The reduction of Alamar Blue by peripheral blood lymphocytes and isolated mitochondria

Alamar Blue is a widely used nontoxic indicator of cell proliferative activity, which penetrates quickly through the biological membranes and can be easily reduced by intracellular enzymes. Accumulation of reduced fluorescent form of Alamar Blue during short-term culture of human peripheral blood lymphocytes may be used as a cell viability test since it was prevented by disruption of plasma membrane by digitonin. The inhibition of Alamar Blue reduction by NaN3 indicates that its metabolism is associated with mitochondrial activity. A compaative study of Alamar Blue reduction and oxygen consumption on isolated rat liver mitochondria shows, that the Alamar Blue reduction is not associated with the activity of specific complex of respiratory chain and it seems to be an integral indicator of oxidation-reduction activity of respiratory chain components.     

GTSF-2: A new, versatile cell culture medium for diverse normal and transformed mammalian cells

Summary The aim of this study was to test the versatility of a new basal cell culture medium, GTSF-2. In addition to traditional growth-factors, GTSF-2 contains a blend of three sugars (glucose, galactose, and fructose) at their physiological levels. For these studies, we isolated normal endothelial cells from human, bovine, and rat large blood vessels and microvessels. In addition, GTSF-2 was also tested as a replacement for high-glucose-containing medium for PC12 pheochromocytoma cells and for other, transformed cell lines. The cell growth characteristics were assessed with a novel cell viability and proliferation assay, which is based on the bioreduction of the fluorescent dye, Alamar Blue. After appropriate calibration, the Alamar Blue assay was found to be equivalent to established cell proliferation assays. Alamar Blue offers the advantage that cell proliferation can be measured in the same wells over an extended period of time. For some of the cell types (e.g., endothelial cells isolated from the bovine aorta, the rat adrenal medulla, or the transformed cells), proliferation in unmodified GTSF-2 was equivalent to that in the original culture media. For others cell types (e.g., human umbilical vein endothelial cells and PC12 cells), GTSF-2 proved to be a superior growth medium, when supplemented with simple additives, such as endothelial cell growth supplement (bFGF) or horse serum. Our results suggest that GTSF-2 is a versatile basal medium that will be useful for studying organ-specific differentiation in heterotypic coculture studies.     

Effect of corticosteroids on viability and proliferation of the rainbow trout monocyte/macrophage cell line,RTS11

Cortisol at 1,000 and 100 ng/ml, and less consistently at 10 ng/ml, inhibited increases in cell number and 3H-thymidine incorporation by cultures of the rainbow trout (Oncorhynchus mykiss) monocyte/macrophage cell line, RTS11. Cell viability was not altered by cortisol, although a small decline in the capacity of cultures to reduce the redox dye, Alamar Blue was observed. In cortisol-treated cultures, more round and fewer spread cells were evident. Similar results were observed with dexamethasone but not cortisone. The glucocorticoid receptor antagonist, RU-486, prevented the effects of cortisol on RTS11 proliferation, and shape. In co-culture with the spleen stroma cell line (RTS34st) or in medium conditioned by RTS34st, the proliferation of RTS11 was enhanced. Treating RTS11/RTS34st co-cultures or RTS11 cultures in RTS34st conditioned medium with cortisol did not inhibit RTS11 proliferation. Overall these experiments suggest that proliferation of rainbow trout macrophages is regulated by cortisol, but the effect is modulated by the cellular micro-environment, possibly through the release of cytokines.     

Evaluation of a porcine lens and fluorescence assay approach for in vitro ocular toxicological investigations

Cell biology, as monitored with the fluorescent indicator dyes Alamar Blue and 5-carboxyfluorescein diacetate acetoxymethyl ester (CFDA-AM), and lens optical quality, as measured with an in vitro scanning laser system, have been used to evaluate in vitro the condition of porcine lenses after being placed in a culture medium. The measurements, beginning from week one of culture, were compared statistically. Optical quality and cellular viability, as measured with either dye, were unchanged in lenses that had been maintained for 6 weeks in modified M199 medium. Some lenses were treated with 0.152J/cm(2) UVB radiation, and a decline was observed after 48 hours in both optical and metabolic capabilities, as indicated by a decreased capacity of the lenses to reduce Alamar Blue. The measurements with CFDA-AM did not show complete concordance with the other indicators of lens health after UV treatment, making this dye less reliable as applied currently to lens cultures. Overall, the findings suggest that porcine lenses can be maintained for weeks in culture, and that their condition can be evaluated quantitatively by assays that probe cellular functions and optical properties. Such a system should prove valuable for in vitro ocular pharmacotoxicological research.     

An improved resazurin-based cytotoxicity assay for hepatic cells

A simple resazurin-based cytotoxicity assay is presented for screening of cytotoxicity in hepatocytes and liver cell lines. Human hepatoma (HepG2) cells in 96-well culture plates were exposed to known toxic (cisplatin, 5-fluorouracil, ethionine, flufenamic acid, and diflunisal) and control (transplatin, 5-chlorouracil, methionine, and acetylsalicylic acid) compounds for 1–3 days, and resazurin (5 μmol/L) was added. A conventional short-term (1 h) assay was first performed, where cytotoxicity is indicated by decreased reduction of resazurin to its fluorescent product resorufin. Our improved assay consists of additionally measuring fluorescence 2–4 days later, when cytotoxicity is indicated by a striking increase in the concentration of resorufin, resulting from two distinct processes. First, viable liver-derived cells slowly convert resorufin to nonfluorescent metabolites. Fluorescence of control cell wells decreased to background during a 2- to 4-day exposure to resazurin. This metabolism of resorufin was largely blocked by dicumarol and to lesser extents by disulfiram and SKF525a. Second, dead or dying cells slowly convert resazurin to resorufin but do not further metabolize resorufin; thus this fluorescent metabolite accumulates to high levels in wells with dead cells by 2 to 4 days. A similar increase in fluorescence associated with cytotoxicity was observed in primary cultures of rat hepatocytes using the long-term resazurin-based assay. In addition to an improved signal relative to the short-term assay, the inversion of the fluorescent signal from high = alive short-term to high = dead long-term allows determination of two independent cytotoxicity endpoints after addition of one innocuous vital dye. This revised version was published online in July 2006 with corrections to the Cover Date.     

A simple colorimetric method to screen drug cytotoxicity against Leishmania using the dye Alamar Blue

A quantitative colorimetric assay using the oxidation-reduction indicator Alamar Blue was developed to measure cytotoxicity of compounds against the protozoan parasite Leishmania. Absorbance increased linearly with the plating density of promastigotes of L. major MRHO/IR/76 vaccine strain up to at least 2.5 x 10(6) cells/ml when parasites were incubated for 72 h in the presence of 10% Alamar Blue. The 50% effective dose values of common drugs (amphotericin B, pentostam and paromomycin) obtained by this assay were in the same range as previously determined by other methods. The Alamar Blue assay permits a simple, reproducible and reliable method for screening antileishmanial drugs.     

Plasmodium-infected blood cells analyzed and sorted by flow fluorimetry with the deoxyribonucleic acid binding dye 33258 Hoechst.

Red cells from Plasmodium berghei infected mouse blood can be sorted on the basis of their DNA content with the bisbenzimidazole dye 33258 Hoechst. The optimal conditions for dye uptake have been established and with these conditions uninfected cells are nonfluorescent and can be completely separated from infected cells which exhibit fluorescence in almost direct proportion to the number of parasite nuclei (i.e. DNA) they contain. The number of fluorescent cells detected and their fluorescence intensity is shown to be dependent on the dye concentration and the incubation medium being used. At least a proportion of the infected cells sorted from each fluorescence peak in the cell distribution retain their infectivity in vivo with some, but not all, conditions of labeling. This technique is being used to separate minor cell populations from infected blood for biochemical and immunochemical analyses and to screen human samples for malaria infected cells.     

Propidium iodide-based methods for monitoring drug action in the kinetoplastidae: comparison with the Alamar Blue assay

The urgent need for new drug development for African trypanosomiasis is widely recognized. This requires reliable and informative high-throughput assays. Currently, drug action is determined with a fluorimetric/colorimetric assay based on the metabolism of the dye Alamar Blue (resazurin) by live cells. However, this assay does not easily distinguish between cell death and growth arrest, or supply information about the rate at which test compounds affect these parameters. We report here an alternative fluorimetric assay, based on the interaction of propidium iodide with DNA, that allows either real-time monitoring of cell viability or the generation of EC₅₀ values at a predetermined time-point. The assay is highly sensitive and fluorescence readings easily correlate to numbers of parasites or DNA content. The EC₅₀ values were highly similar to those obtained with the standard Alamar Blue assay. The procedure lends itself readily to applications in drug development or resistance monitoring.     

A high density assay format for the detection of novel cytotoxic agents in large chemical libraries

In response to the need for inexpensive high throughput assays for anti-cancer drug screening, a 1536-well microtiter plate based assay utilizing the Alamar Blue fluorescent dye as a measure of cellular growth was validated in 10 μL assay volume. Its robustness was assessed in a screen against a library of 2000 known bioactives; with an overall Z′ value of 0.89 for assay robustness, several known cytotoxic agents were identified including and not limited to anthracyclines, cardiac glycosides, gamboges, and quinones. To further test the sensitivity of the assay, IC₅₀ determinations were performed in both 384-well and 1536-well formats and the obtained results show a very good correlation between the two density formats. These findings demonstrate that this newly developed assay is simple to set up, robust, highly sensitive and inexpensive. It could potentially provide a rapid way to screen established and primary tumor cell lines against large chemical libraries.     

A high density assay format for the detection of novel cytotoxic agents in large chemical libraries

In response to the need for inexpensive high throughput assays for anti-cancer drug screening, a 1536-well microtiter plate based assay utilizing the Alamar Blue fluorescent dye as a measure of cellular growth was validated in 10 microL assay volume. Its robustness was assessed in a screen against a library of 2000 known bioactives; with an overall Z' value of 0.89 for assay robustness, several known cytotoxic agents were identified including and not limited to anthracyclines, cardiac glycosides, gamboges, and quinones. To further test the sensitivity of the assay, IC50 determinations were performed in both 384-well and 1536-well formats and the obtained results show a very good correlation between the two density formats. These findings demonstrate that this newly developed assay is simple to set up, robust, highly sensitive and inexpensive. It could potentially provide a rapid way to screen established and primary tumor cell lines against large chemical libraries.     

Determination of interleukin 2 activity by a new fluorometric method

Summary Interleukin 2 activity is usually determined by a proliferation assay using an IL-2-dependent cell line. Tritiated thymidine incorporation during DNA synthesis is a suitable method for this purpose, but its main drawback is the use of radioactive isotopes. We describe the use of Alamar Blue, a new fluorogenic growth indicator, for the measurement of interleukin 2 activity in microtitration plates. This assay is sensitive and economical. The lower limit of detection is about 400 cells per well with an intra-assay coefficient of variation of about 5 percent.     

小鼠可溶性PD1的克隆、真核表达及生物学活性检测

旨在克隆小鼠PD1胞外区(简称mPD-1)基因,利用真核表达系统表达有活性的分泌型mPD-1蛋白,初步研究其生物学活性。克隆mPD-1基因,将其连入pcDNA3.1(+)/Fc中获得pcDNA3.1(+)-Fc/mPD-1重组表达质粒,转化至大肠杆菌DH5α,进行PCR和双酶切鉴定,并送测序。将阳性质粒转染L929细胞,利用RT-PCR和Western blotting方法鉴定mPD-1/L929稳定表达株。利用Alamar Blue法检测分泌的mPD-l蛋白对淋巴细胞增殖的影响,评价其生物学活性。结果显示,成功构建重组质粒pcDNA3.1(+)-Fc/mPD-1,转染了pcDNA3.1(+)-Fc/mPD-1的L929细胞可将mPD-l蛋白分泌至胞外。A lamar Blue检测结果显示,真核细胞分泌的mPD-1蛋白作用于混合淋巴细胞,与阴性对照相比,可明显促进淋巴细胞的增殖。本试验成功地克隆mPD-1胞外区蛋白,并在L929细胞中得到了分泌型表达。分泌的重组蛋白可有效促进淋巴细胞增殖,为进一步研究其功能和临床应用提供了条件。     

A test of granulocyte membrane integrity and phagocytic function.

An assay of granulocyte viability has been developed which yields information about rwo important cell parameters, cell membrane integrity and phagocytic activity. The assay is based on the fact that only live cells can accumulate fluorescein, which is enzymatically split from the nonfluorescent substrate fluorescein diacetate. Dead cells, on the other hand, become permeable to the fluorescent red dye ethidium bromide. When cells are exposed first to opsonized zymosan particles, which they can phagocytize, then to a combination of these fluorescent dyes, one can distinguish microscopically between dead cells with fluorescent red nuclei, live cells which fluoresce green, and live cells with phagocytic function which are swollen with the pink zymosan particles in a green fluorescing cytoplasm. This assay takes 20--30 min and can be used to distinguish different degrees of cellular damage after cryopreservation.     

The influence of static magnetic fields on canine and equine mesenchymal stem cells derived from adipose tissue

The aim of this study was to evaluate the proliferation rate and morphological changes of adipose-derived mesenchymal stem cells of canine and equine origin (Eq- and CaAdMSC). Investigated cells were exposed to a static magnetic field (MF) with the intensity of 0.5 T. Proliferation activity of cells was determined with the Alamar Blue assay. Obtained results, normalized in respect to the control culture, showed that EqAdMSC exposed to MF maintained a high proliferation status, whereas proliferation activity of CaAdMSC cultured in the presence of MF was decreased. Estimations of population doubling time (PDT) also revealed that EqAdMSCs exposed to static MF achieved a twofold increase in the total number of cells in a shorter amount of time than the control culture. The PDT value obtained for investigated CaAdMSCs indicated that MF exposure resulted in the prolongation of population doubling time. Morphology of cells and cellular composition was investigated using a light inverted microscope and a fluorescent microscope. A scanning electron microscope was used for microvesicles (MVs) imaging. Obtained results showed that both cell types maintained fibroblastic morphology and did not reveal signs of apoptosis or necrosis. However, the MF had an influence on the MVs secretion. While EqAdMSCs propagated in the presence of MF were characterized by the abundant MVs presence, CaAdMSCs revealed poor secretory activity. The approach presented provides complex analysis, which enables one to determine changes in equine and canine cytophysiology.     

Optimized fluorescent probe combinations for evaluation of proliferation and necrosis in anthracycline-treated leukaemic cell lines

Proliferation and multidrug resistance status are key predictors of therapeutic outcome in acute myeloid leukaemia (AML). Anthracyclines such as daunorubicin (DNR) are typically used to treat AML and can induce drug resistance. The goal of the studies described here was to select a combination of fluorescent probes that could be used in combination with flow cytometry to monitor cell proliferation vs. cell death/necrosis as a function of anthracycline uptake. Propidium iodide (PI), the most commonly used marker of membrane integrity, cannot be used to evaluate necrosis in DNR-containing cells because of spectral overlap. A membrane integrity probe compatible with the use of a dye dilution method using PKH67 to study cell proliferation was also selected. The results show that DAPI and Cascade Blue (CB), like PI, were able to detect necrotic cells when no DNR was present, although CB gave less resolution between viable and necrotic cells than PI or DAPI. In the presence of DNR, DAPI cannot be used owing to the fluorescence quenching by DNR. However, it was found that a combination of DNR, CB, and PKH67 allows simultaneous identification of chemoresistant cells, based on reduced DNR accumulation, necrotic cells based on CB incorporation, and proliferating cells based on partitioning of PKH67 fluorescence between daughter cells. It was also found that unless a marker of necrosis is used in combination with the dye dilution assay, a moderate decrease of fluorescence as a result of necrosis may be incorrectly interpreted as proliferation.     

A single-cell assay of beta-galactosidase in recombinant Escherichia coli using flow cytometry

A flow cytometric method was developed for the assay of beta-galactosidase in single Escherichia coli cells. A new fluorogenic substrate for beta-galactosidase, C(12)FDG, contains a lipophilic group that allows the substrate to penetrate through cell membranes under normal conditions. When the substrate is hydrolyzed by intracellular beta-galactosidase, a green fluorescent product is formed and retained inside the cell. Consequently, the stained beta-galactosidase-positive cells exhibit fluorescence, which is detected by flow cytometry. This new assay was used to analyze the segregational instability caused by a reduction in specific growth rate of the plasmid-bearing cells in the T7 expression system. Induction results in a substantial accumulation of intracellular beta-galactosidase along with a rapid increase in the fraction of plasmid-free cells. Once the cells lose the plasmid, they no longer produce beta-galactosidase, which is reduced by at least half every generation; thus, after staining, the fluorescent, plasmid-bearing cells can be distinguished from the nonfluorescent, plasmid-free cells using flow cytometry. This article describes the feasibility of the flow cytometric assay for single E. coli cells and reports the optimal assay conditions. A direct relationship between beta-galactosidase activity and green fluorescence intensity was found, and the fractions of recombinant cells in batch cultures were analyzed after various levels of induction.     

Cellular stress induced by resazurin leads to autophagy and cell death via production of reactive oxygen species and mitochondrial impairment

Mitochondrial bioenergetics and reactive oxygen species (ROS) often play important roles in cellular stress mechanisms. In this study we investigated how these factors are involved in the stress response triggered by resazurin (Alamar Blue) in cultured cancer cells. Resazurin is a redox reactive compound widely used as reporter agent in assays of cell biology (e.g. cell viability and metabolic activity) due to its colorimetric and fluorimetric properties. In order to investigate resazurin‐induced stress mechanisms we employed cells affording different metabolic and regulatory phenotypes. In HL‐60 and Jurkat leukemia cells resazurin caused mitochondrial disintegration, respiratory dysfunction, reduced proliferation, and cell death. These effects were preceded by a burst of ROS, especially in HL‐60 cells which were also more sensitive and contained autophagic vesicles. Studies in Rho⁰ cells (devoid of mitochondrial DNA) indicated that the stress response does not depend on the rates of mitochondrial respiration. The anti‐proliferative effect of resazurin was confirmed in native acute myelogenous leukemia (AML) blasts. In conclusion, the data suggest that resazurin triggers cellular ROS production and thereby initiates a stress response leading to mitochondrial dysfunction, reduced proliferation, autophagy, and cell degradation. The ability of cells to tolerate this type of stress may be important in toxicity and chemoresistance. J. Cell. Biochem. 111: 574–584, 2010. © 2010 Wiley‐Liss, Inc.     

Evaluation of anionic histological dyes as co-injectable cell markers in pre-implantation mouse embryos

The enzyme horseradish peroxidase (HRP) is a widely used microinjectable cell marker for studying cell position, lineage, and migration in many kinds of animal embryos. Marked cells are easily identified because they darken when exposed to a chromophore and an HRP substrate such as hydrogen peroxide. This assay, however, requires cytochemical fixation. Thus, when HRP-marked cells need to be identified prior to fixation, visible co-injectants such as dyes and fluorescent substances have been used with HRP. Fluorescent substances have limitations because their excitation could be harmful to the marked cells. Visible but non-fluorescent co-injectants, however, would permit visualization of HRP-marked cells without inflicting such damage. We tested the compatibility of several histological dyes and electrolytic carriers with HRP iontophoresed as a cell marker in 2-cell mouse embryos. The dyes tested were Evans Blue, Cibacron Blue F3GA, Fast Green FCF, and Patent Blue Violet; the electrolytic carriers were KCl, K2SO4, CH3CO2K, and KH2PO4. The combination found most useful was Patent Blue Violet in K2SO4. Survival of embryos incubated to the blastocyst stage following injection with HRP + Patent Blue Violet in K2SO4 at the 2-cell stage was significantly greater than that of embryos injected with any other dye. Although the proportion of embryos undergoing the 8-cell-to-morula transition was somewhat decreased by this treatment, the proportion of embryos reaching the blastocyst stage was comparable to that in the uninjected (control) group. Our results indicate that Patent Blue Violet is a useful, HRP-co-injectable dye for short-term cell marking in preimplantation mouse embryos.     

Estimating viability of plant protoplasts using double and single staining

Summary The utility of numerous dyes for determining the viability of barley (Hordeum vulgare L. cv. Himalaya) aleurone protoplasts was studied. Protoplasts isolated from the barley aleurone layer synthesize and secrete -amylase isozymes in response to treatment with gibberellic acid (GA) and Ca²⁺. These cells also undergo dramatic morphological changes which eventually result in cell death. To monitor the viability of protoplasts during incubation in GA and Ca²⁺, several types of fluorescent and nonfluorescent dyes were tested. Evans blue and methylene blue were selected as nonfluorescent dyes. Living cells exclude Evans blue, but dead cells and cell debris stain blue. Both living and dead cells take up methylene blue, but living cells reduce the dye to its colorless form whereas dead cells and cell debris stain blue. The relatively low extinction coefficient of these dyes sometimes makes it difficult to distinguish blue-stained cells against a background of blue dye. Several types of fluorescent dyes were tested for their ability to differentially stain dead or living cells. Tinopal CBS-X, for example, stains only dead cells, and its high extinction coefficient allows its ultraviolet fluorescence to be recorded even when preparations are simultaneously illuminated with visible light. To double-stain protoplasts, the most effective stain was a combination of fluorescein diacetate (FDA) and propidium iodide (PI). By employing a double-exposure method to record the fluorescence from cells stained with both FDA and PI, dead and living cells could be distinguished on the basis of fluorochromasia.     

Magnetic beads (Dynabead™) toxicity to endothelial cells at high bead concentration: Implication for tissue engineering of vascular prosthesis

Magnetic beads (Dynabeads) have been used for the purification of endothelial cells. One application for this procedure may be for single-stage seeding of bypass grafts. The number of endothelial cells (EC) isolated is crucial and therefore to increase the number of cells extracted, a higher number of Dynabeads per cell may need to be used. The effect of large numbers of CD31 Dynabeads on cell proliferation/metabolism is unknown. We undertook this study using CD31-coated Dynabeads and EC from human umbilical vein. EC were coated at concentrations of 4, 10, or 50 beads per cell. The cells were cultured for 6 days with control being normal EC. Cellular proliferation was assessed by trypsinization of cells and metabolism assessed with an Alamar blue viability assay. In a further experiment a compliant polyurethane graft was single-stage seeded with both coated Dynabeads and normal EC. The results showed that using a higher number of beads per cell resulted in a reduction in cell proliferation and a reduction in cell metabolism. The total number of Dynabeads-coated cells in culture compared to controls (%) by day 6 were 30.7 +/- 2.56, 41.3 +/- 9.8 and 59.2 +/- 7.3 for 50, 10, and 4 beads per cell, respectively. The corresponding results for Alamar blue were 43.7 +/- 1.2, 61.8 +/- 1.4, and 72.1 +/- 4.3. The seeded grafts showed reduced metabolism with the Dynabeads-coated EC. In conclusion, high numbers of beads per cell have a late detrimental effect on cell proliferation and metabolism. Therefore for single-stage seeding lower numbers of Dynabeads will need to be used with resultant reduction in the number of available EC.