Continuous culture of reuber hepatoma cells in serum-free,arginine-, glutamine-and tyrosine-deprived chemically defined medium

Summary The rat hepatoma cell line, H4-II-E, was grown serially over a I-year period and about 30 passages in arginine-, glutamine-, and tyrosine-deprived and ornithine-supplemented Eagle's mininum essential medium with no supplements other than biotin. The adapted cel line, R-Y121B, proliferates in the above mentioned medium with a doubling time of about 4 days and maintains hepatic “marker” enzymes such as tyrosine aminotransferase, phenylalanine hydroxylase, and all the enzymes of the urea cycle. This work was supported in part by Grant-in-Aid for Cancer Research 301050 and Science Research Grant 337013 from the Ministry of Education, Science and Culture, Japan.     

Studies on the regulation of the three enzymes of the leloir pathway in cultured mammalian cells. I. Effect of substitution of galactose for glucose as the sole hexose in the medium in human diploid cell strains and in a rat hepatoma line

In human diploid cell strains, the substitution of galactose for glucose as the sole hexose in the medium had no measurable effect on the specific activity of the cell protein for any of the three enzymes of the Leloir pathway. These enzymes are galactokinase, α-D-galactose-1-phosphate:UDP glucose uridylyl transferase and UDP galactose 4-epimerase. A cell strain from a patient with galactosemia had no detectable activity for the transferase. The substitution of galactose for glucose in the medium of these cells (which has been shown to cause the cells to accumulate galactose-1-phosphate) also failed to affect cellular activity for the three enzymes. Similarly, the three activities failed to respond to the substitution of galactose for glucose in cultures of a rat hepatoma line. Cells of this line have been shown by others to perform a number of the tissue-specific functions of liver. The failure of galactose to stimulate increased cellular activity for the three enzymes represents a striking difference between the behavior of these enzymes in human diploid cell strains and their behavior in E. coli.     

DOPAMINERGIC PROPERTIES OF A SOMATIC CELL HYBRID LINE OF MOUSE NEUROBLASTOMA X SYMPATHETIC GANGLION CELLS

Abstract— Studies were made on the regulation of dopamine metabolism in a cell line derived by hydridization of a non-tyrosine-hydroxylase-containing line of murine neuroblastoma cells with a neur-onally-enriched population of murine embryonic sympathetic ganglion cells. Hybrid subclones with tyrosine hydroxylase activity were selected by exposure to tyrosine-free medium. The cells also exhibited DOPA decarboxylase activity and the subclone (named T28) with the highest specific activities of both enzymes was further characterized. The hybrid T28 line did not contain dopamine-β-hydroxylase activity. The specific activity of tyrosine hydroxylase as well as of DOPA decarboxylase increased significantly in T28 cultures when the cells entered the stationary phase of growth. Both of these enzymes were also induced after several days of exposure to 1 m m -dibutyryl cyclic AMP in culture medium containing either 5% or 0.8% serum. However, maintenance in medium containing 0.8% serum alone, which inhibited cell multiplication, did not induce either enzyme. The dopamine content of T28 cells was also regulated as a function of cell density. High density (stationary phase) cultures of T28 cells contained about 300 pmol dopamine per mg protein and at least half of this endogenous amine appeared to he stored in vesicles or granules (as judged by depletion with reserpine or α-methyl- m -tyramine). The T28 and other neuronal hybrid lines appear to be useful model systems for neuro-chemical studies.     

曼陀罗培养细胞的硝酸还原酶突变株

经紫外诱变氯酸钾筛选,得到一个低硝酸还原酶(NADH:硝酸氧化还原酶.EC1.6.6.1.,以下简写为NR)活力的细胞株。其主要特征:NR活力低,约为正常型的1/5;对氯酸钾具有较强的抗性;不适合在单纯以硝酸盐为氮源的培养基上生长,能在以(NH_4)_2SO_4为唯一氮源的培养基上生长。蛋白电泳表明,此细胞株与正常型有不同的蛋白带。这些特征在没有选择压力的培养基上培养二年后,仍保持不变,说明此细胞株是一个遗传型的变异株。     

ESTABLISHMENT OF A CELL LINE FROM EMBRYONIC TISSUES OF THE FLESHFLY, SARCOPHAGA PEREGRINA (INSECTA: DIPTERA)

A continuous cell line was established from embryonic tissues of the fleshfly, Sarcophaga peregrine , and was designated as NIH-SaPe-4. The primary culture was initiated in October, 1977, and the cell line was passed 68 times during the following year. The cells were heterogeneous in morphology. Most cells were diploid and their chromosomes consisted of 4 metacentric, 6 sub-metacentric and 2 micro chromosomes. The population doubling time of the cell line was about 30 hr. The cells grew faster in Mitsuhashi-Maramorosch's medium than in Schneider's medium. The cells were either stored in the usual medium at 5°C for about 3 months, or in a medium containing 10% glycerol at –80°C for a longer period. Cell growth was suppressed by 20-hydroxy-ecdysone when at a greater concentration than 0.01 μg/ml, whereas insulin showed no effects on cell growth at a strength of 0.4 and 0.04 IU/ml.     

Variants of Myxococcus virescens Exhibiting Dispersed Growth. Growth and Production of Extracellular Enzymes and Slime

The growth of two strains of Myxococcus virescens exhibiting dispersed growth was followed in casamino acids (N III-C) media and casitone media. The changes in optical density, pH, pigmentation as well as the secretion of bacteriolytic and proteolytic enzymes, DNA and polysaccharides during growth were recorded. In both media the bacteria grew exponentially with a generation time of 4 (casitone) and 20 hours (N III-C) respectively. The maximal cell mass was about 4 times higher in casitone than in casamino acids media. The amounts of bacteriolytic enzymes produced by the two strains in N III-C medium were different but in casitone medium they were about equal and considerably higher. The maximal values of proteolytic enzymes were about the same in both media and always occurred later than the bacteriolytic maxima. Both activity peaks appeared before the phase of decline. The polysaccharide production reached a maximum during the stationary growth phase in both media. A higher value was reached during growth in casitone medium than in N III-C medium. During the phase of decline a second increase of polysaccharide in the medium appeared. No DNA could be detected in the cell-free solutions until the beginning of the phase of decline.     

Establishment and characterization of a new human germ cell tumor strain (NOC-Ts) in culture

We have derived and characterized a new cell line from a teratoma with a embryonal carcinoma and seminoma. The medium used for the cell culture was Eagle's MEM synthetic culture medium (Gibco Inc.) supplemented with 10% new calf serum (Tissue plus, Mitsubishi Kasei Co.). Subcultures were performed on 3 to 4 days basis at 1:2 split by the use of 0.25% trypsin solution. The morphology of obtained cells was a epithelial-like shape and the cell grew in a monolayered sheet with about 30-32 hrs of population doubling time. The model chromosome number of this cell line was 73 including one large submetacentric marker chromosome. The temperature sensitivity and the tumorigenicity of this cell were tested in this experiment.     

Heme-biosynthetic enzyme activities and porphyrin accumulation in normal liver and hepatoma cell lines of rat

The activities of four heme-biosynthetic enzymes, -aminolevulinic acid (ALA) synthase, ALA dehydratase, porphobilogen (PBG) dearninase, and ferrochelatase, were studied in five epithelial cell lines of normal rat liver origin (Re, REC-10, RLC-24, M, Culb-TC) and five cell lines derived from Yoshida ascites hepatoma (JTC-1, JTC-2, JTC-15, JTC-16, JTC-24). The JTC series of hepatoma-derived cell lines exhibited decreased ALA synthase activity and increased ALA dehydratase activity, although the activities of all four enzymes and the Km values for their respective substrates varied widely from one cell line to another, a finding suggesting that specific regulatory mechanisms for porphyrin metabolism might operate in each cell type. M cells, which were transformed by 4-dimethylaminoazobenzene in vitro, gave the most abnormal Km values of heme-biosynthetic enzymes among all the cell lines studies, and were found to accumu2ate hematoporphyrin derivative (HpD).Abbreviations ALA o-aminolevulinic acid - DAB 4-dimethyl aminoazobenzene - HpD hematoporphyrin derivative - 4NQO 4-nitroquinoline 1-oxide - PBG porphobilinogen     

Characterization and <Emphasis Type="Italic">in vitro</Emphasis> expression patterns of extracellular degradative enzymes from non-pathogenic binucleate <Emphasis Type="Italic">Rhizoctonia</Emphasis> AG-G

Many filamentous fungi produce an array of extracellular enzymes that acting in cell walls release elicitors of the plant defense response These enzymes may therefore be important in biocontrol applications. The aim of this study was to characterize extracellular degradative enzymes produced by a non-pathogenic binucleate isolate of Rhizoctonia AG-G. The fungus was grown in liquid culture supplemented with pectin, polygalacturonic acid or glucose as a carbon sources and filtrates of the culture media were analyzed for the detection of pectinolytic and glucan hydrolytic enzymes. Using only pectin as a carbon source, secretion of polygalacturonases and methylesterases was found. When the liquid medium was supplemented with polygalacturonic acid, only polygalacturonase activity was detected. However, when glucose was used as carbon source -1,3 and -1,6 glucanases activities were detected, using laminarin and pustulan as substrates, but none of the pectinolytic activities were found. These enzymes were partially purified and characterized. The -(1,3)(1,6) glucanase and polygalacturonase enzymes showed to be active against cell wall polysaccharides from potato sprouts. These enzymes may have an important role in fungus-plant cell wall interaction. This is the first study about the production of extracellular enzymes by non-pathogenic binucleate Rhizoctonia AG-G.     

Inhibition of DNA polymerase alpha from leukemic and normal human cells by partially thiolated human deoxyribonucleic acids

In continuing search for exploitable biochemical differences between cancer and normal cells at the level of DNA replication, leukemic and "normal" hematopoietic cells from four different, established human cell lines were grown in culture flasks, and both the DNA and the DNA polymerase alpha were isolated in each case from the harvested (5-10 g wet weight) cell pellets. The four selected cell lines included a "normal" lymphoblastoid B-cell line (RPMI-1788), a pre-B cell (NALM-6) and a T-cell (MOLT-4) acute lymphoblastic leukemias, and a promyelocytic leukemia (HL-60). The DNA polymerase alpha enzyme of the two B-cell lines (both the leukemic and the "normal") showed the usual sensitivity toward inhibition by aphidicolin, while those from the two other leukemic cell lines were remarkably resistant to the antibiotic. Partially thiolated polycytidylic acid (MPC) strongly inhibited only the DNA polymerase alpha of the "normal" cell line, whereas the corresponding enzymes of all three leukemic cell lines were relatively insensitive to MPC. In contrast, the partially thiolated DNAs derived from the leukemic cell lines more strongly inhibited the DNA polymerase alphas of the leukemic cell lines than that of the "normal" cell line. These results indicate the existence of some structural differences between the DNA polymerase alpha enzymes (as well as between the DNAs) of human cells of different lineage and, particularly, of leukemic vs. "normal" character; such differences could be exploited in the design of selective antitemplates for chemotherapy.     

Isolation and biochemical properties of two types of microbody from Neurospora crassa cells.

Cells of the Neurospora crassa slime mutant grown in sucrose medium exhibited low activities of glyoxysomal marker enzymes isocitrate lyase (ICL), malate synthetase (MS), and malate dehydrogenase. Transfer of the cells to a medium containing acetate as sole carbon source ("acetate medium") induced a strong increase in the activities of these enzymes in both the soluble and the crude particulate cell fraction. Soluble isocitrate lyase activity increased rapidly after a lag phase of about 45 minutes. Addition of 0.1 mM cycloheximide to the acetate medium 3 hours after transfer of the cells halted the rise of isocitrate lyase activity in either cell fraction, but the inhibition of the incorporation of ICL activity into the particulate cell fraction was delayed by 1 hour. Addition of 20 g/l glucose resulted in the immediate decrease of both soluble and particulate ICL activities. Transfer to acetate medium induced no change in the activities of other microbody marker enzymes such as catalase, uricase or D-amino acid oxidase. Resolution of crude homogenates of "slime" cells by sucrose density gradient centrifugation yielded two major protein bands: A mitochondrial band at a density of 1.180 kg/l showing maximum activites of fumarase, isocitrate dehydrogenase and cytochrome c oxidase, and a microbody-rich band which obviously consisted of two types of organelles with different biochemical properties. Maximum activities of ICL and MS sedimented at a density of 1.21 kg/l while the peaks of particulate uricase and catalase activities were recovered at 1.24 kg/l.     

Butyrate effects on normal and adapted hepatoma cells: morphological response and implications for vectoral cholesterol transport

The cell line 4IC6, adapted for growth in 6 mM sodium butyrate from Hepatoma Tissue Culture cells [R. Chalkley, and A. Shires (1985) J. Biol. Chem. 260, 7698-7704], exhibits a fourfold increase in histone acetate turnover. The 4IC6 cells were about 25 times more resistant to butyrate relative to the parental cell line as measured by cloning efficiency. This line also maintains a flatter and more extended morphology when growing in the presence of 6 mM sodium butyrate relative to the parental line. Both cell lines maintain similar intracellular butyrate levels and incorporate [1-14C]butyrate into lipids to similar extents when incubated in medium containing high levels of the fatty acid. These results show that 4IC6 cells have not attained butyrate resistance through acquiring the ability to metabolize butyrate more efficiently or in a significantly different manner when compared with the parental cell line. The membrane lipid composition was nearly identical between the two cell types. Thus the different morphologies exhibited by each cell line were not a consequence of altered membrane lipid composition. The resistant line, 4IC6, maintains about 10-fold higher cholesterol ester levels and half the level of triglycerides found in the parental line. The butyrate-resistant cells also synthesize cholesterol at about a 1.8-fold higher rate than do the parental cells. This difference in de novo synthesis is reflected by a difference of a similar factor in the amount of radioactive cholesterol the two cell lines accumulate over 12 generations. These results are discussed with respect to models for equilibration of serum lipoprotein-derived and newly synthesized cholesterol.     

Presence and comparison of angiotensin converting enzyme in commercial cell culture sera

This study was conducted to determine the presence of the angiotensin converting enzyme in commercial sera used in cell culture medium. The aim of the research was to bring the presence of proteinases (angiotensin converting enzyme) to cell culture users' knowledge and to give some data for solving problems about the development of peptides as useful drugs. The enzymes, purified from foetal bovine, adult bovine, foetal equine, adult equine, and human sera, showed molecular weights of about 170 kDa. Captopril and lisinopril inhibited enzyme activities at nanomolar concentrations. The enzymes were able to hydrolyze, with different efficiency, angiotensin I, bradykinin and epidermal mitosis inhibiting pentapeptide. The heat inactivation of commercial sera at 56 degrees C for 30 min showed a reduction of ACE activity of about 35-80%. Therefore, the presence of ACE activity in commercial sera can influence the activity of biological peptides tested on cell lines cultured "in vitro."     

Fusion of Tumour Cells with Host Cells

THE A9 cell is an 8-azaguanine-resistant derivative of the L cell line¹. It lacks the enzyme inosinic acid pyrophosphorylase and is thus unable to grow in media such as HAT² in which endogenous synthesis of nucleic acid is blocked by aminopterin. The A9 line has little ability to grow progressively in vivo. Inocula of 5 × 10⁴ to 2 × 10⁶ cells produced progressive tumours in only 12% of X-irradiated newborn syngeneic C3H mice³. One of these tumours was explanted as a cell suspension into Eagle's minimal essential medium containing 15% foetal calf serum and then subcultivated in this medium with 5% foetal calf serum. At each passage, cells were inoculated into X-irradiated newborn syngeneic C3H or semi-allogeneic C3H×X F₁ mice (X designates a number of different allogeneic parents). Between 80 and 90% of the inoculated animals developed progressive tumours. The cell line was therefore designated A9HT (high take incidence). The karyotype of the A9HT line was found to be similar to that of the A9 line, but with a slightly reduced total chromosome number. The modal chromosome number of A9HT was about 53, compared with about 57 for A9 (see ref. 4). A9 and A9HT both had between 20 and 30 bi-armed chromosomes and a number of marker chromosomes in common. A detailed comparison of the karyotypes of the two lines examined by the quinacrine fluorescence technique has been made⁵. The A9HT line, like its A9 parent, lacks inosinic acid pyrophos-phorylase and is unable to grow in HAT medium.     

Knockdown of both mitochondrial isocitrate dehydrogenase enzymes in pancreatic beta cells inhibits insulin secretion

Background

There are three isocitrate dehydrogenases (IDHs) in the pancreatic insulin cell; IDH1 (cytosolic) and IDH2 (mitochondrial) use NADP(H). IDH3 is mitochondrial, uses NAD(H) and was believed to be the IDH that supports the citric acid cycle.

Methods

With shRNAs targeting mRNAs for these enzymes we generated cell lines from INS-1 832/13 cells with severe (80%–90%) knockdown of the mitochondrial IDHs separately and together in the same cell line.

Results

With knockdown of both mitochondrial IDH's mRNA, enzyme activity and protein level, (but not with knockdown of only one mitochondrial IDH) glucose- and BCH (an allosteric activator of glutamate dehydrogenase)-plus-glutamine-stimulated insulin release were inhibited. Cellular levels of citrate, α-ketoglutarate, malate and ATP were altered in patterns consistent with blockage at the mitochondrial IDH reactions. We were able to generate only 50% knockdown of Idh1 mRNA in multiple cell lines (without inhibition of insulin release) possibly because greater knockdown of IDH1 was not compatible with cell line survival.

Conclusions

The mitochondrial IDHs are redundant for insulin secretion. When both enzymes are severely knocked down, their low activities (possibly assisted by transport of IDH products and other metabolic intermediates from the cytosol into mitochondria) are sufficient for cell growth, but inadequate for insulin secretion when the requirement for intermediates is certainly more rapid. The results also indicate that IDH2 can support the citric acid cycle.

General significance

As almost all mammalian cells possess substantial amounts of all three IDH enzymes, the biological principles suggested by these results are probably extrapolatable to many tissues.     

Mycolytic effect of extracellular enzymes of antagonistic microbes to Colletotrichum falcatum,red rot pathogen of sugarcane

Strains of selected bacteria and Trichoderma harzianum isolated from sugarcane rhizosphere and endosphere regions were tested for the production of chitinolytic enzymes and their involvement in the suppression of Colletotrichum falcatum, red rot pathogen of sugarcane. Among several strains tested for chitinolytic activity, 12 strains showed a clearing zone on chitin-amended agar medium. Among these, bacterial strains AFG2, AFG 4, AFG 10, FP7 and VPT4 and all the tested T. harzianum strains produced clearing zones of a size larger than 10 mm. The antifungal activity of these strains increased when chitin was incorporated into the medium. Trichoderma harzianum strain T5 showed increased levels of activity of N-acetylglucosaminidase and -1,3-glucanase when grown on minimal medium containing chitin or cell wall of the pathogen. Lytic enzymes of bacterial strains AFG2, AFG4, VPT4 and FP7 and T. harzianum T5 inhibited conidial germination and mycelial growth of the pathogen. Enzymes from T. harzianum T5 were found to be the most effective in inhibiting the fungus. When mycelial discs of the pathogen were treated with the enzymes, electrolytes were released from fungal mycelia. The results indicated that antagonistic T. harzianum T5 caused a higher level of lysis of the pathogen mycelium, and the inhibitory effect was more pronounced when the lytic enzymes were produced using chitin or cell wall of the pathogen as carbon source.     

Bioprocess optimization for pectinase production using <Emphasis Type="Italic">Aspergillus niger</Emphasis> in a submerged cultivation system

Background

Pectinase enzymes present a high priced category of microbial enzymes with many potential applications in various food and oil industries and an estimated market share of $ 41.4 billion by 2020.

Results

The production medium was first optimized using a statistical optimization approach to increase pectinase production. A maximal enzyme concentration of 76.35 U/mL (a 2.8-fold increase compared with the initial medium) was produced in a medium composed of (g/L): pectin, 32.22; (NH₄)₂SO₄, 4.33; K₂HPO₄, 1.36; MgSO₄.5H₂O, 0.05; KCl, 0.05; and FeSO₄.5H₂O, 0.10. The cultivations were then carried out in a 16-L stirred tank bioreactor in both batch and fed-batch modes to improve enzyme production, which is an important step for bioprocess industrialization. Controlling the pH at 5.5 during cultivation yielded a pectinase production of 109.63 U/mL, which was about 10% higher than the uncontrolled pH culture. Furthermore, fed-batch cultivation using sucrose as a feeding substrate with a rate of 2 g/L/h increased the enzyme production up to 450 U/mL after 126 h.

Conclusions

Statistical medium optimization improved volumetric pectinase productivity by about 2.8 folds. Scaling-up the production process in 16-L semi-industrial stirred tank bioreactor under controlled pH further enhanced pectinase production by about 4-folds. Finally, bioreactor fed-batch cultivation using constant carbon source feeding increased maximal volumetric enzyme production by about 16.5-folds from the initial starting conditions.

     

Induction of cell division and antioxidative enzyme activity of Matricaria chamomilla L. cell line under clino-rotation

This study represents an optimized protocol for cell line culture of Matricaria chamomilla and the impact of clino-rotation on cell division, cell growth, and antioxidant enzyme activities for the first time. The cell suspension was transferred in the solid MS medium supplied with 2, 4-D, and KIN. Then the calli produced from a cell line were selected for callus subculture and clino-rotation treatment for 7 days by a 2D-clinostat. A significant rise of fresh and dry weights, cell division, total soluble sugar, reducing sugar, and starch contents were detected under clino-rotation. Protein content approximately unchanged in microgravity-treated calli. Antioxidant enzymes activities, such as peroxidase, catalase (CAT), and superoxide dismutase were elevated in calli exposed to microgravity. CAT activity showed a more than three-fold increase than that of control. According to native polyacrylamide gel electrophoresis, all the antioxidant enzymes isoforms were stronger in clino-rotated calli than that of the untreated control. Microgravity also stimulated H₂O₂ production and markedly adjusted lipid peroxidation in calli exposed to clino-rotation. These findings suggest that clino-rotation with stimulation of carbohydrate accumulation and antioxidant enzymes mitigates oxidative stress and improves growth and cell division.

     

Structure of the amplified 5-enolpyruvylshikimate-3-phosphate synthase gene in glyphosate-resistant carrot cells

The structure of amplified 5-enolpyruvylshikimate-3-phosphate synthase (EPSPS) DNA of carrot suspension-cultured cell lines selected for glyphosate resistance was analyzed to determine the mechanism of gene amplification in this plant system. Southern hybridization of the amplified DNA digested with several restriction enzymes probed with a petunia EPSPS cDNA clone showed that there were differences in fragment sizes in the amplified DNA from one highly resistant cell line in comparison with the parental line. Cloning of the EPSPS gene and 5 flanking sequences was carried out and two different DNA structures were revealed. A 13 kb clone contained only one copy of the EPSPS gene while a 16 kb clone contained an inverted duplication of the gene. Southern blot analysis with a carrot DNA probe showed that only the uninverted repeated DNA structure was present in all of the cell lines during the selection process and the inverted repeat (IR) was present only in highly amplified DNA. The two structures were present in about equal amounts in the highly amplified line, TC 35G, where the EPSPS gene was amplified about 25-fold. The presence of the inverted repeat (IR) was further verified by resistance to S1 nuclease hydrolysis after denaturation and rapid renaturation, showing foldback DNA with the IR length being 9.5 kb. The junction was also sequenced. Mapping of the clones showed that the size of the amplified carrot EPSPS gene itself is about 3.5 kb. This is the first report of an IR in amplified DNA of a target enzyme gene in selected plant cells.