Temporal relationships between DNA metabolism and the growth-inhibitory response produced by dexamethasone in rat glioma cell cultures

Summary The temporal relationships between aspects of DNA metabolism and the suppression of cell proliferation were investigated in rat glioma (strain C6) monolayer cultures exposed to 10μM dexamethasone. Cell densities (cell number per cm²), rates of DNA synthesis (dpm of [³H]thymidine incorporated per μg DNA per min), and cellular DNA (μg DNA per cm²) were measured daily in control and dexamethasone-treated cultures over a 3-day period. The percentage of cells in metaphase and the proportion of metaphases containing >2n(42) chromosomes also were determined in control and treated cultures. When log-phase C6 cultures were exposed to dexamethasone (day 0), cell densities were not significantly different from controls by day 1. Cell proliferation ceased thereafter in dexamethasone-treated cultures, whereas control cell populations continued to proliferate at log-phaserates. In contrast, cellular DNA increased exponentially in control and treated cultures over the 3-day period. On days 0 and 1, control and treated cells each contained 6 pg DNA. By day 3, the DNA content per treated cell increased to >20 pg; control cells each contained 10 pg DNA. The rates of DNA synthesis in the treated cultures did not differ significantly from controls on days 1 and 2. However, the rate in the treated cultures decreased significantly on day 3, one day after cell proliferation ceased. On day 2, the percentage of cells found in metaphase in the treated cultures was 0.32% compared to 0.64% in control cultures. By day 3, these percentages decreased to 0.20% and 0.22%, respectively. However, the proportion of metaphases containing >42 chromosomes increased 1.5-fold in the treated cultures relative to controls. These results indicate that nonproliferating dexamethasone-treated cells contain elevated amounts of DNA. Thus dexamethasone action appears to arrest the cell cycle at any point between the completion of DNA replication and mitosis. A preliminary report of this work was presented on June 8, 1977, at the 28th Annual Meeting of the Tissue Culture Association in New Orleans, Louisiana. This investigation was supported in part by grants from Merck Sharp & Dohme Research Laboratories, West Point, Pa., the American Cancer Society (IN-113), and NIH (AM 18719).     

Metabolism of [1-13C] glucose in extracts and in immobilized rat glioma C6 cell cultures: effects of hypoxia

The metabolism of [1-13C] glucose was followed in C6 rat glioma cells immobilized on a gel thread and in perchloric extracts of the same cells in culture. The results showed that the main metabolite of [1-13C] glucose is [3-13C] lactate. The effects of hypoxia were followed in the perchloric acid extracts of C6 cells. In normoxic conditions, the main metabolites produced by the cells were [3-'3C] lactate, [3-13C] alanine, [2-13C], [3-13C] and [4-13C] glutamate. Lactate newly synthesized from glucose appeared to be exported in the perfusion medium when living cells were immobilized in gel threads made of extracellular matrix. After 5 h of hypoxia, the lactate labelling measured in PCA cell extracts was increased that of glutamate decreased and the appearance of a spectral line at 66.01 ppm, identified as [1-13C] glycerol-3-phosphate, was observed. The data suggest that the synthesis of glycerol-3-phosphate in these cells might represent a sign of hypoxia.     

Ammonia removal using hepatoma cells in mammalian cell cultures

It was examined whether hepatocyte cell lines can be used for ammonia removal in mammalian cell cultures. It was found that there exists a critical ammonium concentration level for each hepatocyte cell to remove ammonia. Among the cells tested in this work, primary hepatocytes showed the strongest ammonia removal capability if ammonium concentration is higher than the critical level. However, primary hepatocytes lost the liver function gradually and finally died after 2-3 weeks. Because of this limitation, primary hepatocytes were not appropriate to be used for ammonia removal in long-term cultures. Hep G2 cells, which are immortal, also showed a strong ammonia removal activity. The ammonia removal activity of Hep G2 cells depended on the concentration of ammonium in the medium, as in the case of primary hepatocytes. However, urea could not be detected in the course of ammonia removal by Hep G2 cells. Instead of urea, Hep G2 cells secreted glutamine into the culture medium. The capacity for ammonia removal was higher in the absence than in the presence of glutamine. Thus we checked the activity of glutamine synthetase in the Hep G2 cells. The level of glutamine synthetase activity increased with the addition of ammonium chloride. This result accounts for the ammonium concentration dependency of Hep G2 cells in ammonia removal and glutamine synthesis. Furthermore Hep G2 cells could grow well in the absence of glutamine, which was necessarily required in mammalian cell cultures. These results prove that glutamine formation serves as the primary mechanism of detoxifying ammonia in hepatocyte cell lines as expected. In addition, it was demonstrated that ammonium level could be reduced 38% and that erythropoietin production increased 2-fold in the mixed culture of Hep G2 and recombinant CHO cells.     

Biosynthesis of abnormally glycosylated hepatoma secretory proteins in cell cultures

We studied, by electrophoretic techniques, the physiochemical properties of 4 glycoproteins, alpha 1-antitrypsin, alpha 1-antichymotrypsin, alpha 1-acid glycoprotein and transferrin synthesized by three different human hepatoma cell lines. A common feature was the export of glycoproteins with retarded electrophoretic mobility, indicating incomplete sialylation, and a predominance of atypical, highly branched carbohydrate chains. The abnormal glycosylation pattern may be specific for malignant transformation of hepatocytes and possibly related to the intracellular accumulation of some of these proteins in malignant cells.     

Intermittent hypoxia exacerbates metabolic effects of diet-induced obesity

Obesity causes insulin resistance (IR) and nonalcoholic fatty liver disease (NAFLD), but the relative contribution of sleep apnea is debatable. The main aim of this study is to evaluate the effects of chronic intermittent hypoxia (CIH), a hallmark of sleep apnea, on IR and NAFLD in lean mice and mice with diet-induced obesity (DIO). Mice (C57BL/6J), 6-8 weeks of age were fed a high fat (n = 18) or regular (n = 16) diet for 12 weeks and then exposed to CIH or control conditions (room air) for 4 weeks. At the end of the exposure, fasting (5 h) blood glucose, insulin, homeostasis model assessment (HOMA) index, liver enzymes, and intraperitoneal glucose tolerance test (1 g/kg) were measured. In DIO mice, body weight remained stable during CIH and did not differ from control conditions. Lean mice under CIH were significantly lighter than control mice by day 28 (P = 0.002). Compared to lean mice, DIO mice had higher fasting levels of blood glucose, plasma insulin, the HOMA index, and had glucose intolerance and hepatic steatosis at baseline. In lean mice, CIH slightly increased HOMA index (from 1.79 ± 0.13 in control to 2.41 ± 0.26 in CIH; P = 0.05), whereas glucose tolerance was not affected. In contrast, in DIO mice, CIH doubled HOMA index (from 10.1 ± 2.1 in control to 22.5 ± 3.6 in CIH; P < 0.01), and induced severe glucose intolerance. In DIO mice, CIH induced NAFLD, inflammation, and oxidative stress, which was not observed in lean mice. In conclusion, CIH exacerbates IR and induces steatohepatitis in DIO mice, suggesting that CIH may account for metabolic dysfunction in obesity.     

Characterization of HCV-like particles produced in a human hepatoma cell line by a recombinant baculovirus

Although processing of the hepatitis C virus (HCV) polyprotein and characterization of each of its viral proteins have been described in detail, analysis of the structure and assembly of HCV particles has been hampered by the lack of a robust cell culture system to support efficient replication of HCV. In this study, we generated HCV-like particles (HCV-LP) using a recombinant baculovirus encoding structural and a part of non-structural proteins in a human hepatoma cell line. The HCV-LP exhibited a buoyant density of 1.17 g/ml in CsCl equilibrium gradient and particles of 40 to 50 nm in diameter. Binding of the HCV-LP to human hepatoma cells was partially inhibited by the treatment with anti-hCD81 antibody, in contrast to the hCD81-independent binding of HCV-LP produced in insect cells. These results indicate that HCV-LP generated in different types of cells exhibit different cellular tropism for binding to target cells.     

Characteristics and aldehyde dehydrogenase activity of four rat hepatoma cell lines produced by diethylnitrosamine-phenobarbital treatment

Summary Recent studies in our laboratory have shown that five established rat hepatoma cell lines provide a wide spectrum of tumor-associated aldehyde dehydrogenase (ALDH) activity representative of the range of activities of this enzyme seen in primary rat hepatocellular carcinomas. Four newly established rat hepatoma cell lines, RLT-2M, RLT-3C, RLT-9F, and RLT-5G, were derived from a primary hepatocellular carcinoma. The primary tumor was induced by a single injection of diethylnitrosamine (15 μM/g body weight) to a 1-d-old female S-D rat followed at weaning by chronic phenobarbital treatment. RLT-2M was established from outgrowths of minced tumor pieces. RLT-3C, RLT-9F, and RLT-5G were cloned from RLT-2M by the serial endpoint dilution. All four lines have been maintained in culture for over 100 passages. The ALDH phenotype in both the primary tumor and the four new cell lines was determined by total activity assay, gel electrophoresis, and histochemistry. By total activity assay, the primary tumor did not possess significant tumor-ALDH activity. In contrast, the four new cell lines expressed tumor-ALDH activity. However, they differed in their basal ALDH activities and in ALDH inducibility by 3-methycholanthrene, benzo(a)pyrene, and phenobarbital. Additionally, significant decreases in tumor-ALDH activity occurred when cells from each line were passaged in vivo. The four lines have been characterized by light and electron microscopic morphology, tumorigenicity, chromosome number, doubling time, and colony formation efficiency, in soft agar. This work was submitted by K.-H. L. in partial fulfillment of the requirements for the Doctor of Philosophy degree in The Graduate School of The University of Alabama. This work was supported by grant CA-21103 from the National Cancer Institute, Bethesda, MD.     

Examination of triterpenoids produced by callus and cell suspension cultures of Glycyrrhiza glabra

Callus and cell suspension cultures of Glycyrrhiza glabra failed to produce detectable amounts of glycyrrhizin, the major oleanane-type triterpene glycoside of the thickening root, or of its 11 —deoxoderivative. However, betulinic acid, a lupane-type triterpene, which was found in the root bark, and a small amount of -amyrin, a possible precursor of oleanane-type triterpenes, were detected in cell suspension cultures in addition to lupeol, a fundamental form of lupane-type triterpenes. These findings suggest that the absence of glycyrrhizin in undifferentiated cultured cells may be partly due to interruption of the later reactions leading to the synthesis of glycyrrhizin from a triterpenoid intermediate.     

Detection and identification ofPodophyllotoxin produced by cell cultures derived from podophyllum hexandrum royle

The phenylpropanoid derived lignan podophyllotoxin, occurring inPodophyllum species, is used as a starting compound for the chemical synthesis of the antitumour agents etoposide (VP-16-213) and teniposide (VM-26). At present, the availability of this lignan becomes increasingly limited. As an alternative source, cell cultures originating fromPodophyllum hexandrum Royle were initiated. Analysis of the cell extracts using different HPLC systems as well as TLC, indicated the presence of podophyllotoxin. After prepurification of the extracts by means of ITLC, the identity was confirmed by mass spectrometric analysis. Dark-grown cultures accumulated considerable higher amounts of podophyllotoxin in comparison with the light-grown cultures.     

Muscle metabolic modulation by chronic hypoxia

De Palma et al. published a research paper in which they describe the effect of chronic hypoxia on rat skeletal muscle metabolism by means of a comparative proteomic analysis (J. Proteome Res. 2007, 6(5), 1974-1984). For this, relatively young animals were used. In our communication, we note that, based on other literature, it is likely that the adaptive response of skeletal muscle to hypoxia attenuates with age.     

Towards dynamic metabolic flux analysis in CHO cell cultures

Chinese hamster ovary (CHO) cells are the most widely used mammalian cell line for biopharmaceutical production, with a total global market approaching $100 billion per year. In the pharmaceutical industry CHO cells are grown in fed-batch culture, where cellular metabolism is characterized by high glucose and glutamine uptake rates combined with high rates of ammonium and lactate secretion. The metabolism of CHO cells changes dramatically during a fed-batch culture as the cells adapt to a changing environment and transition from exponential growth phase to stationary phase. Thus far, it has been challenging to study metabolic flux dynamics in CHO cell cultures using conventional metabolic flux analysis techniques that were developed for systems at metabolic steady state. In this paper we review progress on flux analysis in CHO cells and techniques for dynamic metabolic flux analysis. Application of these new tools may allow identification of intracellular metabolic bottlenecks at specific stages in CHO cell cultures and eventually lead to novel strategies for improving CHO cell metabolism and optimizing biopharmaceutical process performance.     

Polypeptides of hepatitis B virus surface antigen produced by a hepatoma cell line.

The PLC/PRF/5 cell line derived from a human hepatoma produces hepatitis B surface antigen (HBsAg) in 22-nm particles of the same buoyant density as those found in the serum of infected patients. The HBsAg particles from this cell line were labeled with [35S]methionine and purified, and the polypeptides were compared by sodium dodecyl sulfate-polyacrylamide gel electrophoresis with those of serum-derived particles. The two major polypeptides of serum-derived HBsAg particles (p20 and p23) were found in the same relative amounts in the particles from the cell line. The three smallest of the five minor components observed in HBsAg particles from serum were present in particles from the cell line. These polypeptides (p31, p36, and p43), as well as p20 and p23, were precipitated with anti-HBs-containing serum. The two largest polypeptides of serum particles (p49 and p66) were not detected in particles from these cells. When the PLC/PRF/5 HBsAg particles were radiolabeled with tritiated sugars, p23, and not p20, was found to contain radioactivity, indicating that the pattern of polypeptide glycosylation is similar to that of serum HBsAg. None of the other possible gene products of hepatitis B virus was detected in the PLC/PRF/5-derived HBsAg particles, in the cells, or in the cell supernatants.     

Comparative metabolic effects of fructose and glucose in human fibroblast cultures

Summary The comparative metabolic effects of fructose and glucose were determined in human fibroblast cultures. Cells were grown in four different media containing 5.5 and 27.5 mM of glucose and fructose, respectively. For these two hexoses, we compared their uptake, consumption, and conversion into¹⁴CO₂ and¹⁴C-lipids. D-Fructose was taken up in fibroblasts by an unsaturable process and its consumption was much smaller than that ofD-glucose. Whatever the experimental procedure, the glycogen content of cells grown in fructose media was significantly lower than of those grown in glucose media. Labeling of fructose and glucose with¹⁴C showed that more carbon from fructose than from glucose was incorporated into CO₂ and glycerolipids. The relative distribution of¹⁴C in the different lipid fractions was similar for both hexoses. These results indicated that the pathways of intermediary metabolism in fibroblast cultures were influenced by the nature of the carbohydrate present in the culture medium and that fructose was a better lipogenic substrate than glucose in human fibroblast cultures. This work was supported by grants for the Institut National de la Santé et de la Recherche Medicale (ATP 82-79-114).