Microfluorometric analysis of cellular DNA following incorporation of bromodeoxyuridine.

Bromodeoxyuridine (BrdU) incorporation into cellular DNA has a differential effect on the cell-associated fluorescence of several DNA-specific dyes. After cells were treated with BrdU, flow microfluorometry was used to study the relative increase or decrease influorescence of stained cells. Bromodeoxyuridine incorporation into CHO cells increased the fluorescence of mithramycin-, olivomycin-, or chromomycin-stained cells, decreased that of propidium iodide-stained cells, and had little, if any, effect on the fluorescence of acriflavine Feulgen-stained cells. Changes in relative fluorescence of cell associated dyes are due to changes in the amounts of dye bound to cells with BrdU-substituted DNA. Colorimetric and absorbance measurement of DNA content showed that BrdU does not alter the diploid DNA content of CHO cells; however, BrdU induces perturbations in the distribution of cells about the cell cycle which cause an increase in average DNA content.     

Pararosaniline or acriflavine-Schiff staining of epoxy embedded tissue after periodic acid oxidation in ethanol: a method suitable for morphometric and fluorometric analysis of glycogen

A method for preparing tissue sections for automatic image analysis of glycogen is described. Large semithin sections of epoxy embedded tissue fixed in glutaraldehyde-osmium were stained with Schiff reagent and acriflavine (fluorescent staining) after resin removal and periodic acid oxidation in ethanol. We found it essential to avoid tissue rehydration before final staining. The Schiff stain permits an assessment of the cellular volume of glycogen, and the acriflavine allows a fluorometric evaluation of glycogen density.     

Acridine Binding by Escherichia coli: pH Dependency and Strain Differences

Acridine dye binding by cells of Escherichia coli has been characterized in terms of a number of parameters. There is a temperature-dependent, readily reversible binding of acriflavine which occurs to a greater extent with acridine-sensitive mutants of E. coli K-12 than with wild-type E. coli B or K-12. There is an essentially irreversible internal binding of acriflavine which occurs when the cellular permeability barriers are destroyed or altered by heat-treatment, elevated pH, treatment with toluene or phenethyl alcohol, or infection with bacteriophage T2 or T4. Both the reversible and the irreversible binding of acridines occurs more effectively with the acridine dye acriflavine than with the related dye proflavine, and still less effectively with 9-aminoacridine and quinacrine. These properties of acridine binding can be correlated with various inhibitory effects of the dyes on the cells.     

Pararosaniline Or Acriflavine-Schiff Staining of Epoxy Embedded Tissue After Periodic Acid Oxidation in Ethanol: A Method Suitable for Morphometric and Fluorometric Analysis of Glycogen

A method for preparing tissue sections for automatic image analysis of glyco-gen is described. Large semithin seaions of epoxy embedded tissue fixed in glutaraldehyde osmium were stained with Schiff reagent and acriflavine (fluorescent staining) after resin removal and periodic acid oxidation in ethanol. We found it essential to avoid tissue rehydra-tion before final staining. The Schiff stain permits an assessment of the cellular volume of glycogen, and the acriflavine allows a fluorometric evaluation of glycogen density.     

Rapid staining methods for analysis of deoxyribonucleic acid and protein in mammalian cells.

Quantitative fluorescent staining and analysis of cellular deoxyribonucleic acid (DNA) were accomplished using three groups of reagents having different mechanisms of action for DNA binding. These reagents included (a) the fluorescent antitumor antibiotics mithramycin, chromomycin A3 and olivomycin; (b) the Feulgen reagents acriflavine and flavophosphine N and (c) the intercalating dyes ethidium bromide and propidium iodide. Propidium iodide (PI) was used in combination with fluorescein isothiocyanate (FITC) to stain both cellular DNA and protein, respectively. Multiparameter analysis of PI/FITC-stained cells provided a direct correlation of DNA and protein for cells in all stages of the cell cycle. Nuclear-to-cytoplasmic ratio determinations were also performed on PI/FITC-stained cells by analysis of the time duration of the red (DNA) and green (protein) fluorescence signals from each cell. These staining and analysis techniques provide alternative methods for directly determining the quantitative relationship between cellular DNA and protein and will be extremely useful in investigations where fluctuations of these parameters are of importance for assessing experimental results.     

Peptide-based intracellular shuttle able to facilitate gene transfer in mammalian cells.

Loligomers are peptide-based intracellular vehicles able to penetrate cells and self-localize into distinct cellular compartments. Loligomers can be rapidly assembled by automated solid-phase approaches and were designed to act as nonviral, nonlipophilic intracellular shuttles. One nucleus-directed loligomer, termed loligomer 4, was evaluated for its ability to function as a transfection agent. Loligomer 4 readily associates with plasmids to form noncovalent complexes. The migration of loligomer 4-plasmid complexes into cells was monitored by flow cytometry and fluorescence microscopy. Populations of plasmids labeled with 7-AAD exist either free or in association with loligomer 4 inside cells and are visible throughout the cytosol and nucleus of chinese hamster ovary (CHO) cells. Loligomer 4-plasmid complexes were not cytotoxic to cells and were readily imported by most cells (>70%). CHO cells were transfected with complexes of loligomer 4 and plasmids harboring luciferase, green fluorescent protein or beta-galactosidase reporter genes. The transfection efficiency of loligomer 4-plasmid DNA complexes was greater when cells were maintained as suspensions instead of monolayers. Transfections could be performed with cells suspended in serum-containing medium. The observed levels of transfection, however, were modest with 5-10% of CHO cells expressing either a green fluorescent protein or the enzyme beta-galactosidase. Loligomers have recently been observed in vesicular compartments [Singh, D., Kiarash, R., Kawamura, K, LaCasse, E. C., and Gariépy, J. (1998) Biochemistry 37, 5798-5809] and differences between levels of cellular import and transfection efficiency may well reflect the need to optimize the release of loligomers and their complexes from these compartments in future designs. In summary, loligomer 4 behaves as a stable, soluble and effective transfection agent. These results demonstrate the feasibility of designing loligomers able to act as intracellular guided agents aimed at gene transfer applications.     

Fluorescent CMP-sialic acids as a tool to study the specificity of the CMP-sialic acid carrier and the glycoconjugate sialylation in permeabilized cells.

The specificity of the Golgi carrier for CMP-sialic-acids and the lumenal sialylation of glycoconjugates in mechanically permeabilized cells (semi-intact CHO 15B cells) was studied with CMP-activated fluorescent sialic acids as sensitive markers. Semi-intact cells represent a well-established cellular model for studies on the constitutive secretion pathway because the perforated plasma membrane allows membrane-impermeable CMP-sialic-acids to gain access to cellular organelles. The subcellular structures of semi-intact cells remain morphologically intact and hence synthetic CMP-sialic-acids can be assayed as substrates for the corresponding Golgi sugar-nucleotide transporter. The results prove that the CMP-sialic-acid carrier is able to translocate fluorescent CMP-glycosides, despite the bulky fluoresceinyl residue located at position C5 or C9 of the sialic-acid moiety; the data suggest a slightly higher affinity of the carrier for the C9-substituted CMP-glycoside, whereas the affinity of cellular sialyltransferases is fourfold higher for CMP-5-N-fluoresceinylaminoacetylneuraminic acid (5-FTIUNeuAc; 5-N-fluoresceinylaminoneuraminic acid). Using CMP-9-fluoresceinylthioureido-N-acetylneuraminic acid (CMP-9-FTIUNeuAc), an easy and sensitive fluorometric assay was established for the lumenal sialylation in semi-intact cells. Cellular proteins and gangliosides are both labelled by covalent incorporation of the fluorescent N-acetylneuraminic acid analogue. The assay allows rapid screening for small biomolecules or proteins that influence cellular sialyl transport and sialyl transfer; the lumenal fluorescence incorporation does not require ATP or cytosolic compounds. The suitability of fluorescent CMP-glycosides as markers for intracellular sialylation, proven in this paper, introduces the use of synthetic sialic acids for visualisation of cellular sialic acid pathways by fluorescence microscopy. Based on the data presented here, specific CMP-N-acetylneuraminic-acid analogues can be produced and used for the characterization of the Golgi CMP-sialic-acid carrier.     

Mac-1-FP融合表达载体的构建、Mac-1-FP的表达与活性鉴定

分别构建表达BFP与CD1 1b的C末端、YFP与CD1 8的N末端相连接的融合蛋白的表达载体 ,并将二者转染至既无内源性Mac 1的表达同时又具有某些炎症反应信号转导系统的CHO细胞株进行表达Mac 1 FP .通过荧光显微镜观察到共转染后的CHO细胞可发出蓝色荧光和黄色荧光 ,应用Western印迹方法确定CD1 1b BFP与YFP CD1 8能够形成二聚体 ,采用流式细胞术检测确定PMA刺激Mac 1 FP可由胞浆内转位至膜上 ,测定PMA刺激前后的转染CHO细胞与其配基ICAM 1粘附活性的变化 ,证明转染CHO中的Mac 1 FP表达成功并具有野生型Mac 1的形成二聚体、膜转位、和配基ICAM 1相结合等功能 ,为进一步研究白细胞表面粘附分子Mac 1的α亚基CD1 1b、β亚基CD1 8在细胞内的走向及归宿创造了条件     

Carbohydrate supplementation and exercise-induced changes in T-lymphocyte function.

Carbohydrate (CHO) ingestion during exercise has been shown to reduce perturbations in immune cell numbers and function, possibly through a reduction in the cortisol response to exercise. We have previously observed that exercise decreases T-lymphocyte responses to mitogen via an increase in cell death of both CD4 and CD8 T lymphocytes (Green KJ and Rowbottom DG. J Appl Physiol. 95: 57-63, 2003). This study tested the hypothesis that CHO ingestion rather than placebo (Pl) would result in an attenuation of the cortisol response to exercise and a reduction of the exercise-associated alterations in cell death. Six well-trained cyclists completed two exercise trials consisting of 2.5 h of cycling at 85% of individual ventilatory threshold. In a random order, trials were completed under either CHO (6% CHO solution, 3.2 g CHO/kg body wt total) or Pl conditions. Blood samples were collected before exercise, midexercise (after 60 min of exercise), immediately after exercise, and after 60 min of recovery. T-lymphocyte responses to mitogen were determined by using carboxyfluorescein diacetate succinimidyl ester fluorescent cell division tracking and expansion rates, and cell death rates were calculated for each sample as well as mitosis rates for each cell generation. Cellular expansion of T lymphocytes was decreased after exercise in Pl only. The reduction in cellular expansion was related to an increase in cell death of both CD4 and CD8 cells in culture rather than a decrease in the ability of cells to undergo mitosis. CHO ingestion compared with Pl was associated with no reductions in cellular expansion or increases in cell death. CHO ingestion during exercise acted to reduce the impairment of T-lymphocyte function by decreasing cell death within mitogen-stimulated cell cultures; however, the mechanism of action appears to be independent of cortisol.     

The action of acriflavine on yeast protoplasts

Summary The effect of acriflavine on protoplasts of a strain ofSaccharomyces carlsbergensis has been compared with the effect on intact cells of the same strain. The strain was typical of the species in that little or no mutation occurred when young cells were exposed to acriflavine at concentrations up to 50 μg/ml for 4 hours. However, after exposure of protoplasts, prepared by the action of snail crop juice, to acriflavine at concentrations up to 10 μg/ml for the same period, the rate of oxidation of acetate was reduced by 45% whereas the rate of fermentation of glucose remained unchanged. It is concluded that the susceptibility of cells to acriflavine may be dependent on the resistance of cell wall material to penetration by the dye, thus controlling the rate of entry into the cytoplasm.     

Evaluation of eight fluorochrome combinations for simultaneous DNA-protein flow analyses.

Eight fluorescent dye combinations for simultaneous DNA-protein staining have been evaluated spectroscopically and flow microfluorometrically: propidium iodide (PI) with fluoresceinisothiocyanate (FITC), fluorescamine (FC), and dansylchloride (DANS); diamidinophenylindole (DAPII) with sulphorhodamin (SR101), tetramethylrhodamin isothiocyanate (TRITC), and nitrobenzodiazole (NBD); acriflavine (AF) with stilbene isothiocyanate sulphonic acid (SITS), and DAPI. Three different experimental tumor cell lines have been employed in the investigations. Simultaneous DNA-protein analyses have been carried out with the newly developed HEIFAS instrument. Spectroscopically two groups of dyes were distinguishable according to their excitation maximum below 400 nm and above 450 nm respectively. DANS and NBD were found to be unsatisfactory with respect to their protein distributions obtained by flow analysis. The remaining stains involved in the dye combination revealed comparable flow distributions of the cellular DNA and protein content. With respect to preparation time and number of centrifugal steps involved in the staining protocols, and in connection with the stability of the dye used, the DAPI-SR101 method proved to be fastest and easiest. With this combination DNA and protein flow analysis can be performed simultaneously within 30 min.     

Multiple glycerol shocks increase the calcium phosphate transfection of non-synchronized CHO cells

The exposure of CHO DG44 cells to an osmotic shock, after DNA uptake, results in a cellular volume decrease of approx. 55%. Repetitive osmotic shocks targeted different sub-populations of cells as was demonstrated using two different fluorescent reporter genes. Also the exposure of a calcium phosphate–DNA coprecipitate to high osmolarity in vitro caused the release of the DNA from the precipitate. The results demonstrate the importance of the osmotic shock on the efficient delivery of plasmid DNA to the nucleus of CHO cells following calcium phosphate-mediated transfection.     

Evaluation Of Eight Fluorochrome Combinations For Simultaneous Dna-Protein Flow Analyses

Eight fluorescent dye combinations for simultaneous DNA-protein staining have been evaluated spectroscopically and flow microfluoromctrically: propidium iodide (PI) with fluorescein-isothiocyanate (FITC), fluorescamine (FC), and dansylchloride (DANS); diamidinophenylindole (DAPI) with sulphorhodamin (SR101), tetramethylrhodamin isothiocyanate (TRITC), and nitroben-zodiazole (NBD); acriflavine (AF) with stilbene isothiocyanate sulphonic acid (SITS), and DAPI. Three different experimental tumor cell lines have been employed in the investigations. Simultaneous DNA-protein analyses have been carried out with the newly developed HEIFAS instrument. Spectroscopically two groups of dyes were distinguishable according to their excitation maximum below 400 nm and above 450 nm respectively. DANS and NBD were found to be unsatisfactory with respect to their protein distributions obtained by flow analysis. The remaining stains involved in the dye combinations revealed comparable flow distributions of the cellular DNA and protein content. With respect to preparation time and number of centrifugal steps involved in the staining protocols, and in connection with the stability of the dye used, the DAPI-SR101 method proved to be fastest and easiest With this combination DNA and protein flow analysis can be performed simultaneously within 30 min.     

G-protein-dependent cell surface dynamics of the human serotonin1A receptor tagged to yellow fluorescent protein

Serotonergic signaling appears to play a key role in the generation and modulation of various cognitive, behavioral, and developmental processes. The serotonin(1A) receptor is an important member of the superfamily of seven transmembrane domain G-protein-coupled receptors and is the most extensively studied among the serotonin receptors. Several aspects of serotonin(1A) receptor biology such as cellular distribution and signal transduction characteristics are technically difficult to address in living cells on account of the inability to optically track these receptors with fluorescence-based techniques. We describe here the characterization of the serotonin(1A) receptor tagged to the enhanced yellow fluorescent protein (EYFP) stably expressed in Chinese hamster ovary (CHO) cells. These receptors were found to be essentially similar to the native receptor in pharmacological assays and can therefore be used to reliably explore aspects of receptor biology such as cellular distribution and dynamics on account of their intrinsic fluorescent properties. Analysis of the cell surface dynamics of these receptors by fluorescence recovery after photobleaching (FRAP) experiments has provided novel insight into the molecular mechanism of signal transduction of serotonin(1A) receptors in living cells. Interestingly, addition of pharmacologically well-characterized ligands or activators of G-proteins altered the diffusion characteristics of the receptor in a manner consistent with the G-protein activation model. These results demonstrate, for the first time, that membrane dynamics of this receptor is modulated in a G-protein-dependent manner.     

Cholesterol controls lipid endocytosis through Rab11

Cellular cholesterol increases when cells reach confluency in Chinese hamster ovary (CHO) cells. We examined the endocytosis of several lipid probes in subconfluent and confluent CHO cells. In subconfluent cells, fluorescent lipid probes including poly(ethylene glycol)derivatized cholesterol, 22-(N-(7-nitrobenz-2-oxa-1,3-diazol-4-yl)amino)-23,24-bisnor-5-cholen-3beta-ol, and fluorescent sphingomyelin analogs were internalized to pericentriolar recycling endosomes. This accumulation was not observed in confluent cells. Internalization of fluorescent lactosylceramide was not affected by cell confluency, suggesting that the endocytosis of specific membrane components is affected by cell confluency. The crucial role of cellular cholesterol in cell confluency-dependent endocytosis was suggested by the observation that the fluorescent sphingomyelin was transported to recycling endosomes when cellular cholesterol was depleted in confluent cells. To understand the molecular mechanism(s) of cell confluency- and cholesterol-dependent endocytosis, we examined intracellular distribution of rab small GTPases. Our results indicate that rab11 but not rab4, altered intracellular localization in a cell confluency-associated manner, and this alteration was dependent on cell cholesterol. In addition, the expression of a constitutive active mutant of rab11 changed the endocytic route of lipid probes from early to recycling endosomes. These results thus suggest that cholesterol controls endocytic routes of a subset of membrane lipids through rab11.     

Monitoring pH and dissolved oxygen in mammalian cell culture using optical sensors

Here, we have studied two parameters critical to process control in mammalian cell culture; dissolved oxygen (dO₂) and pH, measured with fluorescent sensors thus allowing the study of the metabolic state of cells in culture without removing or damaging cells during cultivation. Two cell lines, namely, NS0 and CHO were batch-grown in 24-well plates at different serum concentrations with the sensors implemented in the bottom of each well. The data showed a good relationship between the dO₂ and pH data obtained from fluorescent probes and the growth and death characteristics of cells. The method has provided a high throughput on-line multi-parametric analysis of mammalian cell cellular activity.     

Measurement of DNA damage in mammalian cells using flow cytometry

A technique for the detection of DNA damage induced by radiation insult has been developed. Cells were lysed with a buffer containing 2 M sodium chloride to release the DNA in a supercoiled form, the nucleoid. These were stained with the DNA intercalating dye, ethidium bromide, and exposed to laser light within a flow cytometer. Scattered and fluorescent light was analyzed from the laser/nucleoid interaction following irradiation of viable cells with gamma rays. The addition of ethidium bromide to prepared nucleoids caused a reduction in scattered light due to condensation of the nucleoid. Irradiation of cells prior to nucleoid production and ethidium bromide treatment restricted this condensation and produced a dose-dependent increase in laser scatter. Nucleoids derived from human lymphocytes showed enhanced light scatter from 5 Gy, compared to Chinese hamster ovary (CHO) fibroblasts where doses above 10 Gy were required. Up to 30 Gy CHO nucleoids showed a dose-dependent reduction in the ethidium bromide fluorescence. This technique allows detection of altered light scattering and fluorescent behavior of nucleoids after cellular irradiation; these may be related to structural changes within the nucleus induced by the radiation. The use of flow cytometry compared to other methods allows a rapid analysis of nuclear damage within individual cells.     

Distribution of 5-doxylstearic acid in the membranes of mammalian cells

Concentration-dependent spin broadening of ESR spectra of the nitroxide 5-doxylstearic acid has been used to evaluate the distribution of 5-doxylstearic acid in the membranes of intact mouse thymus-bone marrow (TB) and Chinese hamster ovary (CHO) cells. TB cells, CHO cells, erythrocytes, and isolated plasma membranes from CHO cells were labelled with 5-doxylstearic acid and the peak to peak linewidths of the central line of the resulting ESR spectra were measured. The measured line widths were linearly dependent on the amount of 5-doxylstearic acid incorporated into the sample over the range of 0-0.18 mol nitroxide per mol lipid. In erythrocytes, the relationship between linewidths approximated a linear function at lower concentrations of 5-doxylstearic acid, up to 0.07 mol nitroxide per mol lipid. The amount of broadening of the central line for a given amount of 5-doxylstearic acid was far less for intact cells than for either erythrocytes or plasma membrane, indicating that the 5-doxylstearic acid samples a much larger lipid pool in the intact cells. With the broad assumption that the mobility of the 5-doxylstearic acid is similar in different membranes, the size of the lipid pool sampled by 5-doxylstearic acid is approximately equal to the total cellular lipid in intact cells. If a given concentration of 5-doxylstearic acid sampled only the plasma membrane of TB or CHO cells, we would expect to see a linewidth corresponding to a 12-20-fold greater local concentration of 5-doxylstearic acid than was observed, since the plasma membranes of CHO and TB cells represent only 5-8 percent of the total cellular lipid. Therefore, the 5-doxylstearic acid must distribute into most or all cellular membranes of intact cells and is not localized in the plasma membrane alone.