Induction of cytochrome P-450-dependent hydroxylases in primary monolayer cultures of rat hepatocytes

Hydroxylation of androstenedione was studied in rat hepatocytes in primary monolayer culture following induction with phenobarbital. Six days after addition of phenobarbital and seven days after isolation of cells from liver, a maximal induction of total androstenedione hydroxylation of 5–6 times was seen at a phenobarbital concentration of 1·10⁻⁴ M. The 6β-, 7α- and 16α-hydroxylase activities showed different responses towards phenobarbital in agreement with the contension that different forms of cytochrome P-450 with different sensitivity towards phenobarbital participate in hepatic steroid hydroxylation. These results were obtained with cells supplemented with 1% (v/v) rat serum. The present cell culture system should be suitable for in vitro studies on mechanisms of induction of cytochrome P-450-dependent enzymes in normal liver cells.     

Fatty acid transport and activation and the expression patterns of genes involved in fatty acid trafficking

These studies defined the expression patterns of genes involved in fatty acid transport, activation and trafficking using quantitative PCR (qPCR) and established the kinetic constants of fatty acid transport in an effort to define whether vectorial acylation represents a common mechanism in different cell types (3T3-L1 fibroblasts and adipocytes, Caco-2 and HepG2 cells and three endothelial cell lines (b-END3, HAEC, and HMEC)). As expected, fatty acid transport protein (FATP)1 and long-chain acyl CoA synthetase (Acsl)1 were the predominant isoforms expressed in adipocytes consistent with their roles in the transport and activation of exogenous fatty acids destined for storage in the form of triglycerides. In cells involved in fatty acid processing including Caco-2 (intestinal-like) and HepG2 (liver-like), FATP2 was the predominant isoform. The patterns of Acsl expression were distinct between these two cell types with Acsl3 and Acsl5 being predominant in Caco-2 cells and Acsl4 in HepG2 cells. In the endothelial lines, FATP1 and FATP4 were the most highly expressed isoforms; the expression patterns for the different Acsl isoforms were highly variable between the different endothelial cell lines. The transport of the fluorescent long-chain fatty acid C₁-BODIPY-C₁₂ in 3T3-L1 fibroblasts and 3T3-L1 adipocytes followed typical Michaelis–Menten kinetics; the apparent efficiency (k_cat/K_T) of this process increases over 2-fold (2.1 × 10⁶–4.5 × 10⁶ s⁻¹ M⁻¹) upon adipocyte differentiation. The V_max values for fatty acid transport in Caco-2 and HepG2 cells were essentially the same, yet the efficiency was 55% higher in Caco-2 cells (2.3 × 10⁶ s⁻¹ M⁻¹ versus 1.5 × 10⁶ s⁻¹ M⁻¹). The kinetic parameters for fatty acid transport in three endothelial cell types demonstrated they were the least efficient cell types for this process giving V_max values that were nearly 4-fold lower than those defined form 3T3-L1 adipocytes, Caco-2 cells and HepG2 cells. The same cells had reduced efficiency for fatty acid transport (ranging from 0.82 × 10⁶ s⁻¹ M⁻¹ to 1.35 × 10⁶ s⁻¹ M⁻¹).     

Intrinsic anticarcinogenic effects of Piper sarmentosum ethanolic extract on a human hepatoma cell line

Background

Piper sarmentosum, locally known as kaduk is belonging to the family of Piperaceae. It is our interest to evaluate their effect on human hepatoma cell line (HepG2) for the potential of anticarcinogenic activity.

Results

The anticarcinogenic activity of an ethanolic extract from Piper sarmentosum in HepG2 and non-malignant Chang's liver cell lines has been previously determined using (3-[4,5-dimethylthiazol-2-yl]-2,5-diphenyl-tetrazolium bromide) (MTT) assays, where the IC₅₀ value was used as a parameter for cytotoxicity. The ethanolic extract that showed anticarcinogenic properties in HepG2 cells had an IC₅₀ of 12.5 μg mL^-1, while IC₅₀ values in the non-malignant Chang's liver cell line were greater than 30 μg mL^-1. Apoptotic morphological changes in HepG2 cells were observed using an inverted microscope and showed chromatin condensation, cell shrinkage and apoptotic bodies following May-Grunwald-Giemsa's staining. The percentage of apoptotic cells in the overall population (apoptotic index) showed a continuously significant increase (p < 0.05) in 12.5 μg mL^-1 ethanolic extract-treated cells at 24, 48 and 72 hours compared to controls (untreated cells). Following acridine orange and ethidium bromide staining, treatment with 10, 12 and 14 μg mL^-1 of ethanolic extracts caused typical apoptotic morphological changes in HepG2 cells. Molecular analysis of DNA fragmentation was used to examine intrinsic apoptosis induced by the ethanolic extracts. These results showed a typical intrinsic apoptotic characterisation, which included fragmentation of nuclear DNA in ethanolic extract-treated HepG2 cells. However, the non-malignant Chang's liver cell line produced no DNA fragmentation. In addition, the DNA genome was similarly intact for both the untreated non-malignant Chang's liver and HepG2 cell lines.

Conclusion

Therefore, our results suggest that the ethanolic extract from P. sarmentosum induced anticarcinogenic activity through an intrinsic apoptosis pathway in HepG2 cells in vitro.     

Nutrient regulation of bacterial growth and production of anti-tumor metabolites in <Emphasis Type="Italic">Stigmatella</Emphasis> WXNXJ-B fermentation

The metabolites produced by Stigmatella WXNXJ-B inhibited the growth of tumor cells. The aims of this research were to evaluate the inhibition potency to different tumor cell lines and to study the effects of ammonium, phosphate and iron salts on bacterial growth and production of bioactive metabolites in Stigmatella WXNXJ-B fermentation. The results showed that the chloroform extract (CE-ME) showed the strongest growth inhibition bioactivity on mouse melanoma cell line (B16), murine colon carcinoma cell line (CT-26), human liver carcinoma cell line (HepG2) and human breast cancer cell line (MDA-MB231) in vitro and the IC₅₀ values were 9.94, 7.33, 11.34 and 11.66 μg ml⁻¹ respectively. The IC₅₀ value was above 700 μg ml⁻¹ on normal mouse spleen cells. Morphology happened changes in B16 cells treated with CE-ME. The anti-tumor metabolites were mainly produced during the stationary phase of the bacterial growth. Cell growth was stimulated at the phosphate concentration below 5 mM, but it was inhibited partly with 10 mM phosphate. The production of bioactive substances was inhibited by the phosphate. Ammonium increased the cell growth by 250% at 5 mM addition. The inhibition rate to B16 cells was increased to 89% at the concentration of 40 mM ammonium. The bacteria showed the best growth with 4 mM iron. Iron had little effect on the production at 2 mM, but bigger inhibition effect at higher iron concentration.     

Metabolism of 2,4,6-trinitrotoluene by the white-rot fungus Bjerkandera adusta DSM 3375 depends on cytochrome P-450

Degradation of 2,4,6-trinitrotoluene (TNT) by the white-rot fungus Bjerkandera adusta DSM 3375 was studied in relation to extracellular ligninolytic activities. The Mn(II)-dependent peroxidase, the only ligninolytic enzyme detectable, reached a maximum activity of 600 ± 159 U/l after incubation in mineral medium with a sufficient nitrogen source. In contrast, the highest extent of [¹⁴C]TNT mineralization was detected in malt extract broth, so that the ability of B. adusta to mineralize TNT did not parallel ligninolytic activity. The microsomal fraction of cells grown in the presence of TNT was found to contain 11 pmol cytochrome P-450/mg protein. In cells grown without TNT, no microsomal cytochrome P-450 could be found. Instead, 14 pmol P-450/mg protein was present in the cytosolic fraction of these cells. Cytochrome P-450 apparently affected the TNT metabolism, as shown by inhibitory studies. Addition of the cytochrome P-450 inhibitor piperonyl butoxide diminished the ¹⁴CO₂ release from 21% to 0.9%, as determined after 23 days of incubation, while 1-aminobenzotriazole and metyrapone decreased the mineralization to 8.6% and 6.3% respectively. Mass-balance analysis of TNT degradation in liquid cultures revealed that, by inhibition of cytochrome P-450, the TNT-derived radioactivity associated with biomass and with polar, water-soluble metabolites decreased from 93.9% to 15.0% and the fraction of radiolabelled metabolites extractable with organic solvents fell to 92.6%. The TNT metabolites of this fraction were identified as aminodinitrotoluenes, indicating that this initial transformation product of TNT may function as a substrate for cytochrome-P-450-dependent reactions in B. adusta. Received: 27 May 1999 / Received revision: 19 August 1999 / Accepted: 19 August 1999     

The newly established human liver cell line: a potential cell source for the bioartificial liver in the future

The clinical use of a bioartificial liver (BAL) device strongly depends on the development of human liver cell lines. The aim of this study was to establish and assess the potential use of the stable HepG2 cell line expressing human augmenter of liver regeneration (hALR). The cDNA encoding hALR protein was inserted into pcDNA3.1 to generate pcDNA3.1/hALR, following which pcDNA3.1/hALR was transfected to HepG2 to establish a cell line that stably expressed hALR (HepG2 hALR). A total of 800 million HepG2 hALR cells were loaded into laboratory-scale BAL bioreactors and cultured for 4 days, during which time the parameters of hepatocyte-specific function and general metabolism were determined. The cell line that stably expressed human ALR was successfully established. The expression of recombinant hALR was higher in the HepG2 hALR cell line than in the HepG2 cell line based on immunofluorescence and immunoblot assays. In samples removed from the BAL bioreactor on day 4, compared to HepG2 cells, HepG2 hALR cells produced significantly more alpha-fetoprotein (127.3 %; P < 0.05) and urea (128.8 %; P < 0.05) and eliminated more glucose (135.7 %; P < 0.05); the level of human albumin was also higher (117 %) in HepG2 hALR cells, but the difference was not significant (P > 0.05). After 24 h of culture, the mean lidocaine removal rate was 65.1 and 57.3 % in culture supernatants of HepG2 hALR and HepG2 cell lines, respectively (P < 0.01). Based on these results, we conclude that HepG2 hALR cells showed liver-specific functionality when cultured inside the bioreactor and would therefore be a potential cell source for BAL.     

Cytochrome P450 expression profile of the PICM-19H pig liver cell line: potential application to rapid liver toxicity assays

Liver in vitro models are needed to replace animal models for rapid assessment of drug biotransformation and toxicity. The PICM-19 pig liver stem cell line may fulfill this need since these cells have activities associated with xenobiotic phase I and II metabolism lacking in other liver cell lines. The objective of this study was to characterize phase I and II metabolic functions of a PICM-19 derivative cell line, PICM-19H, compared to the tumor-derived human HepG2 C3A cell line and primary cultures of adult porcine hepatocytes. Following exposure of PICM-19H cells to either 3-methylcholanthrene, rifampicin or phenobarbital, the induced activities of cytochrome P450 (CYP450) isozymes CYP-1A, -2, and-3A were assessed. Relative to adult porcine hepatocytes, PICM-19H cells exhibited 30% and 43%, respectively, of CYP1A and 3A activities, while HepG2 C3A cells exhibited 7% and 0% of those activities. Fluorescent metabolites were extensively conjugated, i.e., 52% and 96% of CYP450-1A and-3A metabolites were released from medium samples following treatment with β-glucuronidase/arylsulfatase. Rifampicin induction of CYP450 isozyme activities was confirmed by conversion of testosterone to 6β-OH-, 2α-OH- and 2β-OH-testosterone, as determined by mass spectrometry. Susceptibility of PICM-19H cells to acetaminophen toxicity was determined; CD₅₀ was calculated to be 14.9 ± 0.9 mM. Toxicity and bioactivation of aflatoxin B1 was determined in 3-methylcholanthrene-treated cultures and untreated controls; CD₅₀ were 1.59 μM and 31 μM, respectively. These results demonstrate the potential use of PICM-19H cells in drug biotransformation and toxicity testing and further support their use in extracorporeal artificial liver device technology.     

Chemotypes sensitivity and predictivity of in vivo outcomes for cytotoxic assays in THLE and HepG2 cell lines

In the present study, we demonstrate the utility of in vitro ATP depletion assays in both THLE and HepG2 cells for predicting the toxicological outcome in Exploratory Toxicology Studies across 446 Pfizer proprietary compounds. Our results suggest a higher likelihood of selecting suitable compounds for in vivo safety studies by using cytotoxicity assays in multiple cell-lines over a single cell line. In addition, we demonstrate that different cell-lines have different sensitivities to compounds depending on their ionization state, that is, acid, base or neutral. HepG2 cells are more sensitive for basic compounds, whereas THLE cells have a relatively higher sensitivity for the acidic and neutral compounds. These in vitro cytotoxicity assays when combined with physicochemical properties (c Log P >3 and topological polar surface area (TPSA) <75 Å²), are the most effective means to prioritize compounds having a lower probability of causing adverse events in vivo.     

Bioactive metabolites from <Emphasis Type="Italic">Penicillium</Emphasis> sp., an endophytic fungus residing in <Emphasis Type="Italic">Hopea hainanensis</Emphasis>

The metabolites of endophytic fungus Penicillium sp. from the leaf of Hopea hainanensis were reported for the first time. By bioassay-guided fractionation, the EtOAc extract of a solid-matrix steady culture of this fungus afforded six compounds, which were identified through a combination of spectral and chemical methods (IR, MS, ¹H- and ¹³C-NMR) to be monomethylsulochrin (1), rhizoctonic acid (2), asperfumoid (3), physcion (4), 7,8-dimethyl-iso-alloxazine (5) and 3,5-dichloro-p-anisic acid (6). Compounds 2, 3 and 6 were obtained from Penicillium sp. for the first time. All of the six isolates were subjected to in vitro bioactive assays including antifungal action against three human pathogenic fungi Candida albicans, Trichophyton rubrum and Aspergillus niger and cytotoxic activity against the human nasopharyngeal epidermoid tumor KB cell line and human liver cancer HepG2 cell line. As a result, compounds 2–4 and 6 inhibited the growth of C. albicans with MICs of 40.0, 20.0, 50.0 and 15.0 μg/ml, respectively and the compound 6 showed growth inhibition against A. niger with MICs of 40.0 μg/ml. In addition, compounds 1–3 and 6 exhibited cytotoxic activity against KB cell line with IC₅₀ value of 30.0, 20.0, 20.0, 5.0 μg/ml, respectively and against HepG2 cell line with IC₅₀ value of 30.0, 25.0, 15.0, 10.0 μg/ml, respectively.     

The use of a conventional tissue culture plate as an optically accessible perfusion chamber for in situ assays and for long-term cultivation of mammalian cells

An alternative culture system has been developed based on a conventional tissue culture plate (3.5 cm diameter) which is changed into a closed perfusion chamber. The system can easily be scaled up from one to several chambers. The shape and the size of the area of cell growth may be designed to individual experimental demands. The whole culture chamber is optically accessible, so cell growth and morphology can be evaluated by light microscopy. Furthermore the cellular physiology can be characterised by any fluorimetric assay using a bottom type fluorescence reader. A peristaltic pump sustains a constant medium flow through the chamber thus creating true homeostasis. The use of HPLC-valves and connectors allows the switching between different media or assay solutions. Thus it is possible to perform in situ assays also measuring transient effects. A protocol for vitality tests using calcein-AM is worked out for an adherent cell line and for a suspension cell line. The lower detection limits are 7 × 10² cells cm^-2 for the adherent cells and 5 × 10⁴ cells mL^-1 for the suspension cells. The upper limits are 1–2 × 10⁵ cells cm^-2 respectively 8 × 10⁶ cells mL^-1.     

The NCI-N87 cell line as a gastric epithelial barrier model for drug permeability assay

The objective of this study was to evaluate the human NCI-N87 cell line as a model for gastric permeability drug studies under pH conditions of the stomach. The optimal conditions that led NCI-N87 cells to form a typical differentiated gastric epithelial barrier were a seeding density of 2.5 × 10⁵ cells/cm² on porous inserts and growth in serum-complemented RPMI-1640 medium until 18–27 days post-confluency. The resulting cell monolayers showed moderately high transepithelial electrical resistance (TEER) values of about 500 Ω cm², cells of polygonal morphology expressing E-cadherin and ZO-1 proteins at their contact surfaces, and production of mucus clusters. The monolayers withstood apical pH of 7.4 down to 3.0 with the basal pH fixed at 7.4. The apparent permeability coefficients (P_app) of model compounds were evaluated in the apical-to-basolateral and basolateral-to-apical directions under different pH gradients. The monolayers were impermeable to the integrity marker Lucifer Yellow (low P_app of 0.3–1.1 × 10⁻⁶ cm/s). The furosemide P_app (0.4–1.5 × 10⁻⁵ cm/s) were slightly dependent on pH but remained moderate. The caffeine P_app (4.2–5.0 × 10⁻⁵ cm/s) were higher and insensitive to pH changes. The NCI-N87 cell line provides a useful in vitro tool to assess gastric drug permeability and absorption under physiologic conditions prevailing in the human stomach.     

Resveratrol-induced mitochondrial dysfunction and apoptosis are associated with Ca2+ and mCICR-mediated MPT activation in HepG2 cells

Resveratrol, a natural polyphenolic antioxidant, has been reported to possess the cancer chemopreventive potential in wide range by means of triggering tumor cells apoptosis through various pathways. It induced apoptosis through the activation of the mitochondrial pathway in some kinds of cells. In the present reports, we showed that resveratrol-induced HepG2 cell apoptosis and mitochondrial dysfunction was dependent on the induction of the mitochondrial permeability transition (MPT), because resveratrol caused the collapse of the mitochondrial membrane potential (ΔΨ_m) with the concomitant release of cytochrome c (Cyt.c). In addition, resveratrol induced a rapid and sustained elevation of intracellular [Ca²⁺], which compromised the mitochondrial ΔΨ_m and triggered the process of HepG2 cell apoptosis. In permeabilized HepG2 cells, we further demonstrated that the effect of the resveratrol was indeed synergistic with that of Ca²⁺ and Ca²⁺ is necessary for resveratrol-induced MPT opening. Calcium-induced calcium release from mitochondria (mCICR) played a key role in mitochondrial dysfunction and cell apoptosis: (1) mCICR inhibitor, ruthenium red (RR), prevent MPT opening and Cyt.c release; and (2) RR attenuated resveratrol-induced HepG2 cell apoptotic death. Furthermore, resveratrol promotes MPT opening by lowering Ca²⁺-threshold. These data suggest modifying mCICR and Ca²⁺ threshold to modulate MPT opening may be a potential target to control cell apoptosis induced by resveratrol. Xuemei Tian—Foundation item: Chinese National Natural Science Foundation (No.30300455).     

Effect of α, β momorcharin on viability,caspase activity,cytochrome c release and on cytosolic calcium levels in different cancer cell lines

A multitude of plants have been used extensively for the treatment of cancers throughout the world. The protein, α, β momorcharin has been extracted from the plant Momordica charantia (MC), and it possesses anti-cancer and anti-HIV properties similar to the crude water and methanol soluble extract of the plant. This study investigated the anti-cancer effects and the cellular mechanisms of action of α, β momocharin (200–800 μM) on 1321N1, Gos-3, U87-MG, Sk Mel, Corl-23 and Weri Rb-1 cancer cell lines compared to normal healthy L6 muscle cell line measuring cell viability using MTT assay kit, Caspase-3 and 9 activities, cytochrome c release and intracellular free calcium concentrations [Ca²⁺]_i. The results show that α, β momorcharin can evoke significant dose-dependent (P < 0.05; Student’s t test) decreases in the viability (increases in cell death) of 1321N1, Gos-3, U87-MG, Sk Mel, Corl-23 and Weri Rb-1 cancer cell lines compared to healthy L6 muscle cell line and untreated glioma cells. α, β momorcharin (800 μM) also evoked significant (P < 0.05) increases in caspase-3 and 9 activities and cytochrome c release. Similarly, α, β momorcharin elicited significant (P < 0.05) time-dependent elevation in [Ca²⁺]_i in all five glioma cell lines compared to untreated cells. Together, the results have demonstrated that α, β momorcharin can exert its anti-cancer effect on different cancer cell lines by intracellular processes involving an insult to the mitochondria resulting in cellular calcium over loading, apoptosis, cytochrome release and subsequently, cell death.     

Ionophore-stimulated lipoxygenase activity and histamine release in a cloned murine mast cell, MC9

A cloned murine mast cell line designated MC9 expresses a 5-lipoxygenase activity when stimulated with the ionophore A23187. Upon addition of 0.5 uM ionophore, MC9 cells produce 270 ± 43 pmoles 5-HETE, 74 ± 40 pmoles 5,12 di HETEs and 65 ± 31 pmoles LTC₄/10⁶ cells from 37 uM exogenously added [1-¹⁴C]arachidonic acid in two minutes. 5-HETE and 5,12-di HETES, including LTB₄ were identified by GC/MS whereas LTC₄ was confirmed by HPLC mobility, bio-assay, RIA and enzymatic transformation. The principal cyclooxygenase products were PGD₂ and TxB₂ (8.5 ± 2.4 and 5.4 ± 1.2 pmoles/10⁶ cells respectively). Prostanoids were identified by comigration with authentic standards on two-dimensional thin layer chromatograms. Production of arachidonic acid lipoxygenase metabolites stimulated with ionophore proved relatively insensitive to removal of extracellular Ca⁺² and chelation by EGTA. In addition, MC9 5-lipoxygenase required only low micromolar amounts of exogenous arachidonic acid for maximal activity. Whereas production of arachidonic acid metabolites lasted only two to five minutes, histamine release stimulated with ionophore was not initiated until 5 minutes (12 ± 3% cellular histamine) and continued for 30 minutes (37 ± 7% cellular histamine). Although these cells metabolize arachidonic acid differently from the classic peritoneal-derived mast cell, they resemble subpopulations found in certain tissues (such as mucosa) and should be useful in understanding the biochemistry of mast cell mediator release.     

Leukocytic functions in burn-injured patients

Anergy associated with an increase in suppressor helper T cell (T_c) ratio and a decrease in natural killer (NK) is one main cause of death following thermal injury (Tl). Recently, in vitro studies have shown that LTB₄ can induce human T_c to exert suppressor cell activity, and incubation of lymphocytes with LTB₄ for 24 hours significantly suppressed NK cell activity. Thus, we undertook an investigation of both AA metabolism and immunologic response in 20 patients who suffered 40–90% total body surface area (TBSA) burns. Cyclooxygenase (CO:RIA) and lipoxygenase (LO;HPLC det.) metabolites and superoxide (O₂^.−) production were measured in stimulated polymorphonuclear cells (PMNL) (A 23187 ± AA for icosanoid release; phorbol myristate acetate for O₂^.− production). Lyso-paf-acether (P-LPA) was measured in plasma samples. Ca²⁺-dependent K⁺ permeability in PMNL was measured by the cell K⁺ release induced by A 23187. T_c and T_c subsets were determined using monoclonal antibodies (OKT₃₊, OKT₄₊ and OKT₈₊). A biphasic sequential release of the different substances (leukocytic icosanoids and O₂^.− was monitored: increase ( 36–48 h after Tl) and decrease ( 72 h after Tl). The increase in AA stimulation was more transient than that of O₂^.−. The decline in the release of AA metabolites and O₂^.− production was associated with the anergic phase (decrease OKT₄₊/OKT₈₊ ratio) and with the clinical outcome of the patients. The decrease in LTB₄ and other LO metabolites could explain the impairment of neutrophil chemotaxis. Ca²⁺-dependent K⁺ permeability increased early up to 2 or 3 times normal.In order to go further with the mechanism of inhibition of LTB₄ and O₂^.− release, the effect of Tl plasma was assayed on normal leukocytes: a 10 min incubation with such plasma was sufficient to abolish LTB₄ secretion. A less important inhibition was observed with O₂^.− release (−32%) and Ca²⁺-dependent K⁺ permeability (−30%). Plasma inhibition seems to be due to a thermolabile factor(s) [protein(s): “suppressive factor(s) of membrane activation ”SFMA] which is (are) under active investigation using gel-filtration chromatography and fast protein liquid chromotography (FPLC). Among the SFMAs, certain acute phase proteins could play a key role: i.e., incubation (10 min) of normal PMNL with ceruloplasmin (1 mg/ml) abolished LO products and O₂^.− release.     

High-density culture of recombinant Chinese hamster ovary cells producing prothrombin in protein-free medium

A recombinant CHO cell line, CHO2DS, was immobilized on porous microcarrier Cytopore 1 and cultivated in 1 l modified Super-spinner and 2 l stirred tank bioreactor with the perfusion of a low-cost chemically defined protein-free medium DF6S. CHO2DS cells could enter into the inner space and grew both in the inner space and on the surface of Cytopore 1 in DF6S and produced prothrombin at 22 mg l^–1 after 10 days. From a seeding density of 5.7 × 10⁵ cells ml^–1, the highest viable cell density of CHO2DS was 1.12 × 10⁷ cells ml^–1.     

Determination of cell lysis and death kinetics in continuous hybridoma cultures from the measurement of lactate dehydrogenase release

The death of the hybridoma VO 208 in a continuous culture at pH 7 and 6.8 was investigated by measuring both the appearance of visible dead cells which do not exclude the trypan blue dye and the release of lactate dehydrogenase (LDH) in the culture medium. The intracellular LDH was found to be completely released either when live cells lysed or when they were transformed into visible dead cells. No significant lysis of blue dead cells could be observed at the two different pH. Using a LDH balance over the culture system, cell lysis was found negligible at pH 7, but accounted for 20% of the total cell death at pH 6.8. A methodology is proposed to evaluate the rate constants of hybridoma lysis and total death. For the investigated cell line in continuous culture, the calculated total cell death rate constant was found to increase from 0.002 h^–1 to 0.01 h^–1 when decreasing the pH from 7 to 6.8.Abbreviations D dilution rate (h^–1) - k_b specific trypan-blue dead cells appearance rate (h^–1) - k_L specific lysis rate of viable cells (h^–1) - k_d specific death rate (h-1) - LDH₀ lactate dehydrogenase activity in the feed culture medium (IU.l^–1) - LDH lactate dehydrogenase activity in the outlet culture medium (IU.l^–1) - LDH_i intracellular lactate dehydrogenase activity of viable cells (IU.10^–9 cells) - r_LDH total rate of LDH release (IU.h^–1.L^–1) - r_b transformation rate of viable cells into blue dead cells (10⁹ cells.h^–1.L^–1) - x_v viable cell concentration (10⁹ cells.l^–1) - x_b trypan-blue dead cell concentration (10⁹ cells.l^–1)     

Regeneration of acetylcholinesterase in clonal neuroblastoma-glioma hybrid NG108-15 cells after soman inhibition: effect of glycyl-l-glutamine

Acetylcholinesterase (AChE) in the clonal NG108-15 cell line has been previously characterized. This cell line represents an in vitro system to study AChE regulation and effects of chemical compounds that may alter AChE activity. Recently, glycyl-L-glutamine (GLG) was demonstrated to function as a neurotrophic factor for maintenance of AChE content in cat denervated superior cervical ganglion cells. In the present study, regeneration of AChE activity in cultures of undifferentiated NG108-15 cells after soman inhibition was investigated in the presence and absence of GLG. Cells were treated with soman (5.5 × 10^–6 M) for 15 min and then washed to remove excess soman. Culture medium containing either GLG (10^–6, 10^–5, or 10^–4M) or glycyl-L-glutamic acid (10^–6 M) was added to cultures after soman treatment and remained in the medium until cell harvest. Cells were physically detached at various times after soman treatment and specific AChE activity was determined. After soman, AChE activity dramatically decreased to less than 1% of untreated cellular activity at 1 hr. AChE activity gradully increased after 5 hr, while untreated cell AChE activity was regained 20 hr after soman. The t_1/2 for AChE regeneration was approximately 10 hr. GLG did not increase the rate of AChE regeneration after soman inhibition. These results indicate that GLG is not a directly acting neurotrophic factor for AChE synthesis in NG108-15 cells after chemical AChE inactivation.Abbreviations AChE acetylcholinesterase - NG108-15 cell neuroblastoma-glioma 108-15 cell - DMEM Dulbecco's modified Eagles minimal essential medium - FBS fetal bovine serum - GLGA glycyl-L-glutamic acid - L-GA L-glutamic acid - GLG glycyl-L-glutamine - GD soman The opinions or assertions contained herein are the private views of the authors and are not to be construed as reflecting the view of the Department of the Army or the Department of the Army or the Department of Defense.     

A low-cost chemically defined protein free medium for a recombinant CHO cell line producing prothrombin

A chemically defined protein free medium, DF6S, was developed for the cultivation of a recombinant Chinese hamster ovary cell line (CHO2DS) producing human prothrombin in suspension batch culture. DF6S was formulated by optimizing DME/F12 with amino acids and supplementing the optimized DME/F12 with aurintricarboxylic acid, ethanolamine, ferric sulfate, Pluronic F68, putrescine and sodium pyruvate. From a seeding density of 2.3 × 10⁵ cells ml^–1, CHO2DS cells grown in suspension in DF6S medium reached a maximal cell density of 1.92 × 10⁶ cells ml^–1 with an accumulated prothrombin concentration of 16.7 mg l^–1 after 6 days in culture.     

Transfer of Sensitivity to Tumor Promoters by Transfection of DNA from Sensitive into Insensitive Mouse JB6 Epidermal Cells

Sensitivity to promotion of transformation by tumor promoters in mouse epidermal JB6 cells appears to have a genetic basis since the phenotypes of both promotable and nonpromotable JB6 cells derived from a common parent line are stable. Hybridization of promotable (P⁺) and nonpromotable (P⁻) cells previously indicated that promotability appears to behave as a dominant trait. These results suggest that it should be possible to find DNA sequences which specify sensitivity to promotion of anchorage independence by 12-o-tetradecanoyl-phorbol-13-acetate (TPA). Cellular DNA isolated from one of two P⁺ lines, JB6 Cl 41 or JB6 Cl 22, was CaPO₄ precipitated and used to transfect the P⁻ cell line JB6 Cl 30. At 7 days posttransfection, the cells were suspended in agar with or without TPA at 1.6 × 10⁻⁸ M and assayed 10 days later for TPA-dependent colony formation. Untreated or Cl 30 DNA-treated P⁻ JB6 Cl 30 cells yielded 40 to 50 colonies per 10⁵ cells. In contrast, transfection of Cl 30 cells with “P⁺ DNA” derived from either Cl 41 or Cl 22 yielded 200 to 500 TPA-induced colonies per 10⁵ cells, or a five- to eightfold enhancement of promotability. The enhanced promotability obtained after transfection with P⁺ DNA was stable, as judged by the retention of promotability for at least eight passages in cell lines derived from TPA-induced agar colonies. Other transfectants showed irreversible transformation by TPA, as observed in the parental P⁺ lines. When NIH 3T3 cells instead of the putative preneoplastic JB6 Cl 30 cells were used as recipients for transfection of P⁺ DNA, no evidence for acquisition of promotability was obtained. P⁻ JB6 Cl 25, like Cl 30, also permitted expression of transfected P⁺ DNA. These results suggest that sensitivity to phorbol ester promotion of transformation in JB6 cells is determined by DNA sequence(s) present in the P⁺ DNA and requires recipient cells of the appropriate phenotype for expression.