Enhancing hypericin production of Hypericum perforatum cell suspension culture by ozone exposure

Accumulation of secondary metabolites is one of the common reactions of plants to ozone exposure in nature. To investigate the effect of ozone on the production of desired compounds of plant cell cultures, we assayed hypericin production of Hypericum perforatum suspension cell cultures treated with different doses of ozone at different culture phases. The results show that hypericin contents of the cells treated with 60 to 180 nL L^?1 ozone are significantly higher than those of the control, showing that ozone exposure may stimulate hypericin synthesis. Hypericin production of the cells treated with ozone at exponential phase is higher than that of lag and stationary phase, which suggests that exponential phase cell cultures are more responsive to ozone exposure than lag and stationary phase cells. The highest hypericin production is obtained by the cells exposed to 90 nL L^?1 ozone at late exponential phase for 3 h, being about fourfold of the control. © 2011 American Institute of Chemical Engineers Biotechnol. Prog., 2011     

The proteome complement of Nicotiana tabacum Bright‐Yellow‐2 culture cells

The Nicotiana tabacum Bright‐Yellow‐2 (BY2) cell line is one of most commonly used plant suspension cell lines and offers interesting properties, such as fast growth, amenability to genetic transformation, and synchronization of cell division. To build a proteome reference map of BY2 cell proteins, we isolated the soluble proteins from N. tabacum BY2 cells at the end of the exponential growth phase and analyzed them by 2‐DE and MALDI TOF‐TOF. Of the 1422 spots isolated, 795 were identified with a significant score, corresponding to 532 distinct proteins.     

Microspectrofluorometry of fluorescent photoproducts in photosensitized cells: Relationship to cellular quiescence and senescence in culture

Microspectrofluorometry of L and WI-38 cells reveals chemical/structural changes due to quiescence or senescence, i.e., lipid peroxidation, spontaneous or photosensitized by hematoporphyrin. Cells treated with hematoporphyrin and a lysosomal umbelliferone probe show a fast-rising umbelliferone emission, plus a fluorescent photoproduct. Studies in rapidly growing versus quiescent L, early passage/late passage WI-38 cells, suggest accumulation of fluorescence Schiff bases (i.e., their association with granular regions of cells in stationary phase, spectral properties, fast increase in photosensitized cells) and a possible lysosomal membrane permeabilization in quiescent or senescent cells.     

Enzymatic epoxidation: synthesis of 7,8-epoxy-1-octene, 1,2-7,8-diepoxyoctane, and 1,2-Epoxyoctane by Pseudomonas oleovorans.

The kinetics of the enzymatic formation of 7,8-epoxy-1-octene, 1,2-7,8-diepoxyoctane, and 1,2-epoxyoctane by growing and resting cell suspensions of Pseudomonas oleovorans are described. Formation of 1,2-epoxyoctane occurs concurrently with exponential growth on 1-octene, providing that 1-octene is in excess. Conversion of 1,7-octadiene to 7,8-epoxy-1-octene by cells growing on octane lags behind exponential growth and continues into the stationary phase, terminating upon cell death. Formation of 1,2-7,8-diepoxyoctane does not begin until the cells are well into the stationary phase and also continues until cell death. Results with growing and resting cell suspensions suggest that the various substrates compete for the same enzyme system; that viable cells are essential for substrate transport and epoxidation by whole cells; and that whole cells may concentrate and sequester the epoxides, rendering them unrecoverable by our current methods.     

HearNPV在生长对数期与平台期宿主细胞中的复制差异分析

使用实时荧光定量PCR技术对HearNPV在生长对数期和平台期HzAM1细胞的复制差异进行分析。结果表明,HzAM1细胞生长对数期的倍增时间为22 h,生长对数期的细胞以S期细胞为主(48.6%),而平台期细胞中以G2/M期细胞为主(72.6%)。在这两种不同状态的细胞中,病毒的复制主要在感染后60 h内完成,在感染后14~20 h,病毒复制倍增时间分别为1.8 h和1.9 h,几乎没有差别。但是感染生长对数期细胞时,吸附侵入细胞内的BV数量、BV释放的数量、最终的病毒产量以及病毒表达的蛋白产量明显高于被病毒感染的生长平台期细胞。如生长对数期细胞内复制合成的病毒DNA总量的25%装配形成BV病毒粒子出芽释放到细胞外,而对于平台期细胞,病毒DNA仅有13%装配形成BV病毒粒子出芽释放到细胞外。病毒感染两种生长状态的细胞,病毒DNA均从感染后7~8 h开始复制,没有明显差别;而生长对数期细胞从被感染后18~20 h释放子代病毒BV,生长平台期细胞则在感染后22~25 h开始释放病毒BV。在感染后30~60 h,在生长对数期被感染的细胞释放BV的速度约为483 copies/cell/h,而平台期细胞约为100 copies/cell/h。最初吸附侵入到生长对数期细胞内的BV粒子数量明显多于侵入到生长平台期细胞内的BV数量。实验证实,生长对数期与平台期的细胞膜的流动性有很大差别,推测健康细胞表面有活性的病毒受体数量可能决定了侵入细胞内的BV的数量。     

Different quiescence states of three culture cell lines detected by acridine orange staining of cellular RNA

Three cell lines (CHO, L-929, and R1H) were investigated for their growth kinetics and the difference of exponential and quiescent state of monolayers in medium with and without serum (L-929). The noncycling populations of L-929 and R1H in medium with serum contained increased G1-phase percentages but also considerable proportions of SQ and G2Q cells. Although about 90% of the cells excluded trypan blue, the viability tested by colony assay was clearly lower than for exponentially growing cultures. CHO cells showed similar fractions of cells in G1-, S-, and G2-Q compartments but in addition considerable cell loss. The RNA content of these cells was reduced in plateau phase by 7-48% depending on cell type and residence time in the noncycling state. The data suggest that the cells suffered from nutrition depletion and were arrested in all phases of the cycle. In contrast, L-929 cells in medium without serum reduced their RNA content down to one-third that of proliferating cells and still retained the full viability as shown by the same plating efficiency in a colony assay. Since about 90% of the cells had G1 DNA content, these cells resemble true G1Q or G0 cells controlled by growth factors rather than nutritional depletion.     

Understanding the acid tolerance response of bifidobacteria

Aims: To investigate the effect of pH on the viability and the acid tolerance response (ATR) of bifidobacteria. Methods and Results: The impact of low pH on the viability of five species of bifidobacteria was examined under conditions of strict anaerobiosis. Although differences in the ability to resist the lethal effects of low pH were apparent among the species, cell viability could be improved by the provision of fermentable substrate during an acidic pH stress or through the use of stationary phase cells. While a stationary phase ATR was found to occur in two species of bifidobacteria, there was no adaptive response in exponential phase cells. Proteomic analysis of exponential phase Bifidobacterium longum subjected to a mild acid pre‐exposure (pH 4·5, 2 h) prior to an acid challenge revealed a substantial loss in the total number of cellular proteins. In contrast, proteomic analysis of stationary phase cells revealed an increased abundance of proteins associated with the general stress response as well as the β‐subunit of the F₀F₁‐ATPase, known to be important in bifidobacteria acid tolerance. Conclusion: Neither Bif. longum or Bifidobacterium breve possesses an inducible exponential phase ATR. Significance and Impact of the Study: These findings provide further insights into the impact of pH on the viability of bifidobacteria and may partially explain the loss in viability associated with their storage in acid foods.     

The proteomics of quiescent and nonquiescent cell differentiation in yeast stationary-phase cultures

As yeast cultures enter stationary phase in rich, glucose-based medium, differentiation of two major subpopulations of cells, termed quiescent and nonquiescent, is observed. Differences in mRNA abundance between exponentially growing and stationary-phase cultures and quiescent and nonquiescent cells are known, but little was known about protein abundance in these cells. To measure protein abundance in exponential and stationary-phase cultures, the yeast GFP-fusion library (4159 strains) was examined during exponential and stationary phases, using high-throughput flow cytometry (HyperCyt). Approximately 5% of proteins in the library showed twofold or greater changes in median fluorescence intensity (abundance) between the two conditions. We examined 38 strains exhibiting two distinct fluorescence-intensity peaks in stationary phase and determined that the two fluorescence peaks distinguished quiescent and nonquiescent cells, the two major subpopulations of cells in stationary-phase cultures. GFP-fusion proteins in this group were more abundant in quiescent cells, and half were involved in mitochondrial function, consistent with the sixfold increase in respiration observed in quiescent cells and the relative absence of Cit1p:GFP in nonquiescent cells. Finally, examination of quiescent cell-specific GFP-fusion proteins revealed symmetry in protein accumulation in dividing quiescent and nonquiescent cells after glucose exhaustion, leading to a new model for the differentiation of these cells.     

Cultured human tumour cells may be arrested in all stages of the cycle during stationary phase: demonstration of quiescent cells in G1, S and G2 phase

Six human colon carcinoma cell lines were induced to enter stationary phase of growth by nutrient deprivation and cell crowding. Growth kinetics parameters (cell number, flow cytometric analysis of DNA distribution, and labelling and mitotic indices) were measured sequentially for all lines during the various stages of in vitro growth. Our results demonstrated that a substantial fraction of cells (9-18%) were located in G2 phase when they changed from an exponential to a stationary mode of growth. Moreover, a large number of cells in stationary phase of growth had an S-phase DNA content, as determined by flow cytometry, but failed to incorporate radioactive DNA precursors (up to 15-fold difference). To substantiate these findings, cells in stationary phase of growth were induced to enter exponential growth by re-seeding in fresh medium at a lower density. Subsequently observed changes in DNA-compartment distribution, and in labelling and mitotic indices were those expected from cells that had been arrested at different stages of the cycle during their previous stationary phase. Thus, the non-proliferating quiescent state (Q), traditionally located 'somewhere' in G1 phase, appears to be composed also of cells that can be arrested at other stages of the cycle (Qs and QG2). Although the proportion of such cells is rather small, their contribution to the growth kinetics behaviour of human in vivo tumours will become apparent following 'recruiting' or 'synchronizing' clinical manoeuvres and will prevent the formation of a clear-cut wave of synchronized cells.     

Intracellular phosphorylation of benzyladenosine is related to apoptosis induction in tobacco BY-2 cells

Treatment of tobacco BY‐2 cells with micromolar concentration of benzyladenosine ([9R]BA) resulted in the loss of cell viability in a time‐ and concentration‐dependent manner. Cell death induced by [9R]BA exhibited typical apoptotic hallmarks including cell shrinkage, chromatin condensation and degradation of nuclear DNA to characteristic high molecular weight (HMW) as well as nucleosomal size fragments. Externally added [9R]BA was very rapidly and almost quantitatively phosphorylated within BY‐2 cells. Accumulation of [9R]BA‐monophosphate was accompanied by massive production of endogenous reactive oxygen species (ROS), intracellular ATP depletion, and these events were followed by the loss of cell viability. Inhibition of intracellular phosphorylation of [9R]BA by adenosin kinase inhibitor, 5′‐amino‐5′‐deoxyadenosine (AdAs), diminished ROS production, ATP depletion, and consequently prevented cells from death. Selective inhibition of ROS production without restoring ATP production, however, did not provide any protection to cells. In contrast, even enhanced phosphorylation of [9R]BA caused by adenosine that simultaneously revived ATP synthesis reduced the number of dying cells. This is the first evidence of a direct relationship between intracellular phosphorylation of [9R]BA and apoptosis induction in BY‐2 cells. ATP depletion but not ROS production is the key secondary event that determines the cellular decision between life and death.     

Amiloride inhibits protein synthesis and lowers the intracellular pH in exponential growing Yoshida rat ascites hepatoma (AH 130) cells: evidence for a role of the Na+/H+ exchanger

We have previously demonstrated in a rat ascites hepatoma cell line (Yoshida AH 130) the presence of a glucose-activatable and amiloride sensitive Na+/H+ exchange (Cell Biol. Int. Rep., 1984, 8, 297-307). Amiloride is known to inhibit this exchange and to cause a cytoplasmic acidification, with inhibition of protein and DNA synthesis, in cells induced to grow. Amiloride appears also to penetrate the cells and to inhibit directly protein synthesis. In the present report we describe experiments in which the activity of amiloride (0.1, 0.4 and 3.0 mM) on protein synthesis and the internal pH of cells was compared in exponential growing and stationary phase Yoshida ascites cells. In phosphate buffered medium and Na+ out = 147 mM no inhibition of protein synthesis (3H-leu incorporation into total cell protein) and no internal acidification (14C-DMO distribution between intra- and extracellular volume) were produced by 0.1 and 0.4 mM amiloride in exponential growing cells. In stationary phase cells, on the contrary, 0.4 mM amiloride inhibited protein synthesis by 60% without decreasing the internal pH. When the Na+ out was lowered to 25 mM, to reduce competition with amiloride, and/or all Na+ out was substituted with choline, 0.1 and 0.4 mM amiloride markedly inhibited protein synthesis and decreased the internal pH in exponential growing cells. No apparent inhibition occurred in stationary phase cells under the same conditions, possibly due to a preexistent internal acidification, with severe decrease of protein synthesis. Fluorimetric studies of amiloride "binding" to ascites cells showed that a reduced number of amiloride receptor sites could exist in Yoshida hepatoma cells at the stationary phase of growth.(ABSTRACT TRUNCATED AT 250 WORDS)     

Microspectrofluorometry of fluorescent photoproducts in photosensitized cells. Relationship to cellular quiescence and senescence in culture

Microspectrofluorometry of L and WI-38 cells reveals chemical/structural changes due to quiescence or senescence, i.e., lipid peroxidation, spontaneous or photosensitized by hematoporphyrin. Cells treated with hematoporphyrin and a lysosomal umbelliferone probe show a fast-rising umbelliferone emission, plus a fluorescent photoproduct. Studies in rapidly growing versus quiescent L, early passage/late passage WI-38 cells, suggest accumulation of fluorescence Schiff bases (i.e., their association with granular regions of cells in stationary phase, spectral properties, fast increase in photosensitized cells) and a possible lysosomal membrane permeabilization in quiescent or senescent cells.     

Relative roles of T‐cell receptor ligands and interleukin‐2 in driving T‐cell proliferation

Stimulation of T cells by the T‐cell receptor (TCR)/CD3 complex results in interleukin‐2 (IL‐2) synthesis and surface expression of the IL‐2 receptor (IL‐2R), which in turn drive T‐cell proliferation. However, the significance of the requirement of IL‐2 in driving T‐cell proliferation, when TCR stimulation itself delivers potential mitogenic signals, is unclear. We show that blocking of IL‐2 synthesis by Cyclosporin A (CsA) suppressed both the Concanavalin A (Con A)‐ and phorbol myristate acetate (PMA)/ionomycin‐induced proliferation of T cells. The latter is also inhibited by anti‐IL‐2R. Kinetic studies showed that T‐cell proliferation begins to become resistant to CsA inhibition by about 12 h and became largely resistant by 18 h of stimulation. PMA, the protein kinase C activator, enhanced Con A‐induced T‐cell proliferation if added only within first 12 h of stimulation, and not after that. Given the fact that, in the present study, TCR is downregulated within 2 h of Con A stimulation and T cells entered the S phase of cell cycle by about 18 h of stimulation, the above results suggest that TCR stimulation provides the initial trigger to the resting T cells, which allows the cells to traverse the first two third portions of G1 phase of cell cycle and become proliferation competent. IL‐2 action begins afterward, delivering the actual proliferation signal(s), allowing the cells to traverse the rest of G1 phase and enter the S phase of the cell cycle. J. Cell. Biochem. 76:37–43, 1999. © 1999 Wiley‐Liss, Inc.     

红豆杉细胞时相与其次生代谢强度的关系

研究了处于不同时相的红豆杉细胞经诱导后生活力、生物量、紫杉醇含量及几个与次生代谢有关的生理化指标的差异,对细胞时相与次生代谢强度的关系进行了探讨。结果表明,在细胞培养的第７ｄ（延迟期）进行诱导,细胞的活力、ＰＯＤ活性、Ｈ２Ｏ２、生物量、紫杉醇含量均高于第１４ｄ（对数期）进行诱导,显著高于第２１ｄ（稳定期）开始诱导。说明在第７ｄ（延迟期）进行诱导时,细胞对诱导子的反应灵敏度较高,次生代谢启动的强度更     

Cell death-mediated antiviral effect of chitosan in tobacco

The antiviral activity induced by chitosan (CHT), and the mechanisms underlying it, were studied in a tobacco-tobacco necrosis necrovirus (TNV) pathosystem. Treatments with 0.1% CHT enhanced tobacco inducible defenses against TNV, reducing significantly the virus-induced necrotic lesions (in a range from 32% to 83%). In planta, this resistance was associated with a network of callose deposits, micro-oxidative bursts and micro-hypersensitive responses (micro-HRs), as assessed, respectively, by aniline blue, 3,3'-diaminobenzidine (DAB) and Evans blue staining. In order to verify if CHT-elicited cell death could be regarded as an apoptotic process, tobacco bright yellow 2 (BY2) cell cultures were treated with different CHT concentrations, ranging from 0.01% to 0.1%. After 6 h about half of the cultured cells incubated in 0.05% CHT were Evans blue positive, showing some typical morphological features of apoptosis, such as cytoplasm shrinkage and nuclear chromatin condensation. The latter was checked by 4',6-diamino-2-phenylindole (DAPI) and ethidium bromide nuclear staining and was visible already at 2 h after treatment. Moreover, the cell death kinetic induced by CHT was delayed by Verapamil(R), a calcium channel blocker. Finally, electrophoresis of genomic DNA extracted from cultured cell after 48 h treatment showed internucleosomal fragmentation, visualized as a distinct ladder of DNA bands corresponding to oligonucleosomal units.     

Amino acids are general growth inhibitors of Nicotiana silvestris in tissue culture

The growth of Nicotiana silvestris in suspension culture is inhibited by all of the common protein amino acids at the millimolar level, except for L-glutamine. A defined experimental system for growth/inhibition studies has been established, and growth studies were carried out with cells that had been maintained in the exponential growth phase for at least 10 generations (EE cells). The following results were obtained after particularly detailed studies with aromatic amino acids. The onset of inhibition was preceded by a duration of normal growth rate which varied within a range of 12 to 48 h. The degree of inhibition was directly proportional to amino acid concentration and inversely related to the initial cell density of the inoculum. A slowed, but still exponential rate of growth persisted during an early phase of inhibition. Under sufficiently severe conditions, this was followed by progressive diminution of growth rate and eventual lysis. The most drastic inhibitory effects caused by aromatic amino acids were in the order: phenylalanine, tryptophan and tyrosine. When EE cells cultivated under conditions of growth inhibition were diluted into fresh medium, immediate resumption of growth at the uninhibited rate occurred and persisted. On the other hand, when growth-inhibited EE cells were diluted into medium containing the same concentration of amino acid used in the first round of growth, an initial burst of uninhibited growth lasting about 24 h was followed by a drastic, progressively declining growth rate which deteriorated to cell death and lysis. When cells in stationary phase were used as an inoculum, as is done in typical growth characterizations with suspension cultures, the sensitivity to inhibition during the subsequent exponential growth phase was several-fold greater than was the case with EE cells. Hypotheses that growth inhibition might be caused by ammonia toxicity, keto-acid toxicity, or by inhibition of nitrate utilization were ruled out. Observations that provide new insight are: (i)growth-inhibited cells undergo drastic plasmolysis, (ii) L-glutamine is an effective antagonist of amino-acid inhibitors, and (iii) growth-inhibited cells exhibit a transient restoration of normal growth rate upon dilution into fresh growth medium. These results implicate a linkage of amino acids with osmotic regulation and nitrogen metabolism.     

Glycogen metabolism in resting and growing cells of Saccharomyces carlsbergensis

Saccharomyces carlsbergensis cells, growing under carbohydrate or nitrogen limitation, initially deplete their glycogen, which is resynthesized only during the late exponential phase. Cells, harvested in the carly exponential phase, are even unable to synthesize glycogen in glucose-containing phosphate buffer. This is in contrast to cells from the stationary phase which rapidly synthesize glycogen under the same conditions. Lack of O₂ slows down glycogen synthesis.Contrary to cells suspended in complete medium, addition of ammonia alone to nitrogen free-media induced neither breakdown of glycogen, nor complete cessation of glycogen synthesis. Ammonia slowed down glycogen synthesis (both aerobic and anaerobic), only, in cells grown either under carbohydrate or under nitrogen limitation.Glycogen synthesis was observed 1 min after addition of glucose to a starved cell suspension in phosphate buffer. Removal of the sugar from the buffer resulted in an instantanous decrease of the glycogen level in the cells. The results indicate that glycogen-metabolism is regulated by a variety of endogenous and environmental factors.     

Recovery of ionizing-radiation damage after high doses of gamma ray in the hyperthermophilic archaeon Thermococcus gammatolerans

The recently discovered hyperthermophilic and radioresistant archaeon Thermococcus gammatolerans is of great interest to compare and contrast the impact of its physiology on radioresistance and its ability to repair damaged chromosomes after exposure to gamma irradiation with radioresistant bacteria. We showed that, in contrast to other organisms, cell survival was not modified by the cellular growth phase under optimal growth conditions but nutrient-limited conditions did affect the T. gammatolerans radioresistance. We determined the first kinetics of damaged DNA recovery in an archaeon after exposure to massive doses of gamma irradiation and compared the efficiency of chromosomal DNA repair according to the cellular growth phase, nutrient availability and culture conditions. Chromosomal DNA repair kinetics showed that stationary phase cells reconstitute disrupted chromosomes more rapidly than exponential phase cells. Our data also revealed that this radioresistant archaeon was proficient to reconstitute shattered chromosomes either slowly or rapidly without any loss of viability. These results suggest that rapid DNA repair is not required for the extreme radioresistance of T. gammatolerans. Angels Tapias and Christophe Leplat contributed equally to this work.