Proanthocyanidins and potential precursors in needles of douglas fir and in cell suspension cultures derived from seedling shoot tissues

Proanthocyanidins and their potential precursors have been analyzed by paper chromatography and C₁₈ reversed phase columns with high performance liquid chromatography. Total proanthocyanidins on a dry weight basis in cell suspension cultures derived from seedlings of Douglas fir (Pseudotsuga menziesii) were equal to or greater than those found in mature needles of randomly selected outdoor-grown trees. The major monomer and dimer were catechin and epicatechin-catechin, respectively. Although only procyanidins were detectable in cell suspension cultures, mature needles of outdoor-grown trees contained prodelphinidins as well. Immature needles (flush growth) of the same trees contained only trace amounts of prodelphinidins. Eriodictyol-7-glucoside and dihydroquercetin-3′-glucoside were present in all tissues examined. The amount of eriodictyol-7-glucoside was strongly correlated with total proanthocyanidins in immature needles of flush growth (r = 0.89, p = 0.001). The most complex pattern of flavonoids was found in flush growth needles, which contained in addition to the above, naringenin-7-glucoside and five to six flavone glycosides. Chlorogenic acid was detected only in seedlings and in flush growth needles.     

Actin content and organization in normal and transformed cells in culture

The amount of actin and total protein per cell in normal rat kidney (NRK) cells in culture is initially high in very low density cultures, but rapidly decreases as the cells come into contact in higher density cultures. In a viral transformant of NRK (442), the level of actin and total protein does not change significantly from low to high density cultures. NRK cells, which are flattened against the substrate, have prominent bundles of actinlike microfilaments in the basal cytoplasm adjacent to the substrate. 442 cells, which adhere poorly and are more spherical in shape, lack well-organized basal microfilament bundles, but may display microfilament bundles in cytoplasmic processes extending from the cell body. The percentage of insoluble actin is less than 20% in both cell lines, and 442 cells consistently contain smaller amounts than NRK cells.     

Callus induction,organogenesis and somatic embryogenesis in three chromosomal races of Urginea indica and production of bufadienolides

Three chromosomal races of Indian squill, Urginea indica Kunth., were screened for their ability to produce bufadienolide in tissue cultures. The protocols for callus induction, organogenesis and somatic embryogenesis differed in the three races with respect to vitamin requirements and growth regulator additions. Bufadienolide contents were determined by HPLC. Undifferentiated calli and cell suspension cultures did not produce the bufadienolides. Shoot differentiating cultures contained only trace amounts of proscillaridin A while embryogenic cultures and developing embryoids did not contain bufadienolides. All regenerated bulbs (derived from diploid, triploid and tetraploid parents through organogenesis and/or somatic embryogenesis) were found to contain both proscillaridin A and scillaren A, the bufadienolide characteristic of the parent plant.     

Occurrence of polygodial in plant organs and tissue culture of Polygonum hydropiper

Shoots of Polygonum hydropiper L. (waterpepper), especially in the leaves and flower-heads, contain significant amounts of the sesquiterpenoid polygodial, a compound with a potential use as a natural pesticide. The polygodial content of the tepals is particularly high: up to 8.5% of the dry weight. Roots and seeds do not contain detectable amounts of polygodial. Polygodial containing organs e.g. leaves and tepals, were found to contain cavities. Fourier transform infra-red (FTIR) microspectroscopy demonstrated that polygodial or its congeners are found in these cavities but not in other tissues or cells. Comparable cavities containing polygodial-like compounds were absent in the closely related species Polygonum persicaria L.
Callus cultures and cell suspensions as well as root- and shoot cultures were initiated from mature P. hydropiper plants. Polygodial could be detected only in shoot cultures. Our results indicate that functioning plastids may be essential for polygodial production and cavities for its accumulation.     

MORPHOLOGY AND ULTRASTRUCTURE OF EMBRYOGENIC CELL SUSPENSION CULTURES OF PANICUM MAXIMUM (GUINEA GRASS) AND PENNISETUM PURPUREUM (NAPIER GRASS)

Morphological and ultrastructural changes during the growth of embryogenic cell suspension cultures of Panicum maximum and Pennisetum purpureum have been studied. The suspensions consist almost entirely of cell aggregates of 50–75 embryogenic cells. The cell aggregates vary in size from 90–400 μm in P. maximum and from 70–340 μm in P. purpureum. Following the period of exponential growth starch grains gradually disappear and vacuolation increases. Ten to 16 days after subculture, P. maximum cells enlarge and separate from each other, and organized embryo-like structures appear. Ultrastructural studies show that the cell aggregates are made up of discrete, individual groups of 2–6 cells each. Each cell group appears to arise from a single cell and breaks away from the ‘mother group’ as cell divisions continue. The embryogenic cells are small (20 μm), isodiametric with many starch grains and contain a large nucleus with a prominent nucleolus. Extensive profiles of endoplasmic reticulum, many small peripheral vacuoles, and several amyloplasts are present. Plasmodesmatal connections exist only between cells within a cell group but not between cells of different cell groups in the large cell aggregates.     

Procyanidins (Condensed Tannins) in Green Cell Suspension Cultures of Douglas Fir Compared with Those in Strawberry and Avocado Leaves by Means of C(18)-Reversed-phase Chromatography

The procyanidins (the most common type of proanthocyanidin or condensed tannin) from cell suspension cultures derived from cotyledons of Douglas Fir have been compared with those isolated from leaves of strawberry and avocado. Seventy per cent methanol (v/v) extracts from 100 milligrams fresh weight samples were analyzed by a combination of C₁₈-reversed-phase columns with high-performance liquid chromatography, and normal phase paper chromatography. (−)-Epicatechin and its oligomers were generally retarded longer on C₁₈ columns than the corresponding units made of (+)-catechin when eluted with solvents made up of 5% acetic acid alone or mixed with methanol up to 15% (v/v). Douglas fir preparations contained the most complex set of procyanidins and consisted of oligomers of catechin and epicatechin, whereas strawberry and avocado contained mainly (+)-catechin and (−)-epicatechin derivatives, respectively.     

Effect of ascorbate on collagen synthesis by lung embryonic fibroblasts

Summary Total insoluble collagen and hydroxyproline formation were examined in lung embryonic fibroblasts (IMR-90) grown in the presence or absence of added ascorbate. As expected, when the cells from both groups (+ and −ascorbate) are pulsed with [¹⁴C]proline in the presence of ascorbate, the percent hydroxylation in a 24-hr period does not vary significantly. However, there are dramatic differences in the quantity and quality of the insoluble collagen fraction produced by those cells grown for a long period of time with added ascorbate. Those cells deprived of continuous addition of ascorbate to the culture medium do not display large quantities of accumulated collagen in the cell layer fractions as measured by the hydroxyproline content, whereas the cells grown in the presence of ascorbate contain significant amounts of accumulated collagen. A new method for examining the extracellular insoluble collagen produced in cell cultures is described in these studies. With the aid of pancreatic elastase relatively pure insoluble collagen can be obtained from cells grown in culture. In those cells grown in the presence of ascorbate, the purified insoluble collagen yeilds appropriately banded fibrils when examined in the electron microscope and has an amino-acid composition that is compatible with pure collagen. On the other hand, those cells grown in the absence of ascorbate do not yield purified insoluble collagen as determined by these same criteria. The elastase procedure for the purification of insoluble collagen in cell cultures is simple, easy to use and allows one to assess additional aspects of collagen biosynthesis.     

Biochemical criteria for the in vitro differentiation of embryoid bodies produced by a transplantable teratoma of mice. The production of acetylcholine esterase and creatine phosphokinase by teratoma cells

When embryoid bodies are grown in suspension culture in vitro, they undergo only a limited amount of morphological development. When these same embryoid bodies are permitted to attach to the surface of a culture dish, a wide variety of new morphological cell types appear. Suspension cultures of embryoid bodies do not contain significant detectable levels of acetylcholine esterase or creatine phosphokinase. These same enzymes however are produced in cell cultures derived from embryoid bodies attached to the culture dish surface. Polyacrylamide gel electrophoresis has been employed to demonstrate that the electrophoretic form of creatine phosphokinase produced by teratoma cells in culture is the brain form of the enzyme. Solid transplantable tumors containing only embryonal carcinoma cells (stem cells) do not contain either of these enzymatic activities. Well differentiated transplantable teratomas contain both enzymes.     

Fatty acid composition of lipids from differentiated tissues and cell cultures of Euonymus europaeus

The fatty acid patterns of Euonymus europaeus callus cultures and cell suspension cultures were analysed at the beginning of stationary growth phase and compared with those from the respective differentiated tissues. The lipid and fatty acid patterns in cell cultures differed remarkably from those in the tissues of the mother plant. No glycerol triacetate was detected in the callus cultures derived from differentiated tissues whereas in seeds this lipid compound amounts to 29%. In addition to fatty acids normally occurring in differentiated tissues, lipids in cultured cells also contained short-chain (C₁₂–C₁₄) as well as very long-chain fatty acids (C₂₀–C₂₄). In tissue culture cells the major fatty acids were found to be saturated, whereas in the mother cells unsaturated fatty acids were predominant. Palmitic acid is the most abundant fatty acid in most of the cultures. Lauric, myristic and palmitic acid amount to 50% in lipids of cell suspension cultures.     

Non-covalent interaction between procyanidins and apple cell wall material: Part I. Effect of some environmental parameters

The adsorption of procyanidins on cell wall material were quantified by bringing into contact a solution of procyanidins and a suspension of cell wall material. The influence of structural features such as degree of polymerisation (DP) and percentage of galloylation (% gall), and of physico-chemical parameters such as pH, ionic strength, temperature and presence of ethanol were investigated. The amount of procyanidins bound to the cell wall increased with the DP, the % gall, and the proportion of (+)-catechin, the last indicating an effect of the stereochemistry of the flavan-3-ols. Complex formation between procyanidins and cell wall material was not affected by pH in the range 2.2-7 but it was decreased by urea, dioxane and ethanol. Adsorption increased with increasing ionic strength and decreased with increasing temperature. This indicated that the bonds which governed the interaction between procyanidins and cell wall material were weak energy bonds of the type hydrogen bond and hydrophobic interaction.     

Catabolism of flavonol glucosides in plant cell suspension cultures

Catabolism of flavonol glucosides was investigated in plant cell suspension cultures using kaempferol 3-O-β-d-glucoside and kaempferol 7-O-β-d-glucoside labelled with ¹⁴C either in the glucose or in the flavonol moiety. Catabolic rates of glucosides were compared with those of free glucose and kaempferol. All substrates were degraded efficiently by cell cultures of mungbean, soybean, garbanzo bean and parsley. Based on ¹⁴CO₂-formation, glucose from position 3 of kaempferol is 3–5 times more rapidly metabolized than that from position 7. The flavonol nucleus from both isomers is, however, oxidized to the same extent with a considerable portion of the flavonol being incorporated into insoluble polymeric cell material.     

Interactions between apple (Malus x domestica Borkh.) polyphenols and cell walls modulate the extractability of polysaccharides

Apple polyphenol (procyanidin)–cell wall interactions were investigated and their impact on polysaccharide extractability were determined. Native and oxidised procyanidins with average degrees of polymerisation of 13 and 55 were incubated with cell walls. The effect of polyphenol oxidation was evaluated according to two designs: polyphenols were chemically oxidised either before or during interaction. The extent of procyanidin binding to cell walls was assessed by the weight increase of procyanidin–cell wall complexes as compared to weights of cell walls alone. Pectins and hemicelluloses were subsequently extracted from cell walls and from cell wall–procyanidin adducts using a chelating agent (ammonium oxalate), a pectin lyase treatment and NaOH.Weight increases of complexes ranged from 20% to 29%. Weight gains increased in the following order: native, pre-oxidised, simultaneously oxidised and bound procyanidins, these different fractions were, respectively, bound to cell walls. In presence of native procyanidins, oxalate extracted less pectins, and those pectins had lower degrees of methylation, as compared to cell walls alone. When cell walls were incubated with oxidised and oxidising procyanidins, even less pectins with lower degree of methylation were extracted. Major findings indicated that procyanidins mainly bound to pectins as compared to other cell wall compounds: (1) the procyanidin adsorption to cell walls limited the depolymerisation of pectins supposedly induced by pectin lyase. Thus less pectins were extracted but their degree of methylation increased, indicative of products of lysis of pectin lyase. (2) Hemicelluloses extracted using NaOH (4 M) were more abundant in pectins when oxidised or oxidising procyanidins were complexed rather than non complexed to cell walls.     

Association of the cyclic AMP chemotaxis receptor with the detergent-insoluble cytoskeleton of Dictyostelium discoideum

Treatment of 6-h differentiated Dictyostelium discoideum cells with the nonionic detergent Triton X-100 dissolves away membranes and soluble components, as judged by marker enzyme distributions, leaving intact a cytoskeletal residue that contains approximately 10% of the cell protein and 50% of the actin. Nitrobenzooxadiazo-phallacidin staining for F-actin and electron microscopy of detergent-extracted whole-mounts indicate that the cytoskeletons retain the size and shape of intact cells and contain F-actin in cortical meshworks. The cytoskeletons contain little if any remaining membrane material by morphological criteria, and the plasma membrane enzymes cyclic nucleotide phosphodiesterase and alkaline phosphatase are absent from the insoluble residue, which retains only 15% of the membrane concanavalin A-binding glycoproteins. This detergent-insoluble residue retains a specific [3H]cAMP-binding site with the nucleotide specificity, rapid kinetics and approximate affinity of the cAMP receptor on intact cells. Upon detergent extraction of cells, the number of cAMP-binding sites increases 20-70%. The binding site is attached to the insoluble residue whether or not the cAMP receptor is occupied at the time of detergent addition. The pH dependence for recovery of the insoluble cAMP-binding site is much sharper than that on intact cells or membranes with an optimum at pH 6.1. Conditions of pH and ionic composition that lead to disruption of the cytoskeleton upon detergent treatment also result in the loss of cAMP binding. During differentiation, the detergent- insoluble cAMP binding increases in parallel with cell surface cAMP receptors and chemotaxis to cAMP.     

Effect of hyperthermia on protein synthesis in monolayer and suspension cultures of mouse L cells

Changes in protein synthesis that occurred under the influence of heat shock (HS) in monolayer (L929) and suspension (LS) mouse cell cultures were studied. The rates of protein synthesis determined as 35S-methionine incorporations were seen reduced from the initial level up to 40-60 and 6-13% after HS at 42 and 44 degrees C, respectively. Simultaneously the rate of actin and tubulin syntheses decreased, the decrease being more pronounced in LS cells. According to electrophoresis and autoradiography data, after hyperthermia both the cell cultures were able to synthesize heat shock proteins (HSP), primarily HSP70. After a 40 min HS towards L929 and LS cells at 43 degrees C, the shares of their HSP70 bands in the total label loaded on the gel constituted, resp., 8.8 and 5.4%. The data suggest that L929 cells, with their synthetic activity lower than in LS cells, appear more resistant to HS and are able eventually to synthesize larger amounts of HSP70, compared to the latter.     

The formation of catechin and procyanidins in cell suspension cultures ofCryptomeria japonica

Cell suspension cultures, as well as green leaves, ofCryptomeria japonica contained catechin, epicatechin, procyanidins B-1, B-3 and B-4, and polymeric procyanidins. Those compounds in the cell culture were found to increase, midway through the logarithmic phase, but the polymerization of procyanidins seems to proceed in the stationary phase. The dosage of 0.3 mMl-2-aminooxy-3-phenylpropionic acid (l-AOPP), an inhibitor of phenylalanine ammonia-lyase (PAL), to the cells caused inhibition of the flavan formation to a large extent without significant reduction of growth rate, as well as a large increase in the phenylalanine content of the cells. PAL activity in the cell cultures increased, immediately after transfer to a fresh medium, showed its maximum (a first peak) during 15 hr and a second small peak of the activity in the midst of the logarithmic phase. 0.3 mMl-AOPP inhibited remarkably a first peak of PAL activity, but a second peak was nearly unaffected. 2 mMl-AOPP inhibited the PAL activity completely.     

Characterization of the presumed peptide cross-links in the soluble peptidoglycan fragments synthesized by protoplasts of Streptococcus faecalis.

Protoplasts of Streptococcus faecalis ATCC 9790 were produced with the aid of lysozyme, and the ability of these bodies to synthesize soluble, peptide cross-linked peptidoglycan (PG) fragments was examined. Lysozyme digests of PG isolated using gel filtration from the supernatant medium of protoplasts grown in the presence of [14C]acetate and L-[3H]lysine contained small amounts of PG having KD expected for peptide cross-linked dimers and trimers. Addition of benzyl penicillin (300 mug/ml) to growing protoplast cultures did not affect the net amount of PG fragments synthesized but resulted in inhibition of synthesis of dimer and trimer fractions by 27 and 59%, respectively. Failure of penicillin to completely inhibit the accumulation of the dimer fraction was attributed to the presence of atypical forms of dimer. In fact, the supernatant medium of penicillin-treated cultures did not contain detectable amounts of typical peptide cross-linked dimer. The degree of peptide cross-linkage of protoplast PG was at most only 13% of that found in walls isolated from intact streptococci. The relative amounts of monomers, dimers, and trimers synthesized during early and late stages of protoplast growth was approximately the same. Protoplasts synthesized soluble PG fragments in amounts which were of the same order of magnitude as that expected for insoluble PG produced by an equivalent amount of intact streptococci.     

Metabolism of benzo[a]pyrene in cell suspension cultures of parsley (Petroselinum hortense,Hoffm.) and soybean (Glycine max L.)

Cell suspension cultures of parsley and soybean were incubated for 38 h with ¹⁴C-labeled benzo[a]pyrene; autoclaved cultures were used as controls. Metabolites were isolated by a sequential extraction procedure and further studied by chromatography or by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate. The soluble metabolites amounted to 1–2.2% in the case of parsley cells, and 19–28% in the case of soybean cells. These metabolites varied in polarity, some being soluble in organic solvent or aqueous buffer while other metabolite fractions were soluble only in hot aqueous sodium dodecylsulphate. In addition, a significant amount of an insoluble metabolite fraction was isolated from the culture fluid as well as the cellular material of soybean suspension cultures.Abbreviations BP benzo[a]pyrene - SDS sodium dodecyl sulfate - TCA trichloroacetic acid     

Tissue culture of endod (Phytolacca dodecandra L'Herit): growth and production of ribosome-inactivating proteins

Summary Leaves and stems from endod (Phytolacca dodecandra L'Herit), known to produce the 29 kDa ribosome-inactivating protein (RIP) dodecandrin, were initiated into tissue culture. Callus and suspension cultures were maintained on modified Murashige and Skoog medium plus 1.0 mg/l 2,4-dichlorophenoxyacetic acid. Six callus and two suspension cell lines were screened for dodecandrin production by western blots with affinitypurified antiserum. Antiribosomal activity of culture extracts was tested by in vitro translation assays. One suspension cell line was found to be free of immunoreactive proteins and a ribosome inhibitor. All other cell lines contain a ribosome inhibitor, although only two callus cell lines show detectable amounts of immunoreactive proteins at the same M_r as dodecandrin. Other immuno-reactive proteins were detected in callus (M_r 31000, 33000, 41000 and 43000) and in suspension cells (M_r 23000 and 43000), and may be ribosome inhibitors related to dodecandrin—either other RIPs or dodecandrin at various stages of processing.     

The effects of culture conditions on the glycosylation of secreted human placental alkaline phosphatase produced in Chinese hamster ovary cells

The effects of different culture conditions, suspension and microcarrier culture and temperature reduction on the structures of N-linked glycans attached to secreted human placental alkaline phosphatase (SEAP) were investigated for CHO cells grown in a controlled bioreactor. Both mass spectrometry and anion-exchange chromatography were used to probe the N-linked glycan structures and distribution. Complex-type glycans were the dominant structures with small amounts of high mannose glycans observed in suspension and reduced temperature cultures. Biantennary glycans were the most common structures detected by mass spectrometry, but triantennary and tetraantennary forms were also detected. The amount of sialic acid present was relatively low, approximately 0.4 mol sialic acid/mol SEAP for suspension cultures. Microcarrier cultures exhibited a decrease in productivity compared with suspension culture due to a decrease in both maximum viable cell density (15-20%) and specific productivity (30-50%). In contrast, a biphasic suspension culture in which the temperature was reduced at the beginning of the stationary phase from 37 to 33 degrees C, showed a 7% increase in maximum viable cell density, a 62% increase in integrated viable cell density, and a 133% increase in specific productivity, leading to greater than threefold increase in total productivity. Both microcarrier and reduced temperature cultures showed increased sialylation and decreased fucosylation when compared to suspension culture. Our results highlight the importance of glycoform analysis after process modification as even subtle changes (e.g., changing from one microcarrier to another) may affect glycan distributions.     

Comparison of Proanthocyanidins and Related Compounds in Leaves and Leaf-Derived Cell Cultures of Ginkgo bioloba L., Pseudotsuga menziesii Franco, and Ribes sanguineum Pursh

Proanthocyanidins, flavan-3-ols, and their flavanoid precursors in leaves and leaf-derived callus and cell suspension cultures have been isolated and analyzed by high performance liquid chromatography with C₁₈ columns, paper chromatography, and by chemical and spectrophotometric methods. Cultures of Ginkgo biloba and Pseudotsuga menziesii (Douglas-fir) produced much greater amounts of proanthocyanidins than leaves per milligram dry weight. In cultures, however, the prodelphinidin component relative to that of procyanidins decreased; this was most pronounced in Pseudotsuga. In contrast, callus cultures of Ribes sanguineum accumulated proanthocyanidins in amounts about equal to those in intact leaves per milligram dry weight and the prodelphinidin content remained high. Although Ginkgo and Ribes leaves contained major amounts of flavan-3-ols and dimers with the 2,3-cis-stereochemistry, their cultures tended to synthesize 2,3-trans-isomers instead. Glycosides of flavanone and 3-hydroxyflavanone precursors accumulated in medium to high amounts on a dry weight basis in leaves and cultures of Ribes and Pseudotsuga, and the 3′-glycosidic linkage predominated when the latter species was cultured with 2,4-dichlorophenoxyacetic acid rather than naphthaleneacetic acid.