Serum-Free Suspension Culture of MDCK Cells for Production of Influenza H1N1 Vaccines

Development of serum-free suspension cell culture processes is very important for influenza vaccine production. Previously, we developed a MDCK suspension cell line in a serum-free medium. In the present study, the growth kinetics of suspension MDCK cells and influenza virus production in the serum-free medium were investigated, in comparison with those of adherent MDCK cells in both serum-containing and serum-free medium. It was found that the serum-free medium supported the stable subculture and growth of both adherent and suspension cells. In batch culture, for both cell lines, the growth kinetics in the serum-free medium was comparable with those in the serum-containing medium and a commercialized serum-free medium. In the serum-free medium, peak viable cell density (VCD), haemagglutinin (HA) and median tissue culture infective dose (TCID₅₀) titers of the two cell lines reached 4.51×10⁶ cells/mL, 2.94Log₁₀(HAU/50 μL) and 8.49Log₁₀(virions/mL), and 5.97×10⁶ cells/mL, 3.88Log₁₀(HAU/50 μL), and 10.34Log₁₀(virions/mL), respectively. While virus yield of adherent cells in the serum-free medium was similar to that in the serum-containing medium, suspension culture in the serum-free medium showed a higher virus yield than adherent cells in the serum-containing medium and suspension cells in the commercialized serum-free medium. However, the percentage of infectious viruses was lower for suspension culture in the serum-free medium. These results demonstrate the great potential of this suspension MDCK cell line in serum-free medium for influenza vaccine production and further improvements are warranted.     

Ciliary ganglion neurons in cell culture: high affinity choline uptake and autoradiographic choline labeling

Chick ciliary ganglion neurons grown in dissociated cell culture have a high affinity uptake mechanism for choline that has the properties expected for cholinergic neurons. The uptake has an apparent K_m of ca. 0.3 μM and is blocked by addition of 10 μM hemicholinium-3 or replacement of Na⁺ by Li⁺ in the uptake medium. When the choline uptake mechanism is used to label ciliary ganglion neuron-myotube cultures autoradiographically, over 99% of the neurons are labeled. A few cells with neuronal morphologies in such cultures (<1%) are labeled by γ-[³H]aminobutyric acid uptake. The number of [³H]choline-labeled neurons and the amount of Na⁺-dependent choline uptake is the same for ciliary ganglion neurons grown with and without skeletal myotubes. Rat superior cervical ganglion neurons, grown in cell culture under conditions that induce them to synthesize acetylcholine and form cholinergic synapses, are labeled by [³H]choline uptake, though not as heavily as ciliary ganglion neurons. In contrast, chick dorsal root ganglion neurons, a presumed population of noncholinergic neurons, are not labeled by [³H]choline uptake. Thus high affinity choline uptake can be used to label autoradiographically the cholinergic neurons tested, while at least one population of noncholinergic neurons remains unlabeled.     

Organ culture of rat carotid artery: Maintenance of morphological characteristics and of pattern of matrix synthesis

Summary Segments of rat carotid artery were maintained in serum-free or serum-supplemented medium for 2 wk, and at intervals of 3, 7, and 14 d the morphology and pattern of matrix synthesis were compared to those in vivo. In serum-free medium and 0.2% serum both the endothelium and the smooth muscle cells (SMC) could be maintained with a minimum of change for 7 d and without substantial change for 14 d. In 2% and 10% serum there was little change for the first 3 d, but subsequently there was a progressive overlapping of the endothelial cells to produce a 3 to 4 layered cell sheet, often separated from the subendothelial matrix; the SMC, however, did not appear to proliferate or migrate and in general retained their typical cellular features for the full time in culture. The synthesis of matrix components was measured by autoradiographic detection of incorporated [³H]glucosamine and³⁵S. At all time periods and serum concentrations the percentage distribution for each label across the arterial wall was found to be similar to that in live animals injected with the same labels. [³H]Glucosamine predominated in the endothelium and the narrow subendothelial layer, which together make up the intima, whereas³⁵S predominated in the media. In vitro more than 50% of the [³H]glucosamine in the intima and 40% in the adjacent first layer of the media was susceptible toStreptomyces hyaluronidase. As the morphology of both cell types and their synthesis of matrix components could be maintained in organ culture without substantial change we believe that the rat carotid artery may be a suitable model for the investigation of factors affecting arterial structure. This work was supported by grants from the Medical Research Council and the National Heart Foundation of New Zealand.     

(−)1-(Benzofuran-2-yl)-2-propylaminopentane Shows Survival Effect on Cortical Neurons Under Serum-Free Condition Through Sigma Receptors

SUMMARY 1. The rapid cell death of cortical neurons in serum-free culture was rescued by the condition medium from the high-density culture, but not by brain-derived neurotrophic factor or basic fibroblast growth factor.2. Similar rescue was observed by the addition of (–)BPAP, an impulse enhancer, and (+)-pentazocine, a sigma receptor agonist. These actions were blocked by BD1063, a sigma receptor antagonist.3. (–)BPAP showed a weak displacement activity in the [³H]pentazocine binding to synaptic membranes from rat cerebral cortex.4. These findings suggest that (–)BPAP and (+)-pentazocine have unique survival activity on cortical neurons through sigma receptors.     

Long-Term Culture of Rat Hippocampal Neurons at Low Density in Serum-Free Medium: Combination of the Sandwich Culture Technique with the Three-Dimensional Nanofibrous Hydrogel PuraMatrix

The primary culture of neuronal cells plays an important role in neuroscience. There has long been a need for methods enabling the long-term culture of primary neurons at low density, in defined serum-free medium. However, the lower the cell density, the more difficult it is to maintain the cells in culture. Therefore, we aimed to develop a method for long-term culture of neurons at low density, in serum-free medium, without the need for a glial feeder layer. Here, we describe the work leading to our determination of a protocol for long-term (>2 months) primary culture of rat hippocampal neurons in serum-free medium at the low density of 3×10⁴ cells/mL (8.9×10³ cells/cm²) without a glial feeder layer. Neurons were cultured on a three-dimensional nanofibrous hydrogel, PuraMatrix, and sandwiched under a coverslip to reproduce the in vivo environment, including the three-dimensional extracellular matrix, low-oxygen conditions, and exposure to concentrated paracrine factors. We examined the effects of varying PuraMatrix concentrations, the timing and presence or absence of a coverslip, the timing of neuronal isolation from embryos, cell density at plating, medium components, and changing the medium or not on parameters such as developmental pattern, cell viability, neuronal ratio, and neurite length. Using our method of combining the sandwich culture technique with PuraMatrix in Neurobasal medium/B27/L-glutamine for primary neuron culture, we achieved longer neurites (≥3,000 µm), greater cell viability (≥30%) for 2 months, and uniform culture across the wells. We also achieved an average neuronal ratio of 97%, showing a nearly pure culture of neurons without astrocytes. Our method is considerably better than techniques for the primary culture of neurons, and eliminates the need for a glial feeder layer. It also exhibits continued support for axonal elongation and synaptic activity for long periods (>6 weeks).     

Supplementary factors required for serum-free culture of rat kidney cells of line NRK-49F

Summary Factors requred as supplements to basal tissue culture medium for the multiplication of cells of the cloned rat fibroblast line called normal rat kidney 49F (NRK-49F) were identified as epidermal growth factor, fibronectin, insulin, and retinoic acid. The requirement for fibronectin was manifested on a clean glass surface but not on the polystyrene plastic surface tested. This set of required factors differs substantially from the factor sets required by the Madin-Darby, canine kidney (MDCK) and LLC-PK₁ pig kidney lines of epithelial cells and the baby hamster kidney 21 (BHK-21) line of fibroblasts. The serum-free medium supplemented with the four factors supported rapid growth of NRK-49F cells when the initial cell population density was about 8,000 cells/cm² or greater. At lower initial densities, cell multiplication was markedly increased by adding serum-free medium that had been conditioned by NRK-49F cells. Cell growth rate in the defined serum-free medium stayed high through two serial passages but declined in the third serial passage unless the cell-conditioned medium was added.     

Explant culture of rat esophagus in a chemically defined medium

Summary Esophagus from adult male CDF rats was cultured for a period of 28 d in CMRL-1066 medium supplemented with pyruvic acid, HEPES buffer, β-retinyl acetate, and antibiotics. Morphological, radioautographic, and biochemical studies indicated that the survival of the tissue in serum-free medium was equivalent to that in medium containing 5% heat-inactivated fetal bovine serum. There was a relatively constant uptake of [³H]thymidine into DNA and [³H]leucine into protein of the esophageal explants during the incubation. Only the basal cells of the epithelium incorporated [³H]thymidine into their nuclei. The normal morphology of the tissue was preserved when the explants were maintained at both 37 and 30° C, and in either 50 or 20% O₂. Ninety-five percent O₂ was highly toxic to the cells of the explants. This culture system should be suitable for a variety of investigations in esophageal cell differentiation and carcinogenesis.     

Biochemical characterization of the uptake and release of [3H]dopamine by dopaminergic hypothalamic neurons: a developmental study using serum-free medium cultures

The development of the biochemical properties of mouse hypothalamic dopaminergic neurons has been analyzed in vivo and in cultures of cell taken on the 16th day of gestation and grown in serum-free medium for up to 3 weeks. In the course of in vivo development, the dopamine (DA) content remains low during fetal life (10% of the adult value), beginning to increase on the 19th fetal day. In contrast, the specific accumulation of [3H]DA increased markedly during the last days of gestation from 20% of the adult value on the 16th fetal day to 70-80% of the adult value on Postnatal Day 3. Hypothalamic DA neurons in culture accumulate endogenous DA although at a lower level than in vivo. They take up [3H]DA by an active transport system which is specific for DA, and which shows time, temperature, and sodium dependency (Km = 1 microM). HPLC analysis showed that the newly taken up [3H]DA was not metabolized in the short run under the conditions used. It was stored in a form that could be released when neurons were depolarized in a high K+ (60 mM) medium. The K+-evoked [3H]DA release was found to be strictly dependent on extracellular Ca2+. Moreover the release of [3H]DA was also stimulated by veratridine in a Ca2+-dependent manner. Similar data have been obtained with the release of endogenous dopamine. No specific uptake and no K+-evoked dopamine release occurred in 2-day-old cultures. The specific [3H]DA uptake and the K+-evoked release appeared in 5-day-old cultures and increased with time in culture at least until Day 15. We examined the effects on [3H]DA release of polyunsaturated fatty acid, triiodothyronine, and corticosterone, all of which have been shown to play an important role in synaptogenesis in culture. These components, either separately or together, did not modify the percentage of the basal or the stimulated [3H]DA release. These results showed that hypothalamic DA neurons grown in serum-free medium progressively acquired the functional properties of adult DA neurons as concerns DA synthesis, DA uptake, and release. From a development point of view, this study suggests that the capacity to specifically take up [3H]DA and to respond to high K+ concentration is not expressed at early stages of neuronal development.(ABSTRACT TRUNCATED AT 400 WORDS)     

Autoradiographic labeling of spinal cord neurons with high affinity choline uptake in cell culture

Embryonic chick spinal cord neurons grown in dissociated cell culture have a high affinity uptake mechanism for choline. We find that, in addition to acetylcholine synthesis, the accumulated choline is used for the synthesis of metabolites such as lipids that are retained in part by conventional fixation techniques. As a result autoradiographic methods can be used to identify the cells that have the uptake mechanism in spinal cord cultures. About 60% of the neurons are labeled by [³H]choline uptake in cultures prepared with spinal cord cells from 4-day-old embryos, and about 40% are labeled in cultures prepared with cord cells from 7-day-old embryos. Neurons that innervate skeletal myotubes in spinal cord-myotube cultures are consistently labeled by [³H]choline uptake. Neurons unlabeled by the procedure are viable: they exclude the dye trypan blue and accumulate ¹⁴C-amino acids for protein synthesis. Most of the neurons unlabeled by [³H]choline uptake can instead be labeled by uptake of γ-[³H]aminobutyric acid, and vice versa. These results suggest that high affinity choline uptake can be used to label cholinergic neurons in cell culture, and that at least some populations of noncholinergic neurons are not labeled by the procedure. It cannot yet be concluded, however, that all labeled neurons are cholinergic since more labeled neurons are obtained per cord than would be expected from the number of neurons making up identified cholinergic populations in vivo. A three- to fourfold increase in the amount of high affinity choline uptake is observed between Days 3 and 15 in culture for spinal cord cells obtained from 4-day-old embryos. The number of [³H]choline-labeled neurons in such cultures decreases slightly during the same period, suggesting that the increase in uptake reflects neuronal growth or development rather than an increase in population size. Both the magnitude of the uptake and the number of [³H]choline-labeled neurons are the same for spinal cord cells grown with and without skeletal myotubes.     

Ligand-dependent modulation of membrane phospholipid metabolism in ConA-stimulated lymphocytes

Human peripheral lymphocytes were activated by ConA in serum-free culture medium, supplemented by BSA. Incorporation of [³H]thymidine into DNA, of [³H]uridine into RNA and of oleate or acetate into membrane phospholipids was investigated. DNA synthesis could be completely inhibited by αMM or by anti-ConA-IgG. Fab and F(ab)₂ fragments of the anti-ConA were equally active. When αMM or anti-ConA was added to cultures at different times after stimulation with ConA, incorporation of [³H]thymidine into DNA (measured after 72 h) could be prevented up to 6–8 h completely and up to 20–30 h partially. Incorporation of [³H]uridine into RNA could be arrested at any time of the culture up to 40 h at the level it had reached but did not reverse to the level of unstimulated cells for a long time. In contrast, incorporation of oleate into lecithin returned to the level of unstimulated cells within 2–3 h after removal of ConA. This suggests that the activation of the phospholipid turnover in stimulated cells is a direct consequence of the presence of the mitogen at the membrane and thus may be a critical initial event in lymphocyte activation.     

The use of serum-free medium for the production of functionally active humanised monoclonal antibody from NS0 mouse myeloma cells engineered using glutamine synthetase as a selectable marker

A protein-free growth medium (W38 medium) had previously been developed for the NS0 mouse myeloma cell line which is cholesterol-auxotrophic. This paper describes the development of a protein-free growth medium for NS0 cells expressing humanised monoclonal antibody using GS (glutamine synthetase) as a selectable marker. Several GS-engineered NS0 cell lines expressing humanised monoclonal antibody grew in a modification of W38 medium which maintained GS-selection, supplemented with cholesterol, phosphatidylcholine and -cyclodextrin. Further studies showed that additional glutamic acid, asparagine, ribonucleosides and choline chloride improved cell growth. Amino acid analysis identified a number of amino acids that were being depleted from the culture medium. NS0 cell lines 9D4 and 2H5 expressing CAMPATH-1H^* were adapted to enable them to grow serum-free in the absence of cholesterol and -cyclodextrin. Cholesterol-independent 9D4 (9D4.CF) cells grown in shake flask culture using an enriched protein-free medium (WNSD medium), supplemented with human recombinant insulin (Nucellin), reached a maximum cell density to 1.86×10⁶ cells ml^–1 producing 76.6 mg l^–1 of antibody. CAMPATH-1H antibody produced using serum-free medium was found to be functionally activein vitro in the Antibody Dependant Cellular Cytotoxicity (ADCC) assay.Abbreviations C cholesterol - CD cyclodextrin - dhfr dihydrofolate reductase - F68 Pluronic F68 - GS glutamine synthetase - MSX methionine sulphoximine - P phosphatidylcholine - PC-FBS phosphatidylcholine, cholesterol and foetal bovine serum - RPMI RPMI 1640 medium - ADCC Antibody-dependant cellular cytotoxicity     

Growth characterizations of a human monocytic leukemia cell line in a serum-free medium

A clone, AH-01S, derived from a human monocytic leukemia cell line, THP-1, grew rapidly in a serum-free medium containing insulin, transferrin, ethanolamine, and sodium selenite. In batch culture using the serum-free medium, the AH-01S cells proliferated at a specific growth rate (μ) of 0.30 to 0.50 (1/day) from a cell concentration of 1 × 10⁴ cells/ml to 1.6 × 10⁶ cells/ml, an increase of 160 times. A higher cell concentration of 0.45 × 10⁷ cells/ml (cell volume ratio was 0.5%) was obtained in spinner flask culture using the serum-free medium. A mean specific growth rate 0.50 (1/day) was also observed in a culture in a fully instrumented cell culture fermentor. However, μ decreased drastically after the cell concentration reached 1.5 × 10⁶ cells/ml. Analyses of medium composition during cultivation revealed that under lower cell concentration, l-glutamine was the main carbon source while glucose was converted to lactate almost stoichiometrically, and that the production of lactate from glucose decreased at higher cell concentrations. To obtain cultures of 1 × 10⁹ cells, 1,200 to 1,300 mg of a carbon source (glucose) and 400 to 500 of amino acids were consumed during high cell concentration cultivation of the AH-01S cells in the serum-free medium.     

High cell density perfusion culture of mouse-human hybridomas

Summary Five mouse-human hybridomas, H2, H3, V1, V2 and V6 cells secreting anti-virus human monoclonal immunoglobulin G (IgG) were cultured in serum-free media at high density in a settling perfusion culture vessel with an inner cell sedimentation zone. The H2, H3 and V6 cells reached a density of 10⁷ cells/ml in 0.5% (w/v) BSA-ITES-eRDF (see Materials and methods). The H2 cells reached only 6.8 × 10⁶ cells/ml in the absence of bovine serum albumin (BSA), but the addition of 0.2% (w/v) Pluronic F68 increased the maximum cell density to 1.1 × 10⁷ cells/ml, which was the same level as in BSA including medium. On the other hand, Pluronic F68 showed no stimulative effect on the growth of H2 cells in static culture. Pluronic F68 also increased the maximum cell density of V2 cells from 4.6 × 10⁶ cells/ml to 6.9 × 10⁶ cells/ml even in the presence of 0.5% (w/v) BSA.     

The induction of acetylcholine synthesis in primary cultures of dissociated rat sympathetic neurons : II. Developmental aspects

Dissociated sympathetic neurons from the neonatal rat, grown in cell culture in the virtual absence of other cell types, can develop many of the properties expected of differentiated adrenergic neurons including the ability to synthesize and accumulate catecholamines (CA)². However, in the presence of high concentrations of appropriately conditioned medium (CM), the cultures develop the ability to synthesize and accumulate acetylcholine (ACh); correspondingly, their ability to synthesize CA decreases. In this paper several developmental aspects of the CM effect are described. The time course of development of cultures grown with or without CM was followed using synthesis and accumulation of [³H]CA from [³H]tyrosine and production of [³H]ACh from [³H]choline as assays for adrenergic and cholinergic differentiation. The ability to produce CA or ACh developed along parallel time courses in the two sets of cultures, rising primarily during the second week in vitro and reaching a plateau during the fourth week. When CM was used as a cholinergic developmental signal, the sympathetic neurons showed a decreasing response to addition of CM as they matured adrenergically; addition of CM during the third or fourth 10 days in vitro was not as effective in inducing ACh production as addition during the first or second 10 days. Similarly, removal of CM at various times from cultures previously grown in CM showed that the cholinergic induction caused by CM was not easily reversible in older cultures. Thus, as with the adrenergic decision, the cholinergic decision becomes less reversible as the phenotype becomes fully expressed.     

Sphingolipid Metabolism and Caveolin Expression in Gonadotropin-Releasing Hormone-Expressing GN11 and Gonadotropin-Releasing Hormone-Secreting GT1-7 Neuronal Cells

In this paper, we show that caveolin-1 is abundantly present in a cell line of immortalized gonadotropin-releasing hormone-expressing neurons (GN11). In contrast to GN11, caveolin is undetectable in a cognate cell line of immortalized gonadotropin-releasing hormone-secreting neurons (GT1-7). These two cell lines are characterized by a radically different sphingolipid metabolism. After incubation in the presence of tracer amount of [1-³H]sphingosine, GN11 and GT1-7 neurons incorporated similar amounts of radioactivity. In GT1-7 neurons, [1-³H]sphingosine metabolism was markedly oriented toward the biosynthesis of complex sphingolipids. In fact, almost all the radioactivity in the lipid extracts from GT1-7 cells was associated with biosynthetic products (ceramide, sphingomyelin, and glycosphingolipids). In particular glycosphingolipids represented more than 65% of total lipid radioactivity in these cells, and the main glycosphingolipid was GM3 ganglioside (about 47% of total lipid radioactivity). In the case of GN11 neurons, a high portion of [1-³H]sphingosine underwent complete degradation, as indicated by the formation of high levels of radioactive phosphatidylethanolamine (about 23% of lipid radioactivity). Moreover, the main complex sphingolipid in GN11 neurons was not a glycolipid, but sphingomyelin (its level in these cells, about 54% of lipid radioactivity, was two-fold higher than in GT1-7). Glycolipids, gangliosides in particular, were present in low amount (9.5% of lipid radioactivity) if compared with the cognate GT1-7 cell line, and GM3 was almost absent in GN11 neurons. Despite the radical differences in ganglioside and caveolin content, from both cell types a membrane fraction similarly enriched in sphingolipids was prepared. In the case of GN11 cells, this fraction was also enriched in caveolin. The presence of caveolin or GM3 may correlate with different functional properties linked to the stage of neuronal maturation, since GN11 and GT1-7 are representative, respectively, of immature, migrating, and differentiated, postmigratory gonadotropin-releasing hormone-positive neurons.     

Effect of salicylic acid on glucucorticoid receptor in cultured fibroblasts derived from rat carrageenin granuloma

The binding activity of [³H]dexamethasone to the specific receptor was studied in the cytoplasmic fraction of a established fibroblast line derived from rat carrageenin granuloma in culture condition. Specific receptor to dexamethasone was demonstrated. Scatchard analysis revealed a single class of binding sites with a dissociation constant for [³H]dexamethasone of 3.64 · 10^?8 M and a concentration of binding sites of 0.825 pmol per mg cytosol protein. The number of cytoplasmic binding sites per cell was calculated at 1.15 · 10⁵.Total binding activity to [³H]dexamethasone of the cytoplasmic fraction was enhanced when the cells were cultured in a medium containing salicylic acid at 37°C. The maximum enhancement was seen at the concentration of 10^?3 M and in 3 h treatment of salicylic acid. This enhancement by salicylic acid was lost when cycloheximide was added to the culture medium at the same time. If salicylic acid was added to the cell free system, it showed no effect on the binding activity. The other non-steroidal anti-inflammatory drugs; phenylbutazone and indomethacin, also enhanced the total binding activity to [³H]dexamethasone of the cytoplasmic fraction at the concentration of 2 · 10^?5 M and 2 · 10^?7 M, respectively.     

Studies on the specificity of uptake and release of radiolabelled histamine in rat brain slices

Previously it has been shown that radiolabelled histamine is taken up by brain slices and may subsequently be released by depolarizing stimuli in a calcium-dependent manner, indicating the involvement of neurons in uptake and release of histamine.The present study demonstrates that after incubation of brain slices with low (nM) concentrations of [³H]histamine the amine may be taken up by (and released from) dopaminergic and serotonergic neurons (nerve terminals). Thus 6-hydroxydopamine- and 5,7-dihydroxytryptamine-induced lesions not only reduced the uptake of [³H]dopamine (in striatal slices) and [³H]serotonin (in hippocampal slices), but also, though to a lesser extent, that of [³H]histamine. Immunocytochemical findings revealed that the neurotoxins did not visibly affect histaminergic neurons. Lesioning of noradrenergic neurons appeared not to alter significantly the uptake of [³H]histamine. Further, various drugs acting on either catecholamine-, serotonin- or opioid-receptors and known to cause presynaptic inhibition of the release of [³H]dopamine or [³H]wrotonin from striatal or hippocampal slices also inhibited [³H]histamine release.It is concluded that incubation of brain slices with low concentrations of [³H]histamine does not result in a selective labelling of histaminergic neurons. The possibility that, unlike other monoamines, histamine is not subject to high-affinity uptake by the nerve terminals from which it was released, is discussed.     

Development of a serum-free culture medium for the large scale production of recombinant protein from a Chinese hamster ovary cell line

A serum-free medium, WCM5, has been developed for the large scale propagation of CHO (Chinese hamster ovary) cells which express recombinant protein using dihydrofolate reductase as a selectable marker. WCM5 was prepared by supplementing Iscoves medium without lecithin, albumin or transferrin with a number of components which were shown to benefit growth. WCM5 medium contained 5 mg l^–1 human recombinant insulin (Nucellin) but was otherwise protein-free. CHO 3D11^* cells which had been engineered to express a humanised antibody, CAMPATH^*-1H, were routinely grown using serum-containing medium. From a seeding density of 10⁵ cells ml^–1, cells grown in static culture with serum reached a maximal cell density of 6.5×10⁵ cells ml^–1 after 6 days in culture and produced a maximal antibody concentration of 69 mg l^–1 after 11 days in culture. CHO 3D11^* cells grown with serum were washed in serum-free medium then cultured in WCM5 medium. Following a period of adaptation the cell growth and product yield was superior to that achieved with serum-containing medium. CHO cells producing CAMPATH-1H grown in an 8000 l stirred bioreactor seeded with 2×10⁵ cells ml^–1 reached a maximal viable cell density of 2.16×10⁶ cells ml^–1 after 108 h in culture and a maximal antibody concentration of 131.1 mg l^–1 after 122 h in culture.Abbreviations CHO Chinese hamster ovary - dhfr dihydrofolate reductase - dhfr dihydrofolate reductase deficient - MTX methotrexate - H hypoxanthine - T thymidine - T/V trypsin versene - F12 Hams F12 medium - NEAA non essential amino acids     

Acetylcholine synthesis by chick spinal cord neurons in dissociated cell culture

Acetylcholine (ACh) synthesis was examined in cultures of chick spinal cord cells to follow the development of the cholinergic neurons. The cells, prepared from 4-day-old embryonic chick spinal cords, were grown either alone in dissociated cell cultures (SC cultures) or with chick myotubes (SC-M cultures). ACh synthesis was measured by incubating the cultures in [³Hcholine and using high-voltage paper electrophoresis to quantitate the amount of [³H]ACh present in cell extracts prepared from the labeled cultures. The amount of [³H]ACh synthesized in SC-M cultures was strictly proportional to the number of spinal cord cells used to prepare the cultures, and was linear with the time of incubation in [³H]choline for periods up to 1 hr. Maximal rates of synthesis were observed with [³H]choline concentrations in excess of 100 μM. Such rates for 1-week-old SC-M cultures were approximately 10–20 pmoles of [³H]ACh/hr/10⁵ spinal cord cells. Studies on the stability of the intracellular [³H]ACh revealed the presence of a major pool with a half-time of 20–30 min. A second, small pool decayed more rapidly. No detectable [³H]ACh was spontaneously released from the cells, suggesting that most of the decay represented intracellular degradation. Development of cholinergic neurons as monitored by [³H]ACh synthesis continued over a 2-week period in SC-M cultures and paralleled general cell growth. When examined at 1 week, SC-M cultures had about a 50% greater capacity for [³H]ACh synthesis and 60% more choline acetyltransferase activity than did SC cultures. No difference was observed in the stability of the [³H]ACh formed for the two types of cultures at 1 week, and no further difference was observed in the rates of [³H]ACh synthesis at 2 weeks. Growth of SC cultures in medium containing different amounts of chick embryo extract (2–10%) or in medium with fetal calf serum (10%) instead of extract produced only small differences in the measured rates of [³H]ACh synthesis. Thus chick spinal cord cells can undergo some of the early stages of cholinergic development in cell culture without sustained contact with skeletal myotubes, one of the normal postsynaptic target cells for the cholinergic neuron population. No absolute requirement for muscle factors was revealed under these conditions, although such factors may have been provided by other cell types in the spinal cord population or may have been present in other additions to the culture medium.     

Rat mesencephalic neuronal cells cultured for different periods as a model of dopamine transporter ontogenesis

Ventral mesencephalic neurons contained only low-affinity and sodium-independent binding sites of [³H]WIN 35,428 (marker of dopamine transporter) during the first 10d in primary cultures. These sites were present in cytosol, and they are not very probably related to dopamine transporter. After 12 d in culture, membrane-bound, high-affinity, and sodium-dependent [³H]WIN 35,428 binding sites were detected. In membranes prepared from cells 14 d in culture, cocaine displaced [³H]WIN 35,428 binding with similar potency to that in striatal membranes of adult rat brain. The high-affinity [³H]WIN 35,428 binding sites in mesencephalic neuronal cell cultures are very probably related to dopamine transporter. The development of high-affinity [³H]WIN 35,428 binding sites in neurons cultured for different time periods could be a useful model of dopamine transporter ontogenesis.