Flow Cytometric Characteristics of Sperm Cells Isolated from Pollen of Zea mays L

Sperm cells have been isolated from pollen of maize (Zea mays L.) and purified with Percoll density centrifugation. Their flow cytometric characteristics were determined on a FACScan flow cytometer with the fluorescent dyes, fluorescein diacetate and propidium iodide. Freshly isolated sperm cells appeared as a dot cluster on the forward scatter and side scatter dot plot. This dot cluster contained 85 to 95% of the 10 thousand counts collected. More than 98% of cells from the cluster were fluorescein diacetate positive, with no propidium iodide positivity, indicating high cell viability. After 5 hours in 15% (w/v) sucrose at room temperature (23°C), scattering properties, cell number, and percentage of fluorescein diacetate-positive cells remained the same. In contrast, Brewbaker and Kwack salts in 15% sucrose resulted in the emergence of a new cell population, as well as a decrease in cell number at 5 hours. Further investigations with individual components of the Brewbaker and Kwack salts showed that calcium was mainly responsible for the deleterious effects. These results demonstrate the utility of flow cytometry as a tool to determine viability and to monitor morphological changes of plant sperm cells and to challenge current views on the ability of Brewbaker and Kwack salts to maintain viability of isolated sperm cells.     

Dynamics of single cell property distributions in Chinese hamster ovary cell cultures monitored and controlled with automated flow cytometry

Two important variables that are often not measured online in Chinese hamster ovary (CHO) cell cultures are cell number concentration and culture viability. We have developed an automated flow cytometry system that measured the cell number concentration, single cell viability based on propidium iodide (PI) exclusion, and single cell light scattering from bioreactor samples every 30 min. The bioreactor was monitored during batch growth, and then the cell number concentration was controlled at a set point during cytostat operation. NH₄Cl was added during steady state operation in cytostat mode to monitor the transient cell population response to adverse growth conditions. The automated measurements correlated well to cell concentration and viability determined manually using a hemacytometer. The described system provides a method to study mammalian cell culture physiology and dynamics in great detail. It presents a new method for the monitoring and control of animal cell culture.     

Optimization of the formation of embedded multicellular spheroids of MCF-7 cells: How to reliably produce a biomimetic 3D model

To obtain a multicellular MCF-7 spheroid model to mimic the three-dimensional (3D) of tumors, the microwell liquid overlay (A) and hanging-drop/agar (B) methods were first compared for their technical parameters. Then a method for embedding spheroids within collagen was optimized. For method A, centrifugation assisted cells form irregular aggregates but not spheroids. For method B, an extended sedimentation period of over 24 h for cell suspensions and increased viscosity of the culture medium using methylcellulose were necessary to harvest a dense and regular cell spheroid. When the number was less than 5000 cells/drop, embedded spheroids showed no tight cores and higher viability than the unembedded. However, above 5000 cells/drop, cellular viability of embedded spheroids was not significantly different from unembedded spheroids and cells invading through the collagen were in a sun-burst pattern with tight cores. Propidium Iodide staining indicated that spheroids had necrotic cores. The doxorubicin cytotoxicity demonstrated that spheroids were less susceptible to DOX than their monolayer cells. A reliable and reproducible method for embedding spheroids using the hanging-drop/agarose method within collagen is described herein. The cell culture model can be used to guide experimental manipulation of 3D cell cultures and to evaluate anticancer drug efficacy.     

Dead cell counts during serum cultivation are underestimated by the fluorescent live/dead assay

The live/dead fluorescent assay provides a quick method for assessing the proportion of live and dead cells in cell culture systems or tissues and is widely used. Dead cells are detected by the fluorescence produced when propidium iodide (PI) binds to DNA; PI and similar molecules are excluded from live cells but can penetrate dead cells because of their loss of membrane integrity. Here we investigated the effect of serum in the culture medium on the reliability of the method. We assessed viability of chondrocytes with/without serum using both a live/dead assay kit and also trypan blue staining. We found that after 2 days of culture, the DNA-binding dye PI could no longer detect dead cells if serum was present but they were readily detected in serum-free medium or if an inhibitor to DNase I was added to the serum-containing medium. Dead cells could be detected by trypan blue staining in all cultures. Hence dead cells are no longer detected as the DNase I present in serum degrades their DNA. DNA-binding dyes may thus not give a reliable estimate of the number of dead cells in systems that have been cultured in the presence of serum for several days.     

Cryopreservation by slow cooling with DMSO diminished production of Oct-4 pluripotency marker in human embryonic stem cells

We tested a "standard" cryopreservation protocol (slow cooling with 10% DMSO) on the human embryonic stem cell (hESC) line H9 containing an Oct-4 (POU5F1) promoter-driven, enhanced green fluorescent protein (EGFP) reporter to monitor maintenance of pluripotency. Cells were cooled to -80 degrees C in cryovials and then transferred to a -80 degrees C freezer. Cells were held at -80 degrees C for 3 days ("short-term storage") or 3 months ("long-term storage"). Vials were thawed in a +36 degrees C water bath and cells were cultured for 3, 7, or 14 days. Propidium iodide (PI) was used to assess cell viability by flow cytometry. Control cells were passaged on the same day that the frozen cells were thawed. The majority of cells in control hESC cultures were Oct-4 positive and almost 99% of EGFP+ cells were alive as determined by exclusion of PI. In contrast, the frozen cells, even after 3 days of culture, contained only 50% live cells, and only 10% were EGFP-positive. After 7 days in culture, the proportion of dead cells decreased and there was an increase in the Oct-4-positive population but microscopic examination revealed large patches of EGFP-negative cells within clusters of colonies even after 14 days of culturing. After 3 months of storage at -80 degrees C the deleterious effect of freezing was even more pronounced: the samples regained a quantifiable number of EGFP-positive cells only after 7 days of culturing following thawing. It is concluded that new protocols and media are required for freezing hESC and safe storage at -80 degrees C as well as studies of the mechanisms of stress-related events associated with cell cryopreservation.     

Viability and cell cycle analysis of equine fibroblasts cultured in vitro

This experiment aimed to study equine fibroblasts in culture analyzing and the cell cycle and viability of cells pre- and post-freezing. Skin fragments were obtained from 6 horses and cultured in DMEM high glucose + 10% FCS in 5% CO₂ until the beginning of confluence. Two passages were performed before freezing. Cells subjected to serum starvation (0.5% FCS) were analyzed for viability and cell cycle at 24, 48, 72, 96, 120, 144 and 168 h of culture. For the confluent groups, cells were analyzed at the moment they achieved confluence. Cellular viability was assisted with Hoescht 33342 and propidium iodide. The analysis of apoptosis/necrosis and cell cycle was performed using a flow cytometer (FACS Calibur BD^®) after staining the cells with annexin V and propidium iodide. Both optical microscopy and flow cytometry confirmed that cellular viability was similar for serum starvation and confluent groups (average 84%). Similarly, both methods were efficient to synchronize the cell cycle before freezing. However, after thawing, serum starvation, for more than 24 h, was superior to culture for synchronizing cells in G0/G1 (69% × 90%). The results of this experiment indicate that equine fibroblasts can be efficiently cultured after thawing.     

Evaluation of storage conditions for refrigerated rabbit skin

An evaluation of various refrigerated (4 °C) storage solutions and conditions was conducted using rabbit skin. Two in vitro methods to assay skin viability are presented: one which directly measures basal cell viability and one which assesses the skin's ability to grow in culture following storage. The superiority of storage in nutrient medium supplemented with fetal bovine serum over conventional storage in saline is clearly demonstrated. Storage in nutrient medium with 10% fetal calf serum resulted in basal cell viabilities which were over 30% higher than viabilities of skin stored by conventional methods in saline. Skin stored in saline failed to grow in culture, while 100% of the cultures of skin stored in medium plus fetal calf serum grew. Although addition of fetal calf serum to the saline improved the basal cell viability, growth in culture occurred only when the skin was stored in a capped tube. Skin stored in medium without serum gave viability results which were not significantly different from the unstored control, but growth rates in culture did differ significantly from the control values. Our study shows that the viability of rabbit skin and its ability to grow in vitro are depressed when the tissue is maintained at 4 °C in saline or in petri dishes, and optimal when refrigerated in nutrient medium supplemented with FBS in a sealed tube.     

A novel cell transfection platform based on laser optoporation mediated by Au nanostar layers

The recently developed laser‐induced cell transfection mediated by Au nanoparticles is a promising alternative to the well‐established lipid‐based transfection or to electroporation. Optoporation is based on the laser plasmonic heating of nanoparticles located near the cell membrane. However, the uncontrollable cell damage from intense laser pulses and from random attachment of nanoparticles may be crucial for transfection. We present a novel plasmonic optoporation technique that uses Au nanostar layers immobilized in culture microplate wells. HeLa cells were grown directly on Au nanostar layers, after which they were subjected to continuous‐wave 808 nm laser irradiation. An Au monolayer density ~15 μg/cm² and an absorbed energy of about 15 to 30 J were found to be optimal for optoporation. Propidium iodide molecules were used as model penetrating agent. The transfection efficiency evaluated using fluorescence microscopy for HeLa cells transfected with pGFP under optimized optoporation conditions (95% ± 5%) was similar to the efficiency of TurboFect. The technique's efficiency (295 ± 10 relative light units, RLU), demonstrated by transfecting HeLa cells with the pCMV‐GLuc 2 control plasmid, was greater than that obtained by transfection of HeLa cells with the TurboFect agent (220 ± 10 RLU). The cell viability in plasmonic optoporation (92% ± 7%), too, was greater than that in transfection with TurboFect (75% ± 7%).      

Flow cytometric discrimination of mitotic cells: resolution of M, as well as G1, S, and G2 phase nuclei with mithramycin, propidium iodide, and ethidium bromide after fixation with formaldehyde

Cells in mitosis can be flow cytometrically discriminated from G1, S, and G2 cells by analysis of a nuclear suspension prepared with nonionic detergent, fixed with formaldehyde, and stained with mithramycin, propidium iodide, or ethidium bromide. With these DNA-fluorochromes, the fluorescence is quenched by formaldehyde less in mitotic nuclei than in interphase nuclei. Mitotic nuclei have a 20-40% increased mithramycin fluorescence and 30-60% decreased light scatter in comparison to those of G2 nuclei. There is a high correlation (r = 0.95; P less than 0.001) between microscope counts of mitotic figures in smear preparations of the initial cell suspension and the flow cytometrically estimated fraction of nuclei with increased mithramycin fluorescence. Flow sorting (FACS) demonstrates that the mitotic nuclei are confined to the peak of increased mithramycin fluorescence and decreased light scatter. The method has been applied to cultures of Yoshida ascites tumor cells, JB-1 reticulosarcoma cells, and PHA-stimulated human lymphocytes, incubated in the presence or absence of vinblastine for mitotic arrest. In a heteroploid mixture of fixed Yoshida (near-diploid) and JB-1 (hypotetraploid) nuclei, the mitotic fractions of the two cell lines could be estimated separately when analyzed with mithramycin fluorescence versus light scatter or with mithramycin fluorescence versus propidium iodide fluorescence.     

Identification of media supplements that improve the viability of primarily cell cultures ofCrassostrea gigas oysters

Media supplements have been investigated for their influence on the viability of primary cell cultures from the heart ofCrassostrea gigas oysters. Soluble factors of vertebrate origin were tested, belonging to five families of supplements that had proven to increase the viability of insect and mammal cell cultures. Using two-level complete factorial assays, factors and mutual interactions were screened within each family with a MTT reduction assay. Results pointed out the positive influence of hormones, growth factor, antioxidants and lipids on the mitochondrial metabolism of oyter's heart cells. Consequently, a new concentrated complex supplement was developed. At 10% (v/v) final concentration in modified Leibovitz L-15 medium, it increases by 30% the cellular viability of one-week old cultures as compared with non-supplemented medium, a similar improvement as the one obtained with 10% (v/v) fetal calf serum. Combined with fetal calf serum, this new supplement doubles the cellular viability of one-week old cultures and allows networks of cardiomuscular cells to be maintained functional over three monthsin vitro.Abbreviations MTT-3 (4,5-dimethylthiazol;-2-yl)2,5-diphenyl-tetrazolium bromide - FCS fetal calf serum     

The different effects of type I and IV collagens on the survival and proliferation of cultured BSC-1 cells

The effects of type I and IV collagens on the survival and proliferation of cells were investigated to clarify a possible involvement of the substratum in the regulation of cell function. BSC-1 cells attached, spread and sustained their viability in the absence of calf serum on culture dishes coated with type IV collagen, but were unable to spread and survive on untreated culture dishes. The effects of adding type IV collagen in solution were similar to those of type IV coating. The fraction of the solution of type IV collagen with molecular mass of more than 100 kDa enhanced spreading and survival of cells, but the fraction of less than 100 kDa did not. Type I collagen did not support cell viability in the absence of calf serum. Moreover, coating of culture dishes with type I collagen, but not with type IV collagen, inhibited DNA synthesis and cell proliferation in the presence of calf serum. The cells grown on type I collagen were long, thin and spindle-shaped, and their stress fibers were not well developed, but the cells grown on type IV collagen, as well as those grown on untreated culture dishes, were polygonal in shape with well-developed stress fibers. These results indicate that the interactions of BSC-1 cells with the substratum, when it is derived from type I and IV collagens, differentially modulate the survival and proliferation of BSC-1 cells.     

Factors affecting cytotrophoblast cell viability and differentiation: Evidence of a link between syncytialisation and apoptosis

A relationship between cytotrophoblast differentiation (syncytialisation) and apoptosis is hypothesised to exist, but has not been clearly determined. To address this, we explored the effects of cAMP, an inducer of syncytialisation, on human choriocarcinoma cell differentiation and viability under three different culture conditions related to diverse survival status: no serum, 10% fetal calf serum or 10% charcoal-stripped fetal calf serum. 8-Br-cAMP increased BeWo cell viability in culture media without serum, but viability was decreased in a dose- and time-dependent manner when serum was present. The appearance of apoptotic nuclei fragments were only observed when BeWo cells were cultured in media containing serum combined with 8-Br-cAMP treatment. In addition, the ratio of FasL to Fas expression following treatment with 8-Br-cAMP increased by 20-fold in 10% charcoal-stripped fetal calf serum media and 65-fold 10% fetal calf serum media, and activation of caspase-3 also required media with serum. The markers of syncytialisation (syncytin 1 expression and human chorionic gonadotropin secretion) were induced significantly by 8-Br-cAMP, and were higher in 10% fetal calf serum media than in 10% charcoal-stripped fetal calf serum media, than in the absence of serum. Syncytia formation was stimulated by 8-Br-cAMP and this required serum in the media. We now show that factors contained within serum are necessary for cAMP-stimulated cytotrophoblast differentiation, that syncytialisation involves apoptotic events, and that a lack of serum based factors could switch the cellular program away from differentiation.     

Viability measurements of hybridoma cells in suspension cultures

Several methods were applied to determine the viability of hybridoma cells in suspension. These methods include dye inclusion and exclusion assays such as the classical trypan blue exclusion assay, the propidium iodide (PI) exclusion assay and the fluorescein diacetate (FDA) inclusion assay. Furthermore, the relation was studied between release of lactate dehydrogenase (LDH) by hybridoma cells and their viability. Also the ATP content of the cells and cellular heterogeneity as measured with a flow cytometer were determined in relation to cellular viability. The dye inclusion and exclusion assays using trypan blue, FDA, PI were shown to be useful methods to determine cellular viability. With the FDA and PI methods it was possible to obtain additional information about cells which are in a transition state between viable and non-viable. The viability according to the scatter properties of the cells appears to reflect the overall condition of the cells, although interpretation of the results is difficult. Measurement of LDH release in the culture fluid or the cytoplasmic ATP content could not be used as parameters for cell viability.     

Cell survival after cryopreservation of dissociated testicular cells from feline species

Testicular cell suspension (TCS) can be cryopreserved for male germ-line preservation and fertility restoration. We aimed to validate a cryopreservation protocol for TCS of domestic cat to be applied in endangered felids species. Testis tissue from adult domestic cats was enzymatically dissociated and spermatogenic cells were enriched. The resulting TCS was diluted in 7.5% or 15% Me2SO based medium. Slow and fast freezing methods were tested. We examined the effects of freezing approaches using two combinations of fluorescent dyes: Calcein-AM with Propidium iodide (C/PI) and SYBR14 with Propidium iodide (S/PI). Ploidy analysis of domestic cat fresh TCS revealed that the majority of testicular cells were haploid cells. Based on microscopic observation, two size populations (12.3 ± 2.3 μm and 20.5 ± 4 μm in diameter) were identified and presumed to be mainly spermatids and spermatocytes, respectively. Both evaluation methods proved higher viability of aggregated cells before and after cryopreservation compared with single cells, and superiority of low concentration of Me2SO (7.5%) in association with slow freezing to preserve viability of testicular cells. However, S/PI resulted in a more precise evaluation compared with the C/PI method. The combination of 7.5% Me2SO-based medium with slow freezing yielded post thaw viability of S/PI labeled aggregated (49.8 ± 20%) and single cells (31.5 ± 8.1%). Comparable results were achieved using testes of a Cheetah and an Asiatic golden cat. In conclusion, TCS from domestic cat can be successfully cryopreserved and has the potential to support fertility restoration of endangered felids species.     

Recombinant gamma-interferon stimulates iodide uptake and cyclic AMP production by the FTRL5 thyroid cell line

The effect of recombinant rat gamma-interferon (gamma-IFN) on iodide uptake and cAMP production by rat thyroid cells in vitro was studied using the continuously growing, functional FRTL5 cell line. Both functions were stimulated by gamma-IFN at concentrations of 1-10 U/ml. Iodide uptake was dependent on protein synthesis, since it was blocked by cycloheximide treatment, but was not dependent on growth factors in calf serum routinely used for FRTL5 cell culture. These results show that gamma-IFN can stimulate thyroid cell function as well as aberrant Ia expression in vitro.     

Characterization of cells isolated and cultured from human bone

Cells isolated from samples of human iliac crest and human femoral heads by collagenase digestion have been successfully cultured in Fitton-Jackson modified BGJb culture medium supplemented with penicillin (100 units/ml), streptomycin (100 micrograms/ml), and fetal calf serum (10%). Although only a low proportion of the cells survived the initial plating (less than 1%), cells established in culture were readily passaged. Examination of cells obtained at intervals during the collagenase digestion showed that the percentage of cells that attached increased with time of digestion. Rapid sample preparation of rat bone did not substantially increase the number of cells attaching. Thus, it seems unlikely that the low survival was due to loss of viability during sample transportation and preparation. Of several media tested BGJb supplemented with 10% fetal calf serum supported the best growth. Population doubling time averaged 104 hr. Cultured human bone cells were assayed for alkaline phosphatase activity using the azo dye method with naphthol ASTR phosphate as the substrate. A portion of the cells (19%) demonstrated high activity in all cultures examined regardless of the passage number of the culture. Autoradiography of cells exposed to [3H]thymidine showed incorporation of the label into both alkaline phosphate-positive and -negative cells. The stimulation of cell proliferation by growth factors was studied by determining the incorporation of [3H]thymidine into DNA. The specific skeletal growth factor from human bone stimulated cell proliferation several-fold with a half-maximal effect at 5 micrograms/ml. Insulin, epidermal growth factor, and a crude preparation of somatomedin C also stimulated cell proliferation.     

Use of hepatocytes in primary culture for biochemical studies on liver functions

Summary Rat parenchymal hepatocytes isolated with collagenase were cultured as monolayers in Williams medium E supplemented with calf serum. Freshly isolated cells showed very low activities of various liver functions, and they had to be cultured for 6-24 h to allow recovery of these functions. Insulin and dexamethasone greatly increased cell viability in primary culture. After culture for 24 h, these cells showed various liver functions as seen in vivo and responded well to various added hormones and amino acids. The concentrations of amino acids in the medium regulated synthesis of serum proteins and insulin stimulated lipogenesis, which in turn regulated synthesis of lipoproteins. Insulin also stimulated glycogen synthesis and the stimulation was parallel with the number of insulin receptors. Glucagon stimulated glycogenolysis and its stimulation involved the function of the cytoskeleton. Glucagon and dexamethasone induced various enzymes of amino acid catabolism, such as tryptophan oxygenase, tyrosine aminotransferase and serine dehydratase. These inductions were inhibited by insulin or catecholamine. The effect of catecholamine was due to its -adrenergic action. The -action of isoproterenol was low in freshly isolated cells, but increased during culture of the cells. Acquirement of hormonal responses during neonatal development can be studied in this culture system. Mature hepatocytes in culture are usually quiescent, but when insulin and epidermal growth factor were added, DNA synthesis by the cells increased markedly and they showed density-dependent growth. In this culture system, serum could be omitted for 2 days when the dishes were coated with fibronectin without appreciable change of functions, but serum was needed for longer culture of the cells. A factor that increased cell survival was found in serum and in pituitary gland.These results show that hepatocytes in primary culture are a simple and useful system for studies of liver functions in vitro and related works were also reviewed.     

Trehalose improves survival of electrotransfected mammalian cells.

BACKGROUND: Electropermeabilization is widely used for introduction of DNA and other foreign molecules into eukaryotic cells. However, conditions yielding the greatest molecule uptake and gene expression can result in low cell survival. In this study, we assessed the efficiency of trehalose for enhancing cell viability after excessive electropermeabilization. This disaccharide was chosen because of its capability of stabilizing cell membranes under various stressful conditions, such as dehydration and freezing. MATERIALS AND METHODS: Various mammalian cell lines were electropermeabilized by single exponentially decaying electric pulses of few kV/cm strength and of several-microsecond duration. Propidium iodide (PI) and a plasmid encoding green fluorescent protein (GFP), respectively, served as reporter molecules. The effects of trehalose on PI-uptake, GFP gene expression, transfection yield, and short- and long-term viability were analyzed by flow cytometry and electronic cell counting. RESULTS: The substitution of inositol by trehalose in pulse media protected cells against field-induced cell lysis. The protection effect saturated at about 40-50 mM trehalose. Transfection yield and gene expression were not significantly affected by trehalose. But the transfection efficiency was generally higher in the presence of trehalose, mainly because of the increased cell survival. CONCLUSIONS: We demonstrated that trehalose-substituted media are superior to standard trehalose-free pulse media for improving cell survival and achieving higher electrotransfection efficiency.     

Routine heat inactivation of serum reduces its capacity to promote cell attachment

Summary Heat inactivation (56°C for 40 min) of bovine calf serum was shown to diminish its capacity to promote the attachment of cells to plastic or glass surfaces. This effect was not observed in stationary cultures (culture dishes) but became manifest under conditions in which the cells were subjected to a small amount of liquid shear force, i.e. by growing cells in roller bottles or culture tubes. Of four cell lines tested on bovine calf serum (SV-BHK, BALB-3T3, CV-1, and FS-4) SV-BHK and CV-1 cells showed the greatest sensitivity to loss of attachment-promoting activity. Fetal bovine serum also seemed to be affected by heat inactivation but to a lesser degree than bovine calf serum. Treatment of vessel surfaces with either unheated calf serum or specific attachment factors (gelatin, poly-d-lysine, and fibronectin) greatly increased cell attachment in the presence of heat inactivated serum. Heat inactivation did not seem to affect the ability of cells to grow after attachment. Of the four cell lines tested, the normal human fibroblast line (FS-4) was shown to be most effective at conditioning medium and restoring its capacity to promote the attachment of all four cell lines. This research was supported in part by VECOL, Inc., Bogata, Columbia and by grant SRC 5 U24 RR02557-02 from the National Institutes of Health, Bethesda, MD.     

Flow cytometric investigation of heterogeneous copper-sensitivity in asynchronously grown Saccharomyces cerevisiae

The variable stress-sensitivity of individual cells within pure cultures is widely noted but generally unexplained. Here, factors determining the heterogeneous susceptibility to copper toxicity in Saccharomyces cerevisiae were examined with a rapid non-perturbing approach based on flow cytometry. By determination of the DNA content (with propidium iodide) in cell fractions gated by forward angle light scatter (an indicator of the cell volume), it was shown that forward angle light scatter measurements gave an approximation of the cell cycle stage. Thus, our observation that cells in different forward angle light scatter fractions displayed differing Cu-sensitivities indicated that heterogeneous Cu-sensitivity is a function of the cell cycle stage. Furthermore, cells sorted by their Cu-sensitivity and-resistance and subsequently analyzed for DNA content were found predominantly to occupy G1/S and G2/M cell cycle stages, respectively. The oxidant-sensitive probe 2',7'-dichlorodihydrofluorescein diacetate was used to show that the Cu-sensitivity of G2/M phase S. cerevisiae was correlated with greater levels of pre-existing reactive oxygen species in these cells. The results indicate that differential Cu-sensitivity in a S. cerevisiae culture is linked to the cell cycle stage and this link may be determined partly by cell cycle-dependent fluctuations in basal reactive oxygen species generation.