A continuous-flow culture system for organ culture of large explants of adult tissue: effect of oxygen tension on mouse molar periodontium

A modified continuous-flow culture system (CFCS) was developed to maintain large explants of periodontium from adult mouse in organ culture. The culture medium was stored in a reservoir outside of the incubator, pumped via polyvinyl tubing into small glass culture chambers that were placed in the oxygenator and then collected in a waste flask. Medium was analyzed for pO2, pCO2 and pH during the culture period. Three-molar and single-molar explants of periodontium were maintained for 48 hr in the CFCS at two different pO2 ranges: 100 to 120 mm Hg and 400 to 420 mm Hg. [3H]Proline was added 24 hr prior to sacrifice. Light-microscope morphological and radioautographic observations suggested that cell viability and incorporation of [3H]proline, probably into newly synthesized protein, increased with an increase in pO2 and was related to a pO2 gradient extending from the periphery to the center of the explants.     

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.     

Organ culture of adult rat colonic mucosa on fibrin foam

Summary A system for maintaining adult rat colonic mucosa in organ culture for up to 28 days is described. Distal colonic mucosa physically separated from the muscle layers was cultured at 37°C on a substrate of human fibrin foam in HEPES- and bicarbonate-buffered Waymouth's MB 752/1 medium supplemented with 10% fetal bovine serum,l-glutamine, bovine albumin, ascorbic acid, hydrocortisone, insulin, and ferrous sulfate; the optimal atmosphere for culture was 95% O₂ and 5% CO₂. Viability of explants was demonstrated by tissue morphology with light microscopy, incorporation of [³H]thymidine and [³H]leucine into DNA and protein, [¹⁴C]glucosamine and [³H]fucose incorporation, and glycoprotein synthesis. Two days after initiation of culture, degeneration of surface and crypt cells was observed. Secreted mucosubstances covered the explants. Explants maintained in 95% O₂ retained a variable number of glandular crypts with normal columnar epithelium for 14 to 21 days in culture. At 28 days, explants contained a single layer of cuboidal surface epithelium and a rare cryptlike gland. This work was supported by the National Cancer Institute Contract N01-CP-75953 and in part by the International Cancer Research Data Bank Program of the National Cancer Institute, National Institutes of Health, under Contract N01-CO-65341 with the International Union Against Cancer.     

Differentiation-arrested rat fetal lung in primary monolayer cell culture

Summary Differentiation-arrested lung cell cultures were developed from fetal rats of various gestational ages. In contrast to previously published observations with cultures in a pO₂ of ∼142 mm Hg, cultures developed in a pO₂ of ∼30 mm Hg, close to the normal fetal arterial pO₂, have improved plating efficiency and a slightly increased growth rate. They did not, however, show gestation-dependent increases of choline incorporation into phospholipids, nor did immature lung cell cultures respond to dexamethasone or triiodothyronine, singly or in combination, by increased choline incorporation into saturated lecithin. The incorporation of choline and glycerol into lipids suggested a mature rate of lipid synthesis by immature cultures at a pO₂ ∼30 mm Hg, despite preservation of an immature morphology. Electron microscope observations revealed no gross differences between immature cultures developed at either pO₂. The cellular mechanisms underlying these differences are unclear but suggest that oxygen tension may significantly influence results obtained with in vitro studies of lipid synthesis by immature lung. This work was supported by grants from the Medical Research Council of Canada, the Ontario Thoracic Society, and the Physicians' Services Incorporated Foundation.     

Organ culture of human articular cartilage: Studies on sulphated glycosaminoglycan synthesis

Summary An organ culture system is described for adult human articular cartilage obtained from joints afterfemoral head replacement operations. Cartilage slices maintain maximal viability for 2 days in culture as assessed by uptake of [³H]uridine and [³H]leucine into whole tissue, and³⁵SO₄ into sulphated glycosaminoglycans (GAGs). Since GAGs are the components of cartilage matrix, the depletion of which is associated with osteoarthrosis, a method for measuring sulphated GAG synthesis in culture has been investigated.     

Effects of the pO2 on swimming activity and food utilization in ophiocephalus striatus

The obligatory air-breathing fish Ophiocephalus striatus, fed on goat-liver, surfaced 906 times, swimming 270 m/day in aerated water (mean pO₂: 151 mm Hg) and 883 times, travelling 325 m/day in non-aerated water (92 mm Hg); surfacing and swimming activities increased below the pO₂ of 74 mm Hg. Hanging duration was more (8.4 hr/day) in the aerated series than that in the non-aerated series (5.9 hr/day). Rates of feeding, absorption and metabolism of either series averaged to 131,126 and 93 (= 0.8 ml O₂/g/hr) g cal/g live fish/day. Conversion rate and efficiency slightly increased from 22 g cal/g/day and 17% in the aerated series. Culturing O. striatus in aerated waters may not be advantageous. Starving groups in the aerated and non-aerated aquaria surfaced 317 times, hung for 14.7 hr, and swam 61 m/day, expending 15 g cal/ g/day (= 0.1 ml O₂/g/hr).     

The influence of dissolved oxygen concentration on phosphofructokinase and the glucose metabolism ofEscherichia coli K-12

The glucose metabolism and the response of phosphofructokinase activity to oxygen were investigated using glucose-limited chemostat cultures ofE. coli K-12. With a dilution rate of 0.2 hr^–1 and a glucose input concentration of 0.83 g/litre, 10 steady states were obtained ranging from 320 to 0 mm HgO₂. Dissolved oxygen reached zero level at a pO₂ of 25.8 mm Hg. The specific phosphofructokinase activity was constant above 28 mm Hg O₂ and increased linearly at lower pO₂ levels until it reached highest activity at 0 mm Hg O₂. Cell dry weight also started to decrease linearly from 28 to 5.9 mm Hg O₂, and fell sharply thereafter. Acid production rate did not start before pO₂ reached 25.6 mm Hg, increased progressively with an additional sharp increase below 5.9 mm Hg O₂. The main endproducts formed were acetic acid and ethanol with lactic acid appearing below 5.9 mm Hg O₂. The results suggest an effect of oxygen on phosphofructokinase synthesis rather than an ATP inhibition of the enzyme.This work was supported by a grant from the Australian Research Grant Commission.     

Uptake of nitrogen and production of kainic acid by laboratory culture of the red alga Digenea simplex

The red alga Digenea simplex was cultured with various culture media to clarify the nutritional conditions to produce kainic acid (KA ). Unlike the domoic acid‐producing red alga Chondria armata , D. simplex was insensitive to excessive manganese, and grew best (mean growth rate approximately 800% for 25 days) in modified PES medium (mPES ; seawater + nitrate, phosphate, iron, trace metals, vitamins, and 2‐[4‐(2‐hydroxyethyl)‐1‐piperazinyl]‐ ethanesulfonic acid) prepared with autoclaved seawater. Liquid chromatography‐mass spectrometry analysis of the algal extracts revealed that the KA content of the explants cultured with mPES or N·P·Fe medium (seawater + nitrate, phosphate, and iron) was somewhat higher than that of wild specimens (1748–2378 μg g^?1 vs 1562 μg g^?1). The ¹H‐nuclear magnetic resonance spectrum of the KA extracted and purified from pooled explants was indistinguishable from the previously reported KA spectrum. When D. simplex was cultured for 6 weeks with medium in which NaNO ₃ of mPES was replaced by Na¹⁵NO ₃, the ratio of ²¹⁴KA to total measured KA (^totalKA = ²¹³KA + ²¹⁴KA ) in the cultured explants (0.1 at the beginning of culture) gradually increased to 2.5, indicating that D. simplex produces KA in proportion to its growth under the condition in which sufficient nitrogen source is available.     

Adult rat hepatocytes cultured on an oxygen-permeable film increases the activity of albumin secretion

Primary culture of rat hepatocyte was performed in an oxygen-permeable film dish (F-dish), which would be expected to give an oxygen-rich culture condition. In the conventional culture dish in which the depth of medium was 2 mm, the oxygen tension (pO₂) in the medium decreased from 19% (144 mmHg) to 0.3% (2.3 mmHg) within 2 hr, while the pO₂ in the F-dish maintained 8.5% (64.6 mmHg) even after 2 hr. The adverse effect of the oxygen-deficiency appeared in the albumin secretion activity of the hepatocytes and it was more remarkable in the early period of culture. The average rate of albumin secretion for the initial 48 hr was 2.0 μg ml^-1 hr^-1 or 96 μg 10⁶ cells^-1 day^-1 in the F-dish. The average rate of albumin secretion for the initial 12 hr was only 0.36 μg ml^-1 hr^-1 in the conventional culture dish. The activity of ammonia elimination in the F-dish was 20–50% higher than the conventional culture dish. Three-dimensional aggregate was formed only in the F-dish. The advantage of three-dimensional aggregate for albumin secretion was not clear compared with two-dimensional monolayer. This revised version was published online in July 2006 with corrections to the Cover Date.     

CO2 in large-scale and high-density CHO cell perfusion culture

Productivity in a CHO perfusion culture reactor was maximized when pCO₂ was maintained in the range of 30–76 mm Hg. Higher levels of pCO₂ (> 150 mm Hg) resulted in CHO cell growth inhibition and dramatic reduction in productivity. We measured the oxygen utilization and CO₂ production rates for CHO cells in perfusion culture at 5.55×10^-17 mol cell^-1 sec^-1 and 5.36×10^-17 mol cell^-1 sec^-1 respectively. A simple method to directly measure the mass transfer coefficients for oxygen and carbon dioxide was also developed. For a 500 L bioreactor using pure oxygen sparge at 0.002 VVM from a microporous frit sparger, the overall apparent transfer rates (k_La+k_AA) for oxygen and carbon dioxide were 0.07264 min^-1 and 0.002962 min^-1 respectively. Thus, while a very low flow rate of pure oxygen microbubbles would be adequate to meet oxygen supply requirements for up to 2.1×10⁷ cells/mL, the low CO₂ removal efficiency would limit culture density to only 2.4×10⁶ cells/mL. An additional model was developed to predict the effect of bubble size on oxygen and CO₂ transfer rates. If pure oxygen is used in both the headspace and sparge, then the sparging rate can be minimized by the use of bubbles in the size range of 2–3 mm. For bubbles in this size range, the ratio of oxygen supply to carbon dioxide removal rates is matched to the ratio of metabolic oxygen utilization and carbon dioxide generation rates. Using this strategy in the 500 L reactor, we predict that dissolved oxygen and CO₂ levels can be maintained in the range to support maximum productivity (40% DO, 76 mm Hg pCO₂) for a culture at 10⁷ cells/mL, and with a minimum sparge rate of 0.006 vessel volumes per minute.A = volumetric agitated gas-liquid interfacial area at the top of the liquid, 1/mB = cell broth bleeding rate from the vessel, L/minCER = carbon dioxide evolution rate in the bioreactor, mol/min[CO₂] = dissolved CO₂ concentration in liquid, M[CO₂]^* = CO₂ concentration in equilibrium with sparger gas, M[CO₂]^** = CO₂ concentration in equilibrium with headspace gas, MCO₂(1) = dissolved carbon dioxide molecule in water[C_T] = total carbonic species concentration in bioreactor medium, M[C_T]_F = total carbonic species concentration in feed medium, MD = bioreactor diameter, mD_I = impeller diameter, mD_b = the initial delivered bubble diameter, mF = fresh medium feeding rate, L/minH_L = liquid height in the vessel, mk_A = carbon dioxide transfer coefficient at liquid surface, m/mink _infA ^supO = oxygen transfer coefficient at liquid surface, m/minNomenclature     

The cultivation of animal cells at controlled dissolved oxygen partial pressure

A 3-liter culture vessel has been developed for the growth of animal cells in suspension at controlled pH and dissolved oxygen partial pressure (pO₂). The culture technique allows metabolically produced CO₂ to be measured; provision can be made to control the dissolved CO₂ partial pressure. In cultures containing a low serum concentration, gas sparging to control pO₂ was found to cause cell damage. This could be prevented by increasing the serum concentration to 10%, or by adding 0.02% of the surface-active polymer Pluronic F68. The growth of mouse LS cells in batch culture without pO₂ control was found to be limited by the availability of oxygen. Maximum viable cell populations were obtained when dissolved pO₂ was controlled at values within the range 40–100 mm Hg.     

Influence of agar and activated charcoal on uptake of gibberellin and plant morphogenesis In vitro

Summary Agar and activated charcoal (AC) are commonly used in tissue culture. However, their deeper actions and functions are largely unknown. This experiment investigated the effect of agar and AC, singly and jointly, on gibberellin (GA) uptake by corn shoots. Corn seeds were germinated on Murashige and Skoog medium (MS). Shoot excised from 1-wk-old seedlings were cultured on liquid (0.0 g l⁻¹ agar) or solid (8 g l⁻¹ agar) MS containing 3 μM indole-3-acetic acid, 13.3 μM N⁶-benzyladenine, and 6000 CPM ml⁻¹ [³H]GA₄ as tracer. Both liquid and solid media had two treatments, one without AC and one supplemented with 5 g l⁻¹AC. Uptake of [³H]GA₄ and morphogenesis of corn shoots were recorded after 2 wk of culture. Corn explants cultured in AC-free media acquired high levels of [³H]GA₄, while explants from AC-containing media showed only traces of [³H]GA₄. Explants cultured in AC-free liquid medium contained about twice the amount of [³H]GA₄ as those from AC-free solid medium. Addition of agar reduced shoot length, while addition of AC increased both shool and root length. It is concluded that: (1) agar reduced the uptake of GA₄; and (2) GA₄ was irreversibly adsorbed by AC, and thus became unavailable to corn explants.     

An analysis of dorsal root ganglia differentiation using three tissue culture systems

Summary The histogenesis of the dorsal root ganglia of chick embryos (ages 3 to 9 days) was followed in three different tissue culture systems. Organotypic explants included dorsal root ganglia connected to the lumbosacral segment of the spinal cord or isolated explants of the contralateral ganglia. Additionally, dissociated monolayer cultures of ganglia tissue were established. The gradual differentiation of progenitor neuroblasts into distinct populations of large ventrolateral and small dorsomedial neurons was observed in vivo and in vitro. Neurites developed after 3 days in the presence or absence of nerve growth factor in the medium. In contrast, autoradiographic analysis indicates that [³H]thymidine incorporation in neuronal cultures differed significantly from intact embryos. In vivo, the number of neuronal progenitor cells labeled with [³H]thymidine decreased in older embryos; in vitro, uptake of [³H]thymidine label was not observed in ganglionic progenitor cells regardless of the age of the donor embryo or the type of culture system. Lack of proliferation in ganglionic progenitor cells was not due to degeneration because vital staining and uptake of [³H]deoxyglucose indicated that neurons were metabolically active. Furthermore, the block in mitotic activity in vitro was limited to presumptive ganglionic neuronal cells. In the ependyma of the spinal cord segment connected to the dorsal root ganglia, neuronal progenitor cells were heavily labeled as were non-neuronal cells within both spinal cord and ganglia. Our results suggest that in vitro conditions can promote the differentiation of sensory neurons from early embryos (E3.5–4.5) without proliferation of progenitor cells.     

Influence of variations in pericellular oxygen tension on individual cell growth,muscle-characteristic proteins,and lactate dehydrogenase isoenzyme pattern in cultures of beating rat heart cells

Summary Primary cell cultures from neonatal rat ventricles were continuously exposed for 7 days in a modified roller apparatus to defined pericellular oxygen tension varying from 0.6 to 600 mm Hg. 5-Fluorodeoxyuridine was added to the medium to prevent over-growth of muscle cells by nonmuscle cells. A pericellular pO₂ of 600 mm Hg was lethal. The range of about 15 to 150 mm Hg was favorable, as indicated by increases in total and muscle-characteristic proteins. Between the 2nd and 8th day of cultivation at a pO₂ of 38 mm Hg, myosin content per cell increased 3.2-fold and creatine kinase activity 2.5-fold. At 0.6 mm Hg, myosin content increased only 1.3-fold and there was no increase in creatine kinase activity. The rate of myosin synthesis was diminished at this low pO₂. ATP level and beating rate at 0.6 mm Hg did not differ from values at 38 mm Hg. The isoenzyme pattern of lactate dehydrogenase remained unchanged during cultivation at 38 mm Hg, whereas at 0.6 mm Hg it shifted towards an M-type pattern. These experiments suggest that neonatal rat heart cells maintained in vitro can adapt themselves to low oxygen tensions.     

速生白榆的组织培养与快速繁殖

该文以速生白榆半木质化枝条为外植体,使用75%的酒精和0.1%HgCl_2消毒处理,外植体经过启动培养后,在增殖培养基中进行丛生芽诱导,将丛生芽切成单株进行生根诱导,最终建立起成熟的速生白榆组培快繁体系。结果表明:外植体最佳消毒处理组合为75%的酒精处理50 s+0.1%HgCl_2处理8 min,外植体污染率为17.3%,成活率为78%;将消毒处理过的外植体接种到启动培养基中,培养25 d,最终筛选出最适白榆外植体启动的培养基为MS+1.0 mg·L~(-1)6-BA+0.1 mg·L~(-1)IBA+30 g·L~(-1)蔗糖+6.5 g·L~(-1)琼脂,启动率高达87.5%;将经过启动培养后的外植体腋芽切下,接种到增殖培养基中进行丛生芽诱导,最终筛选出最佳增殖培养基为MS+0.5 mg·L~(-1)6-BA+0.1 mg·L~(-1)KT+0.1 mg·L~(-1)IBA+30 g·L~(-1)蔗糖+6.5 g·L~(-1)琼脂,继代周期25 d,增殖系数达6.2;将丛生芽切成单株,接种到生根诱导培养基中,筛选出最佳生根培养基为1/2 MS+0.1 mg·L~(-1)IBA+0.1 mg·L~(-1)IAA+30 g·L~(-1)蔗糖+6.5 g·L~(-1)琼脂,生根诱导30 d,生根率达97%。将生根苗在室外炼苗后,移栽到珍珠岩∶蛭石∶泥炭土体积比为1∶1∶1的混合基质中,成活率在90%以上。较高的增殖系数、生根率和移栽成活率可以降低生产成本,进而实现工厂化育苗。     

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.     

Explant culture of rat colon: A model system for studying metabolism of chemical carcinogens

Summary An explant culture system has been developed for the long-term maintenance of colonic tissue from the rat. Explants of 1 cm² in size were placed in tissue-culture dishes to which was added 2 ml of CMRL-1066 medium supplemented with glucose, hydrocortisone, β-retinyl acetate, and either 2.5% bovine albumin or 5% fetal bovine serum. The dishes were placed in a controlied-atmosphere chamber which was gassed with 95% O₂ and 5% CO₂. The chamber then was placed on a rocker platform which rocked at 10 cycles per min causing the medium to flow intermittently over the epithelial surface. The explants were incubated at 30°C. The viability of the tissue was measured both by incorporation of specific precursors into cellular macromolecules and by monitoring of tissue morphology with light and electron microscopy. Cultured rat colon was able to metabolize benzo[a]pyrene, 7,12-dimethylbenz[a]anthracene, aflatoxin B₁, dimethylnitrosamine, 1,2-dimethylhydrazine, and methylazoxymethanol acetate into chemical species that bind to cellular DNA and protein.     

Organ explant culture of adult Syrian golden hamster pancreas

Summary An organ explant culture system has been developed for long term maintenance of adult pancreatic tissue from the Syrian golden hamster. Gastric and duodenal lobe explants of up to 0.5 cm² size were placed in tissue culture dishes (60 mm²) on Gelfoam sponge rafts to which was added 5 ml of CMRL medium 1066 supplemented with heat inactivated newborn bovine serum,l-glutamine hydrocortisone, insulin, and antibiotics. Dishes were placed in a controlled atmosphere chamber, which was gassed with 45% O₂ 50% N₂, and 5% CO₂ and incubated at 36.5°C. Viability of the tissues was determined by light and electron microscopy as well as by [³]thymidine incorporation. Explants were viable for up to 70 d. Zymogen granule-containing cells characteristic of acinar cells and mucuscontaining cells characteristic of ductal cells were present throughout this period. However, endocrine cells were only present for the 1st wk in culture. This work was supported in part by National Cancer Institute Grant CA-19197-06 through the National Pancreatic Cancer Project and is UMP contribution No. 950.     

Effects of [3H]Udr On the Cell-Cycle Progression of L1210 Cells

Tritium-labelled uridine ([³H]UdR) perturbs progression of L1210 cells through the mitotic cycle. the main effect manifests as a slowdown or arrest of a portion of cells in G₂ and is already observed 2 hr after addition of 0.5–5.0 μCi/ml of [³H]UdR into cultures. At 2.5–5.0 μCi/ml of [³H]UdR a slowdown of cell progression through S is also apparent. Additionally, there is an increase in the number of cells with DNA values higher than 4C in cultures growing in the presence of [³H]UdR for 8–24 hr. A pulse of [³H]UdR of 2 hr duration labels predominantly (95%) cellular RNA. the first cell-cycle effects (G₂ slowdown) are observed when the amount of the incorporated [³H]UdR is such that, on average there are fewer than thirty-six [³H] decays per cell which corresponds to approximately 12–19 rads of radiation. the S-phase slowdown is seen at a dose of incorporated [³H]UdR twice as high as that inducing G₂ effects. the specific localization of [³H]UdR in nucleoli, peripheral nucleoplasm and in cytoplasm, as well as differences in the kinetics of the incorporation in relation to phases of the cell cycle are discussed in the light of the differences between the effects of [³H]UdR and [³H]thymidine. Mathematical modelling of the cell-cycle effects of [³H]UdR is provided.     

Effects of culture conditions on taurine uptake by various variants of human endometrial carcinoma cells in culture

Summary. The general properties of the taurine uptake in human endometrial tumoral Ishikawa cells were similar to those usually found in other tissues. Uptake was notably affected by the oxygen pressure, being higher at the physiological pO₂ of the endometrium (40mm Hg, equivalent to 5% O₂) compared to that used under standard experimental culture conditions (160mm Hg or 20% O₂). Uptake of taurine was also density-dependent in Ishikawa cells and was significantly decreased at confluence. Uptake regulation by PKC driven phosphorylation occurs only in growing cells and not in resting cells. The taurine uptake of three Ishikawa cell lines was very different. The taurine uptake of one of the cell lines was affected by estradiol, probably through a non-genomic pathway, whereas tamoxifen had no effect in all cell lines.