Use of recombinant and synthetic peptides as attachment factors for cells on microcarriers

Polystyrene culture dishes and polystyrene microcarriers were coated with Pronectin-F and poly-l-lysine (polylysine), either alone or in combination. Pronectin-F is a recombinant peptide containing repeats of the RGD cell-attachment sequence from fibronectin. Polylysine is a polymer ofl-lysine. Pronectin-F supported attachment of Madin-Darby Canine Kidney (MDCK) cells at concentrations as low as 0.025 g/cm² of surface area. The cells rapidly spread after attachment. Polylysine at concentrations of 0.05–0.5 g/cm² also supported cell attachment but cells did not rapidly spread after attachment to this substrate. Higher concentrations of polylysine could not be used because of toxicity. When the two peptides were used in conjunction, MDCK cells attached and spread at lower peptide concentrations than they did when either substrate was used alone. These findings suggest that recombinant Pronectin-F alone or in conjunction with a cationic polymer could be a useful replacement for materials such as gelatin or collagen which are currently used as microcarrier surfaces.     

Cell growth on microcarriers: comparison of proliferation on and recovery from various substrates

Three commercially-important types of cell were grown on four different microcarrier substrates. The cells, which included normal human diploid fibroblasts (MRC-5), primary chick embryo cells and Madin-Darby bovine kidney cells (MDBK), were compared with regard to proliferation on the substrates and with regard to recovery of viable cells from the same substrates. The substrates used included glass-coated microcarriers (Biosil), collagen microcarriers (Ventregel), DEAE-dextran microcarriers (Cytodex I) and collagen-linked DEAE-dextran microcarriers (Cytodex III). The established cell line (MDBK) grew well on all of the substrates and a high percentage of viable cells could be harvested from each substrate. The MRC-5 cells also grew well on all four substrates but high recovery rates were achieved only with cells grown on the glass-coated microcarriers or collagen microcarriers. In contrast, the primary chick embryo cells grew well only on the glass microcarriers and the recovery rate of cells harvested from this substrate was high. In some industrial operations, the re-utilization of cells after removal from the substrate is necessary. In these situations the appropriate choice of microcarriers for the cultivation of the cells may be critical.     

Effects of antiphagocytic agents on penetration of Eimeria magna sporozoites into cultured cells.

Madin-Darby Bovine Kidney cells were treated with sodium flouride, iodoacetate, and 2-deosyglucose, reagents that block glycolysis, and thus reduce phagocytosis. Sporozoites readily entered cells whose ATP stores were largely depleted. They also entered cells treated with colchicine, colcemid, and vinblastine. These latter agents did not inhibit sporozite motility after 6 hr incubation. Cytochalasin B prevented penetration of cells by inhibiting the motility of sporozoites. This effect was reversible. Warm sporozoites entered cold cells 4 times more radily than cold sporozoites into warm cells. The above findings suggest that phagocytosis is not the mechanism for entry of E. magna sporozoites into cultured cells, but that sporozoite motility is of primary importance.     

Cell-microcarrier adhesion to gas-liquid interfaces and foam

The interaction of microcarriers, both with and without cells attached, with gas bubbles was studied. These studies consisted of qualitative microscopic observations of microcarriers with bubbles, quantitative measurements of microcarrier entrapment in foam, and quantitative measurements of the effect of bubble rupture at gas-medium interfaces. Ten different "protective additives" were evaluated for their ability to change the dynamic surface tension of the culture media and to prevent microcarrier adhesion to air bubbles during gas sparging and to prevent entrapment in the foam layer. These studies indicate that microcarriers, with and without cells, readily attach to gas-medium interfaces; yet unlike suspended cells, cells attached to microcarriers are not damaged by bubble ruptures at gas-medium interfaces. Only one surfactant was found to substantially prevent microcarrier entrapment in the foam layer; however, this surfactant was toxic to cells. No correlation was observed between surface tension and the prevention of microcarrier adhesion to gas-liquid interfaces. It is suggested that cell damage as a result of sparging in microcarrier cultures is the result of cells, attached to microcarriers, attaching to rising bubbles and then detaching from the microcarrier as this combination rises through the medium. It is further suggested that the hydrodynamic drag force of the rising microcarrier is sufficiently high to remove the bubble-attached cell from the microcarrier.     

Recycle of Cytodex-3 in Vero cell culture

It is commonly considered not desirable to use microcarriers more than once in the cultivation of anchorage-dependent animal cells. However, our experiment contradicts this belief. The collagen-coated microcarriers, Cytodex-3, from a batch culture of Vero cells, were collected, cooled to 4, agitated in basic phosphate-buffered solution to detach the cells, and then fully washed to remove the cell debris. The microcarriers were then re-applied in cell culture. The rate of cell attachment, growth and metabolism on re-used carriers were found to be comparable to that of on new ones.     

Serial propagation of mammalian cells on gelatin-coated microcarriers

The ability to serially propagate mammalian cells in microcarrier cultures is essential for large-scale operation. The success of such serial propagation depends on viable dissociation of cells from microcarriers and the normal growth and product formation after subsequent reinoculation. The high pH treatment developed for dissociating cells from DEAE-derivatized microcarriers was not as effective for a number of cell strains cultivated on gelatin-coated microcarriers. By prewashing the cell-laden microcarriers with buffer containing a chelating agent, bovine kidney cells, BK, human embryonic foreskin fibroblasts, FS-4, and continuous human kidney cells, TCL-598 which produces prourokinase, were viably dissociated from commercially available gelatin-coated microcarriers, Cytodex-3. Cells dissociated from microcarriers reattached and grew on micro-carriers subsequent to inoculation into subcultures. However, after subculturing, cells may attach at different rates to newly added beads and to conditioned microcarriers which cells had previously grown. It resulted in an uneven cell distribution on microcarriers and inferior growth kinetics. This effect was more profound for BK and FS-4 cells which are propagated with a low multiplication ratio. Specifically, BK cells attach to conditioned beads at a faster rate than to new beads, while FS-4 cells attach to new beads faster than to conditioned beads. Thus, for these two cell strains, a separator was used to separate the microcarriers from the suspension of dissociated cells before subsequent inoculation. For TCL-598 cells, which are propagated at a high multiplication ratio, this dissociation technique can be applied directly without the separation of dissociated cells and conditioned microcarriers. All the three cell lines tested exhibit normal growth kinetics in serial propagation on microcarriers. Furthermore, the production of prourokinase by TCL598 cells serially propagated on microcarriers was comparable to that inoculated from roller bottles.     

Generation of a Persistently Infected MDBK Cell Line with Natural Bovine Spongiform Encephalopathy (BSE)

Bovine spongiform encephalopathy (BSE) is a zoonotic transmissible spongiform encephalopathy (TSE) thought to be caused by the same prion strain as variant Creutzfeldt-Jakob disease (vCJD). Unlike scrapie and chronic wasting disease there is no cell culture model allowing the replication of proteinase K resistant BSE (PrP^BSE) and the further in vitro study of this disease. We have generated a cell line based on the Madin-Darby Bovine Kidney (MDBK) cell line over-expressing the bovine prion protein. After exposure to naturally BSE-infected bovine brain homogenate this cell line has shown to replicate and accumulate PrP^BSE and maintain infection up to passage 83 after initial challenge. Collectively, we demonstrate, for the first time, that the BSE agent can infect cell lines over-expressing the bovine prion protein similar to other prion diseases. These BSE infected cells will provide a useful tool to facilitate the study of potential therapeutic agents and the diagnosis of BSE.     

Effect of serum,fibronectin, and laminin on adhesion of rabbit intestinal epithelial cells in culture

Rabbit intestinal epithelial cells, obtained after a limited hyaluronidase digestion, were incubated in medium with or without calf serum, on bacteriological plastic dishes. The dishes, either plain or coated with an air-dried type I collagen film, were pretreated with medium alone or with medium containing purified laminin or purified fibronectin. Cells did not attach in significant numbers to untreated bacteriological plastic, even in the presence of serum. Cells did attach to collagen-coated dishes, and were judged viable on the basis of their incorporation of radiolabeled leucine into cell protein. Cell adhesion to the collagen substrate increased in proportion to the concentration of serum in the medium, with maximal attachment at 5% serum or greater. Pretreatment of plain or collagen-coated dishes with increasing amounts of fibronectin enhanced cell adhesion in a concentration-dependent manner. Either serum, or fibronectin-free serum in the medium enhanced cell attachment to substrates pretreated with cither fibronectin or laminin. Thus, intestinal epithelial cells appear to possess surface receptors for both laminin and fibronectin. The evidence further suggests that calf serum may contain factors, other than fibronectin, capable of enhancing intestinal epithelial cell attachment to collagen substrates.     

Cell-substrate separation: effect of applied force and temperature

We measure the change in cell-substrate separation in response to an upward force by combining two relatively new techniques, Electric Cell-substrate Impedance Sensing (ECIS) to measure average cell-substrate separation, and collagen-coated magnetic beads to apply force to the top (dorsal) surface of cells. The collagen-coated ferric oxide beads attach to integrin receptors in the dorsal surfaces of osteoblastlike ROS 17/2.8 cells. Magnetic force is controlled by the position and the number of permanent magnets, applying an average 320 or 560 pN per cell. Comparing model calculations with experimental impedance data, the junctional resistivity of the cell layer and the average distance between the lower (ventral) cell surface and substrate can be determined. The ECIS analysis shows that these forces produce an increase in the distance between the ventral cell surface and the substrate that is in the range of 10 to 25%. At temperatures of 4°, 22° and 37 °C, the measured cell surface-substrate distances without magnetic beads are 84 ± 4, 45 ± 2 and 38 ± 2 nm. The force-induced changes at 22° are 11 ± 3 and 21 ± 3 nm for 320 and 560 pN, and at 37° they are 5 ± 2 and 9 ± 2 nm. The resulting cell-substrate spring constants at 22° and 37° are thus about 28 and 63 pN nm^–1 (dyne cm^–1). Using a reasonable range for the number for individual integrin-ligand adhesion bonds gives a range for the spring constant of the individual adhesion bond of from about 10^–3 to 10^–1 pN nm^–1. These data also provide evidence that the number of adhesion bonds per cell increases with temperature. Received: 20 June 1997 / Accepted: 24 August 1997     

Chitosan/gelatin composite microcarrier for hepatocyte culture

Solid and porous chitosan/gelatin (CG) composite microcarriers were prepared by a water-in-oil emulsion process with additional freezing and lyophilization. Adult rat hepatocytes (10(6) cells ml(-1)) attached on CG microcarriers maintained at least 15 d of viability and differentiated functions. Over 15 d, unimmobilized hepatocytes released 1.34-fold less lactate dehydrogenase (LDH), and retained 1.63-, 1.51- and 1.28-fold higher albumin secretion, urea synthesis and 7-ethoxycoumarin deethylation activities, respectively, than those on collagen-coated microcarriers. The CG matrix is therefore a promising microcarrier for hepatocyte culture.     

Cultivation of measles virus on bovine kidney cells: Comparative study on viral yield

The present investigation sought the use of Bovine Kidney Cells (BKC) which is a readily available substrate for the cultivation and isolation of measles virus. Results showed that measles virus grew well on BKC, showing identical cytopathologic effect (CPE) of syncytial and giant cell formation also noted for Vero cells. However, the growth on Vero cells was faster indicating a better sensitivity to the measles virus than BKC. The virus replicated and produced CPE in both confluent monolayer and trypsin dispersed cultures. The ability of the virus to form CPE was faster in trypsin-dispersed cells than confluent monolayers. The viral yield in Vero- and BK-cells were compared to assess any difference by analysis of variance. The F-value of 0.824 with degree of freedom 1.34 showed no significant difference at any reasonable confidence interval.     

Adult rat hepatocyte microcarrier culture. Comparison to the conventional dish culture system

Summary A technique has been devised to attach adult rat hepatocytes to collagen-coated dextran microcarriers. Cells were cultured serum-free for 2 d and their viability, enzyme activities, glucose metabolism, and hormone responsiveness were compared to data obtained from conventional dish cell culture. The two diffeent culture methods showed no difference in cell viability and morphology. Microcarrier-cultured cells exhibited hormone responsiveness comparable to dish cultures; glycolysis could be activated three-fold by the sole addition of insulin, and gluconeogenesis was increased by 40 to 50% by glucagon. During the 48-h culture glucokinase and phosphoenolpyruvate carboxykinase activities declined at a similar rate in both culture systems. Long-tem culture wih 0.1 μM insulin prevented the decrease of glucokinase activity. Insulin responsiveness (activation of glycolysis) was still pronounced after 48 h in culture. The microcarrier technique establishes a new in vitro liver system in which acute and long-term hormonal actions can be investigated using the technical advantages of a suspensions cultures. This study had been supported by the Deutsche Forschungsgemeinschaft.     

Bovine viral diarrhea virus infection induces autophagy in MDBK cells

Bovine viral diarrhea virus (BVDV) is an enveloped, positive-sense, single-stranded RNA virus that belongs to the genus Pestivirus (Flaviviridae). The signaling pathways and levels of signaling molecules are altered in Madin-Darby Bovine Kidney (MDBK) cells infected with BVDV. Autophagy is a conservative biological degradation pathway that mainly eliminates and degrades damaged or superfluous organelles and macromolecular complexes for intracellular recycling in eukaryotic cells. Autophagy can also be induced as an effective response to maintain cellular homeostasis in response to different stresses, such as nutrient or growth factor deprivation, hypoxia, reactive oxygen species exposure and pathogen infection. However, the effects of BVDV infection on autophagy inMDBK cells remain unclear. Therefore, we performed an analysis of autophagic activity after BVDV NADL infection using real-time PCR, electron microscopy, laser confocal microscopy, and Western blotting analysis. The results demonstrated that BVDV NADL infection increased autophagic activity and significantly elevated the expression levels of the autophagy-related genes Beclin1 and ATG14 inMDBK cells. However, the knockdown of Beclin1 and ATG14 by RNA interference (RNAi) did not affect BVDV NADL infection-related autophagic activity. These findings provided a novel perspective to elaborate the effects of viral infection on the host cells.     

Microcarrier-attached rat hepatocytes as a xenobiotic-metabolizing system in cocultures

A method for the primary culture of rat liver cells on collagen-coated dextran microcarriers is described. Ethoxycoumarin deethylase (EOD) activity 24 hr after inoculation was comparable for liver cells cultured on microcarriers and on collagen-coated dishes. Cells were cultured on microcarriers for up to 48 hr and retained 25% of the initial EOD-activity that was seen in freshly isolated liver cells. Microcarrier-attached hepatocytes were cocultured with BALB/c 3T3 cells to study the metabolism-mediated cytotoxicity of cyclophosphamide (CPA). In the absence of hepatocytes, growth of 3T3 cells was not affected by CPA at concentrations up to 3600 M. In coculture with hepatocytes, cytotoxicity of CPA was expressed in a time- and concentration-dependent manner. At high concentrations, CPA slightly depressed the EOD-activity of hepatocytes. Our results indicate that cocultivation of microcarrier-attached rat liver cells with target cells represents a valuable approach to the study of the metabolism-mediated toxicity of xenobiotics in vitro.Abbreviations CPA cyclophosphamide - EOD Ethoxycoumarin deethylase - FBS fetal bovine serum - HBSS Hanks' balanced salt solution - HEPES N-2-Hydroxyethylpiperazine-N-2-ethanesulfonic acid - PASA Na-pyruvate, asparagine, serine, alanine - 7-HC 7-hydroxycoumarin This work was presented in part at the VIIIth Scandinavian Workshop on In Vitro Toxicology, Kongsvoll, Norway (1990).     

Hepatocyte culture on biodegradable polymeric substrates

The interactions of primary rat liver cells with biodegradable polymeric substrates were investigated in vitro to assess the suitability of the polymer materials for use in cell transplantation devices. The kinetics of cell adhesion to, and the growth and biochemical function of cells maintained on, films formed from poly (D,L-lactic-co-glycolic acid, 88: 12) (PLGA) or from a 50/50 (w/w) blend of PLGA and poly (L-lactic acid) (PLLA) were evaluated in comparison to two control substrates, matrigel coated or collagen-coated polystyrene petri dishes. The rate of cell adhesion to both types of polymeric substrates was similar to the rate of adhesion to the collagen control substrate, but of the two polymers, only the blend was suitable for extended culture. Hepatocytes maintained on the polymer blend films showed retention of differentiated cell function as measured by the rate of albumin secretion-the rate of albumin secretion by cells on the films was the same as the rate for cells on matrigel and reached a level in the range of reported in vivo levels (140-160 mug/10(6) cells/24 h). In contrast, albumin secretion by hepatocytes maintained on collagen-coated polystyrene culture dishes declined over five days to a level one third that of the initial level and one fifth that of cells maintained on the polymer blend films on day five. Such retention of differentiated cell function by hepatocytes in culture has previously been observed only when hepatocytes were cultured in the presence of exogenous extracellular matrix proteins or were cocultured with another cell type. In addition to retention of differentiated function, the cells maintained on the polymer blend films also displayed rates of DNA synthesis similar to controls maintained on collagen-coated polystyrene, a substrate optimal for DNA synthesis.     

Encapsulation of osteoblast seeded microcarriers into injectable, photopolymerizable three-dimensional scaffolds based on d,l-lactide and epsilon-caprolactone

UMR-106 seeded microcarriers were encapsulated into in situ, photopolymerizable three-dimensional scaffolds based on d,l-lactide and epsilon-caprolactone. UMR-106 and rat bone marrow cells proliferated and differentiated well on the microcarriers. The microcarriers were completely colonized after 14 days in culture. The viscous polymer paste allowed to mix the UMR-106 seeded microcarriers and gelatin (porosigen) properly. After the photopolymerization process, microcarriers and gelatin were evenly distributed throughout the scaffold. Gelatin was leached out within 7 h, and a porous scaffold was obtained. The microcarriers remained in the scaffold even after 7 days which demonstrates that they were well entrapped in the polymer. Increasing the amount of entrapped microcarriers (20-50%) leads to scaffolds with a reduced cross-linking. Hence, the microcarriers leached out. The encapsulated UMR-106 cells did not show pyknotic nuclei which demonstrates that the photopolymerization and handling the viscous polymer/gelatin/microcarrier paste is not detrimental for the cells.     

MDCK细胞微载体悬浮培养放大工艺研究

MDCK细胞对各种流感病毒具有高度敏感性,广泛应用于流感病毒的分离和疫苗制备.通过探索培养基中促进细胞贴壁的关键组分,并筛选水解物,开发了适合MDCK细胞生长的低血清培养基.发现钙、镁离子是细胞贴壁不可缺少的物质,麦麸水解物可以部分代替培养基中的血清.利用该低血清培养基,经过消化转移将MDCK细胞从5L反应器放大至25 L反应器,微载体上细胞贴附均匀、生长旺盛,25 L反应器中培养48 h细胞密度可达30.5×105 cells/ml.研究结果为工业规模反应器微载体悬浮培养MDCK细胞生产流感病毒奠定了基础.     

Production of erythropoietin by BHK cells growing on the microcarriers trapped in alginate gel beads

Baby hamster kidney (BHK) cells engineered to produce recombinant human erythropoietin (EPO) were cultured at high density on microcarriers entrapped by calcium alginate gel particles. In this system, the BHK cells proliferated not only on the microcarriers but also in vacant spaces in the alginate gel particles. These spaces contributed greatly to high-density cultivation of the cells and a high productivity of EPO.Abbreviations BHK Baby Hamster Kidney - EPO Erythropoietin     

Effect of bovine lactoferrin on extracellular matrix calcification by human osteoblast-like cells

Osteoblast-mediated calcium deposition to the extracellular matrix (ECM) is a critical step in bone tissue generation. Bovine lactoferrin enhanced the calcium deposition by MG63 human osteoblast-like cells cultured on collagen-coated plates. Lactoferrin also promoted the alkaline phosphatase activity and osteocalcin production during the calcification process, whereas it had little effect on the growth of the cells on the collagen-coated plates.     

微载体规模化培养细胞的研究

通过实验探索使用微载体进行动物细胞规模化培养,以期达到建立规模化生产病毒疫苗的目的。实验研究了Vero细胞的生长曲线,以及对细胞生长过程中影响细胞生长的葡萄糖、氨含量两个主要因素的变化规律以及微载体浓度与细胞密度的关系。通过实验发现微载体规模化培养细胞易于操作,比传统转瓶培养的细胞密度高,封闭式的培养方式不但减少了污染几率,而且可以充分保证疫苗的质量。最终找出适宜疫苗培养的微载体使用浓度为2.5g/L,适宜的细胞接种浓度为:1~5×105cell/m l。