphyseal growth plate chondrocytes has been developed from 104 MCDB medium. To enable these fastidious cells to survive, grow, and express normal phenotype, a substantial increase over MCDB 104 in the level of many of the amino acids was required, as well as a change in the buffer system and the addition of SerXtend, a defined, serum-free product containing various growth factors, including fibroblast growth factor. Also required was the provision of cell attachment factors, either by coating culture surfaces with type II collagen, or better, by allowing the freshly released cells to recover for several hours in a medium supplemented with 10% fetal bovine serum before plating. Ths new serum-free medium, which we call USC-HC1, supports growth and replication, the retention of normal polygonal morphology, the expression of significant levels of cellular alkaline phosphatase activity, the production of sulfated proteoglycans, type II collagen, and the formation of alkaline phosphatase-rich matrix vesicles by the chondrocytes. The major advantage of USC-HC1, however, is that it will provide for the first time an opportunity to examine the effects of various defined growth and hormonal factors on the phenotypic expression and differentiation of growth plate chondrocytes, in the absence of the variable (stimulatory and inhibitory) factors present in fetal bovine serum. This work was supported by grant AM18983 from the National Institute of Arthritis, Diabetes, Digestive and Kidney Diseases, Bethesda, MD.     

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.     

Rapid chondrocyte maturation by serum-free culture with BMP-2 and ascorbic acid

In serum-containing medium, ascorbic acid induces maturation of prehypertrophic chick embryo sternal chondrocytes. Recently, cultured chondrocytes have also been reported to undergo maturation in the presence of bone morphogenetic proteins or in serum-free medium supplemented with thyroxine. In the present study, we have examined the combined effect of ascorbic acid, BMP-2, and serum-free conditions on the induction of alkaline phosphatase and type X collagen in chick sternal chondrocytes. Addition of either ascorbate or rhBMP-2 to nonconfluent cephalic sternal chondrocytes produced elevated alkaline phosphatase levels within 24–72 h, and simultaneous exposure to both ascorbate and BMP yielded enzyme levels at least threefold those of either inducer alone. The effects of ascorbate and BMP were markedly potentiated by culture in serum-free medium, and alkaline phosphatase levels of preconfluent serum-free cultures treated for 48 h with BMP + ascorbate were equivalent to those reached in serum-containing medium only after confluence. While ascorbate addition was required for maximal alkaline phosphatase activity, it did not induce a rapid increase in type X collagen mRNA. In contrast, BMP added to serum-free medium induced a three- to fourfold increase in type X collagen mRNA within 24 h even in the presence of cyclohexamide, indicating that new protein synthesis was not required. Addition of thyroid hormone to serum-free medium was required for maximal ascorbate effects but not for BMP stimulation. Neither ascorbate nor BMP induced alkaline phosphatase activity in caudal sternal chondrocytes, which do not undergo hypertrophy during embryonic development. These results indicate that ascorbate + BMP in serum-free culture induces rapid chondrocyte maturation of prehypertrophic chondrocytes. The mechanisms for ascorbate and BMP action appear to be distinct, while BMP and thyroid hormone may share a similar mechanism for induction. J. Cell. Biochem. 66:394–403, 1997. © 1997 Wiley-Liss, Inc.     

The sensitivity to growth factors of NIH 3T3 cells transformed by the v-myc oncogene

Transformation of NIH 3T3 cells, induced by v-myc oncogene, activates a proliferative potential of the cells cultivated in the serum-free medium, and reduces the ratio of 3H-Tdr incorporation into the cells grown in the presence of 10% fetal serum in comparison to those grown in the serum-free medium. The v-myc transformed cells (NIH 3T3-v-myc) as well as the untransformed ones are very responsive to insulin. On the other hand, the epidermal growth factor, able to stimulate proliferation of NIH 3T3 cells, exert no effects on the NIH 3T3-v-myc cells. The NIH 3T3-v-myc cells cultivated in the medium, containing 2.5% human plasma enriched with thrombocytes, have the same proliferative characteristics as cells grown in the thrombocyte-free plasma. It is concluded that transformation of NIH 3T3 cells induced by v-myc oncogene may reduce a requirement for thrombocyte-released growth factors and EGF but not for insulin.     

Properties of chick embryo chondrocytes grown in serum-free medium

Chick embryo tibial chondrocyte growth and activities were compared in serum-free and serum-supplemented media. A basal salts medium containing equal volumes of Ham's F-12 and Dulbecco's modified Eagle's medium was supplemented with 10% fetal calf serum or with a mixture of bovine insulin, transferrin, fibroblast growth factor, dexamethasone, a prostaglandin E1 supplement, and a liposome supplement. Chondrocytes grew at identical rates in both media. Insulin, liposomes, and fibroblast growth factor were required for optimum growth in the serum-free medium, but removal of transferrin, dexamethasone, or prostaglandin E1 had little effect on the growth rate. In the serum-supplemented medium, the chondrocytes synthesized Type II collagen, Mr = 59,000 collagen, and both the large, cartilage-specific and the small ubiquitous proteochondroitin SO4 species typically produced by cultured chondrocytes. In the serum-free medium there was a shift toward synthesis of Type I collagen and a loss of the capacity to synthesize Mr = 59,000 collagen and the cartilage-specific proteochondroitin SO4. The loss of capacity for cartilage-specific proteochondroitin SO4 synthesis began immediately after replacement of the serum with the mixture of defined growth factors and the rate of loss was retarded but not reversed when serum was added back in place of the growth factors. When the serum and the mixture of growth factors were added together to the basal medium at the time of cell plating, the chondrocytes grew rapidly and retained their normal phenotype observed in serum-supplemented cultures. Thus, the serum appears to contain factors which are required for retention of the chondrocyte phenotype in culture over and above those factors necessary for cell growth.     

Chondrocyte proliferation in a new culture system

Objective:  This study has aimed to study different culture systems that might stimulate an increase in cell proliferation of normal and osteoarthritis chondrocytes from articular cartilage in rat model.
Material and Methods:  Three culture systems using chondrocytes embedded in alginate beads were tested: chondrocytes cultured in Dulbecco's modified Eagle's medium (DMEM) as control, a co-culture system consisting of a monolayer of de-differentiated chondrocytes as a source of mitotic factors, and an enriched medium containing culture medium obtained from a monolayer of chondrocytes and DMEM. Normal and osteoarthritis chondrocytes were stained with 5-carboxyfluorescein diacetate succinimidyl ester and were cultured in each of the three systems. After 5 days of culture cell, proliferation was detected by flow cytometry. Chondrocyte phenotype was confirmed by collagen type II and MMP-3 expression. To determine possible molecules released into the medium by the cultured chondrocyte monolayer and which would probably be involved in cell proliferation, a study of mRNA and expression of transforming growth factor-β1 (TGF-β1), fibroblastic growth factor-2 (FGF-2), epidermal growth factor (EGF), platelet derived growth factor-A (PDGF-A) and insulin-like growth factor-1 (IGF-1) proteins was conducted.
Results and Conclusions:  Chondrocytes in the co-culture system or in enriched medium showed an increase in proliferation; only when osteoarthritis chondrocytes were cultured in enriched medium would they display a statistically significant increase in their proliferation rate and in their viability. When chondrocytes from the monolayer were analysed, differential mRNA expression of TGF-β1 and IGF-1 was found during all passages, which suggests that these two growth factors might be involved in chondrocyte proliferation.     

Cholesterol requirement for growth of IR983F and P3X63-Ag8-U1 myeloma cells in serum-free medium.

Cholesterol, a major lipid component of the plasma membrane, is thought to have profound effects on the structure and function of cells. Most animal tissues are capable of synthesizing cholesterol de novo from acetate; however, there are relatively few mammalian cells in vitro expressing an absolute requirement for an exogenous source of cholesterol. In this paper, it was shown that both IR983F (983) rat myeloma cells and P3X63-Ag8-U1 (P3U1) mouse myeloma cells which had been cultivated in serum-free medium containing cholesterol for more than 6 months still required cholesterol in vitro for growth in serum-free medium. Optimal growth of 983 and P3U1 occurred in cholesterol concentrations of 15 and 5 micrograms/ml, respectively. Moreover, it was demonstrated that the cholesterol could be replaced by human low density lipoprotein in a concentration of 10 micrograms/ml but not by mevalonic acid lactone. In contrast to the parental myeloma cells, hybridoma cells derived from the mouse myeloma cells which had been cultivated in serum-free medium containing cholesterol for more than 6 months did not require cholesterol.     

Considerations on the use of ear chondrocytes as donor chondrocytes for cartilage tissue engineering

Articular cartilage is often used for research on cartilage tissue engineering. However, ear cartilage is easier to harvest, with less donor-site morbidity. The aim of this study was to evaluate whether adult human ear chondrocytes were capable of producing cartilage after expansion in monolayer culture. Cell yield per gram of cartilage was twice as high for ear than for articular cartilage. Moreover, ear chondrocytes proliferated faster. Cell proliferation could be further stimulated by the use of serum-free medium with Fibroblast Growth Factor 2 (FGF2) in stead of medium with 10% serum. To evaluate chondrogenic capacity, multiplied chondrocytes were suspended in alginate and implanted subcutaneously in athymic mice. After 8 weeks the constructs demonstrated a proteoglycan-rich matrix that contained collagen type II. Constructs of ear chondrocytes showed a faint staining for elastin. Quantitative RT-PCR revealed that expression of collagen type II was 2-fold upregulated whereas expression of collagen type I was 2-fold down regulated in ear chondrocytes expanded in serum-free medium with FGF2 compared to serum-containing medium. Expression of alkaline phosphatase and collagen type X were low indicating the absence of terminal differentiation. We conclude that ear chondrocytes can be used as donor chondrocytes for cartilage tissue engineering. Furthermore, it may proof to be a promising alternative cell source to engineer cartilage for articular repair.     

Protein factor obtained from rat adipose tissue specifically permits the proliferation of the 3T3-L1 and Ob1771 cell lines

We have found the presence of protein factor in rat adipose tissue which permits the proliferation of 3T3-L1 and Ob1771 preadipocytes cultured in a completely defined serum-free medium containing only progression factors [epidermal growth factor (EGF) and insulin] as growth factors. This mitogenic activity of the protein factor was not detected in various other cell lines, in particular, Swiss 3T3 cells which could proliferate in response to a competent factor [platelet-derived growth factor (PDGF) or fibroblast growth factor (FGF)] in the same serum-free medium. This activity of the factor was heat- and pronase-unstable, and reductant-stable, and the apparent molecular weight of the factor was about 20,000. These results strongly suggest that the protein factor is different from PDGF or FGF and contributes to the formation of new adipocytes by specifically stimulating the proliferation of preadipocytes, acting like competent factor.     

Rabbit chondrocytes maintained in serum-free medium : I. Synthesis and secretion of hydrodynamically-small proteoglycans

The biosynthesis of sulfated proteoglycan in vitro by rabbit articular chondrocytes in first passage monolayer culture maintained in fetal bovine serum (FBS) or in serum-free conditions was compared. Neosynthesized proteoglycan in the culture medium in the most dense fraction of an associative CsCl density gradient (fraction dAl) declined with increasing time under serum-free conditions, but not when cells were maintained in the presence of serum. After one day, the major peak of incorporated 35SO4 in medium fraction dAl eluted as a retarded peak (Kav 0.28) on Sepharose CL-2B, whether cells were maintained under serum-free or serum-containing conditions. The hydrodynamic size of proteoglycan monomer fraction dAlDl obtained after one day of exposure to serum-free culture media was smaller than dAlDl from serum-containing cultures. The hydrodynamic size of dAlDl obtained from serum-free culture media became even progressively smaller after 2 and 3 days' exposure to these conditions. Hydrodynamically small sulfated proteoglycans were identified in the cell-associated dAlDl fraction as early as one day after switching chondrocytes from serum-containing to serum-free medium. Culture medium fraction dAlDl from serum-free culture medium aggregated poorly when incubated with human hyaluronic acid (HA) in the presence of bovine link protein or when dialysed against bovine nasal cartilage proteoglycan aggregate. Proteoglycan monomer from serum-containing medium reaggregated more efficiently under both conditions. No change in the size of glycosaminoglycan chains was seen in the smaller proteoglycan subpopulations, nor was there any indication of marked changes in the glycosaminoglycan types.     

Serum-free,chemically defined medium to evaluate the direct effects of growth factors and inhibitors on proliferation and function of neonatal rat cardiac muscle cells in culture

Summary Neonatal rat cardiac myocytes were isolated and cultured to evaluate the effects of growth factors and inhibitors on proliferation, survival, and functions in a serum-free medium. Insulin and transferrin in MCDB 107 nutrient medium elicited DNA and protein synthesis in cells on a fibronectin-coated culture surface in serum-free medium. Insulin was most effective on both DNA and protein synthesis in serum-free culture conditions. The serum-free, hormone-supplemented medium eliminated the contamination of noncardiac myocytes and supported the long-term survival (over 18 d) of cardiac myocytes. Dexamethasone was required to induce optimal contractility with or without insulin and transferrin. Serum contained both negative and positive effectors of DNA and protein synthesis of the cardiac myocytes. Concentrations of serum (above 5%) inhibited DNA and protein synthesis. Low density lipoprotein (LDL) accounted in part for the inhibitory activity. The serum-free culture system provides a useful model to elucidate the role of hormones, growth factors, and drugs in heart cell regeneration and function.     

Growth requirements of low-density rabbit costal chondrocyte cultures maintained in serum-free medium

The factors required for the active proliferation of low-density rabbit costal chondrocytes exposed to 9:1 (v/v) mixture of Dulbecco's modified Eagle's medium and Ham's F12 medium have been defined. Low-density primary cultures of rabbit costal chondrocytes proliferated actively when the medium was supplemented with high-density lipoprotein (300 micrograms/ml), transferrin (60 micrograms/ml), fibroblast growth factor (FGF) (1 ng/ml), hydrocortisone (10(-6) M), and epidermal growth factor (EGF) (30 ng/ml). Insulin, although it slightly decreased the final cell density, was required for reexpression of the cartilage phenotype at confluence. Optimal proliferation of low-density chondrocyte cultures was only observed when dishes were coated with an extracellular matrix (ECM) produced by cultured corneal endothelial cells, but not on plastic. Furthermore, serum-free chondrocyte cultures seeded at low density and maintained on ECM-coated dishes gave rise to a homogeneous cartilage-like tissue composed of spherical cells. These chondrocytes therefore seem to provide a good experimental system for analyzing factors involved in supporting proliferation of chondrocytes and their phenotypic expression.     

Tissue engineering of cartilage with chondrocytes cultured in a chemically-defined, serum-free medium

Cell culture with serum-containing medium has potential problems associated with contamination of infectious agents. This study demonstrates for the first time the feasibility of regenerating cartilage tissues in vivo by implantation of chondrocytes cultured in vitro in a chemically-defined, serum-free medium. Chondrocytes cultured in the serum-free medium grew similarly to those in a serum-containing medium. Implantation of chondrocytes cultured in the serum-free medium and seeded on to polymer scaffolds resulted in the regeneration of cartilage tissues with histological aspects similar to those of cartilage tissues regenerated from chondrocytes cultured in serum-containing medium.     

Microcarrier culture of bowes melanoma cells in serum-free medium with Human plasma fraction IV-4+ V

Bowes melanoma cells were cultivated successfully in a serum-free medium which was constructed by the concept of maximum retention of proteins from fractionated human plasma having growth stimulatory activities. The cells could be cultivated in the serum-free medium without any adaptation period. The major serum-free component of the medium was the fraction IV-4 + V of the Cohn fractionation process of human plasma. Approximately six times increase of tissue-type plasminogen activator (t-PA) activity as compared with that in serum-free medium even though the cell growth was much slower. In addition, the growth stimulatory activities of thrombin and fibronectin were investigated during the cultivation of Bowes melanoma cells in this serum-free medium. These proteins contributed significantly to the enhanced growth of cells by reducing doubling time to 25 and 35 h as compared with 55 h in the serum-free medium without them. Especially, fibronectin supported cells to propagate near to the maximum cell density achieved in the medium with 10% FBS.     

Insulin and transferrin restore important cellular functions of human fetal kidney in serum-free organ culture.

A model previously developed in our laboratory to culture human fetal kidneys in serum-free chemically defined medium was used to evaluate the direct influence of potential regulators on nephrogenesis. The aim of the present work was to verify the effects of insulin and transferrin, two hormones considered as essential in other serum-free culture systems. Explants of renal cortex from human fetuses (15-21 weeks) were cultured for 2 and 5 days in serum-free Leibovitz's L-15 medium (37 degrees C, 95% air - 5% CO2). The addition of transferrin (5 micrograms/mL) had no effect, but insulin (30, 60, and 125 mU/mL) increased DNA and protein syntheses in a dose-dependent manner. The influence of insulin (125 mU/mL) was potentiated by the addition of transferrin and the combination of the two stimulated DNA synthesis by threefold on day 2 when compared with controls and by sixfold on day 5 of culture. After 5 days, synthesis was restored to values observed at day 0. Transferrin did not modify the insulin effect on protein synthesis, since the latter was already maximally stimulated as early as day 2 of culture and at levels well above that of uncultured explants (day 0). The activities of four hydrolases considered as markers of brush border differentiation were not importantly changed by any of the hormones, supplemented alone or in combination. The results indicate that proliferation rather than differentiation is the parameter mostly influenced by these two hormones. The combination of insulin plus transferrin restores cellular functions of human fetal kidney explants cultured in serum-free medium.(ABSTRACT TRUNCATED AT 250 WORDS)