Development of liposome immunoassay for salmonella spp. using immunomagnetic separation and immunoliposome

The ability to detect Salmonella spp. is essential in the prevention of foodborne illness. This study examined a Salmonella spp. detection method involving the application of immunomagnetic separation and immunoliposomes (IMS/IL) encapsulating sulforhodamine B (SRB), a fluorescent dye. A quantitative assay was conducted by measuring the fluorescence intensity of SRB that was produced from an immunomagnetic bead-Salmonella spp.-immunoliposome complex. The results indicated detection limits of 2.7x10(5) and 5.2x10(3) CFU/ml for Salmonella enterica subsp. enterica serovar Enteritidis (S. Enteritidis) and Salmonella enterica subsp. enterica serovar Typhimurium (S. Typhimurium), respectivley. The signal/noise ratio was improved by using 4% skim milk as a wash solution rather than 2% BSA. In addition, higher fluorescence intensity was obtained by increasing the liposome size. Compared with the conventional plating method, which takes 3-4 days for the isolation and identification of Salmonella spp., the total assay time of 10 h only including 6 h of culture enrichment was necessary for the Salmonella detection by IMS/IL. These results indicate that the IMS/ IL has great potential as an alternative rapid method for Salmonella detection.     

A rapid fluorescent screening method for cellular sensitivity to anti-cancer compound

The tetrazolium salts (MTT, XTT, MTS, WST) based colorimetric assay or resazurin based fluorimetric assay are currently typical methods for cell sensitivity determination to anticancer compounds. We presented here a new rapid method for this purpose. This method uses a fluorescent dye named DCFH-DA which is previously taken as a intracellular probe for measurement of H(2)O(2) levels within a cell. The application basis for this method lies in two facts: the membrane permeable feature of the final metabolite of DCFH-DA inside a cell, and the linearity relationship between cell number and H(2)O(2) level. The results showed that there was a perfect association between cell number and fluorescent intensity determined by the DCFH-DA method, no matter whether using resuspended or adherent cells, and further 50% concentration of inhibition (IC(50)) comparison between data obtained by DCFH-DA method or MTT method using a positive known anticancer compound Baicalin showed that there were no significant differences in cellular sensitivity determination to compound Baicalin though there existed a relatively higher coefficient of variation of IC(50) by the DCFH-DA method than that by the MTT method. Thus our data indicate that DCFH-DA might not only be a fine reagent for determination of H(2)O(2) levels in cells but also an ideal fluorescent dye for cellular sensitivity test of anti-cancer compounds, and may be suitable for primary high-throughput drugs screening.     

抗肿瘤药物筛选中MTT法和SRB法的比较

在抗肿瘤药物的体外筛选中 ,MTT法和 SRB法是常用的两种方法。我们用MTT法和 SRB法分别测定 3种已知植物抗癌药对 2 2株人肿瘤细胞的抗癌活性 ,对这两种方法进行了详细的比较。通过分析两种方法测出的细胞存活率 ( T/ C)的差异分布和相关系数以及 IC50 的二变量分布 ,比较了两种方法测定结果的异同 ;通过两种方法重复测定 3种药物对 7株人癌细胞的抗癌活性 ,比较了两种方法的重复性 ;通过分析两种方法测定结果 T/ C值随时间变化的程度 ,比较了两种方法测定结果的稳定性。实验结果表明 :MTT法和 SRB法的相关性较好 ,都可用于抗肿瘤药物的体外筛选 ,SRB法更适合于大规模筛选 ,3种抗癌药物的测定结果与临床资料基本一致。     

Plasmodium falciparum: rapid quantification of parasitemia in fixed malaria cultures by flow cytometry

A rapid and sensitive method is described for the determination of parasitemia in Plasmodium falciparum cultures using the fluorescence activated cell sorter and DNA-binding fluorochrome, 33258 Hoechst. Conditions were selected to permit its application to the screening of assays with numerous samples. Parasites suspended in culture medium were mixed with an equal volume of aqueous fixative (10% w/v formaldehyde, 4% w/v D-glucose in Tris-saline pH 7.3), stained in a 20 microM final dye concentration, and analyzed with the cell sorter after dilution in Tris-saline. Centrifugation and washing steps were avoided throughout. Close correspondence was obtained between the estimated and actual parasitemia, and fluorescence intensities of infected erythrocytes permitted distinction between ring and schizont stages of the parasites. The ability to store, transport, or assay material rendered not infectious by fixation, and the relative simplicity of this technique are major improvements to methods described previously using living parasites. Reanalysis of fixed material permits reference standards to be used with each assay.     

Stereoselective determination of vigabatrin enantiomers in human plasma by high performance liquid chromatography using UV detection

A rapid and simple high-performance liquid chromatographic method for the determination of the R-(-)- and S-(+)-enantiomers of the antiepileptic drug vigabatrin in human plasma is described. After adding the internal standard (1-aminomethyl-cycloheptyl-acetic acid), plasma samples (200 microL) are deproteinized with acetonitrile and the supernatant is derivatized with 2,4,6 trinitrobenzene sulfonic acid (TNBSA). Separation is achieved on a reversed-phase cellulose-based chiral column (Chiralcel-ODR, 250 mm x 4.6 mm i.d.) using 0.05 M potassium hexafluorophosphate (pH 4.5)/acetonitrile/ethanol (50:40:10 vol/vol/vol) as mobile phase at a flow-rate of 0.9 mL/min. Chromatographic selectivity is improved by concentrating the derivatives on High Performance Extraction Disk Cartridges prior to injection. Detection is at 340 nm. Calibration curves are linear (r(2)> or =0.999) over the range of 0.5-40 microg/mL for each enantiomer, with a limit of quantification of 0.5 microg/mL for both analytes. The assay is suitable for therapeutic drug monitoring and for single-dose pharmacokinetic studies in man.     

Determination of cell concentration in a plant cell suspension using a fluorescence microplate reader

Microscopic counting of plant cells is a very tedious and time-consuming process and is therefore seldom used to evaluate plant cell number on a routine basis. This study describes a fast and simple method to evaluate cell concentration in a plant cell suspension using a fluorescence microplate reader. Eschscholtzia californica cells were fixed in a mix of methanol and acetic acid (3:1) and stained with a fluorescent DNA binding dye (Hoechst 33258). Readings were done in a fluorescence microplate reader at 360/465 nm. Specific binding of the dye to double-stranded DNA was significantly favored over unspecific binding when 1.0 M Tris buffer at pH 7.5 containing 1.0 M NaCl and 75 microg ml(-1) of Hoechst 33258 was used. Fluorescence readings must be done between 4 min and 12 min following the addition of the staining solution to the sample. The microplate counting method provides a convenient, rapid and sensitive procedure for determining the cell concentration in plant cell suspensions. The assay has a linear detection range from 0.2 x 10(6) cells to 10.0 x 10(6) cells per milliliter (actual concentration in the tested cell suspension). The time needed to perform the microplate counting was 10% of that needed for the microscopic enumeration. However, this microplate counting method can only be used on genetically stable cell lines and on asynchronous cell suspensions.     

Comparative study of membrane potential-sensitive fluorescent probes and their use in ion channel screening assays

In this study, the authors compared and evaluated 4 membrane potential probes in the same cellular assay: the oxonol dye DiBAC(4)(3), the FLIPR membrane potential (FMP) dye (Molecular Devices), and 2 novel fluorescence resonance energy transfer (FRET) dye systems from PanVera [CC2-DMPE/DiSBAC(2)(3)] and Axiom [DiSBAC(1)(3)/DiSBAC(1)(5)]. The kinetic parameters of each membrane probe were investigated in RBL-2H3 cells expressing an endogenous inward rectifier potassium channel (IRK1). The FMP dye presented the highest signal over background ratio whereas the FRET dyes from PanVera gave the fastest response. The determination of IC(50) values for 8 different channel modulators indicated a good correlation between the 4 membrane probe systems. The compound-dye interaction was evaluated in the presence of compounds at 10 muM and clearly indicated no effect on the FMP or the PanVera donor dye, whereas some major interference with the oxonol probes was observed. Using a cell permeabilization assay in the presence of gramicidin, the authors concluded that the FRET dyes from PanVera and the FMP dye are unable to measure the gramicidin-induced cell membrane hyperpolarizations. The 4 dye systems were investigated under high-throughput screening (HTS) conditions, and their respective Z' parameter was determined. The characteristics of each dye system and its potential use in HTS assays is discussed.     

Fluorescence microplate-based assay for tumor necrosis factor activity using SYTOX Green stain

We have developed a simple, sensitive, fluorescence microplate-based assay for tumor necrosis factor (TNF) biological activity. The assay employs SYTOX Green nucleic acid stain to detect TNF-induced cell necrosis in actinomycin D sensitized cultured cell lines. SYTOX Green stain is a cationic unsymmetrical cyanine dye that is excluded from live cells but can readily penetrate cells with compromised cell membranes. Upon binding to cellular nucleic acids, the dye exhibits a large enhancement in fluorescence, which is monitored at fluorescein wavelengths. We detected 2.5 pg/mL and quantitated 25-500 pg/mL recombinant murine (rm) and recombinant human (rh) TNF-alpha, using mouse fibroblast-derived WEHI 164, WEHI 13var, and L929 cell lines. The procedure can also be used to detect agents that modulate TNF activity. We demonstrated complete inhibition of rhTNF-alpha using monoclonal anti-human TNF-alpha antibody and determined that approximately 20 ng/mL antibody was sufficient to neutralize 50% of the biological activity of 250 pg/mL rhTNF-alpha in these cell lines. Reagents are added in a single step, followed by a 6- to 8-h incubation period, during which the cytokine exhibits its effects. There are no wash steps, and the assay is readily amenable to automation and high-throughput screening procedures.     

High-throughput microtiter assay for Hoechst 33342 dye uptake

Exclusion of Hoechst 33342 dye is a characteristic common to stem cells, as well as chemotherapy-resistant cancer cells. Normally, these dye-excluding cells can be sorted from enzymatically dissociated tissues with a UV cell sorter/flow cytometer. UV-flow cytometry can be expensive, time-consuming and not readily available to all laboratories. We have developed a simple, high-throughput 96-well microtiter plate assay by which cell populations can be quickly screened for Hoechst dye uptake and exclusion. The method is compatible with green-fluorescent EGFP expressing cells, often used in stem cell biology. Useful applications for this assay will be the rapid screening of clonal stem cell populations and tumor cells for Hoechst dye uptake.     

Microfluorometric Evaluation of Calcein Acetoxymethyl Ester as a Probe for P-Glycoprotein-Mediated Resistance: Effects of Cyclosporin A and Its Nonimmunosuppressive Analogue SDZ PSC 833

A microtiter plate-based fluorometric assay for functional measurement of 170-kDa P-glycoprotein (Pgp)-mediated transport using fluorescent calcein as a probe is described. The myeloma RPMI 8226 cell line and two of its doxorubicin-resistant Pgp-expressing sublines, dox40 (high expression) and dox6 (low expression), were used as models. Nonfluorescent calcein acetoxymethyl ester (calcein/AM) was added to the cells and subsequent accumulation of calcein was measured in a 96-well scanning fluorometer after 30 min. There was an inverse relationship between Pgp expression and calcein/AM accumulation, which increased dose-dependently in the presence of cyclosporin A (CsA) and the nonimmunosuppressive analogue SDZ PSC 833 (PSC) in the Pgp-expressing cell lines. PSC appeared to restore uptake more effectively than CsA at low concentrations. Calcein accumulation was also increased in Pgp-expressing cells by the addition of the Pgp substrate vincristine and the metabolic inhibitor potassium cyanide, KCN. No effect was observed in parental cell lines. When parental and dox40 cells were mixed, 10% of dox40 cells could reproducibly be detected. The results indicate that microtiter-plate determination of calcein accumulation is a simple and sensitive method for functional determination of Pgp-mediated drug transport. The method may become useful, not only for preclinical screening for novel and improved resistance modifiers, but also for determination of Pgp activity in individual clinical tumor samples.     

A Coomassie blue-binding assay for the microquantitation of immobilized proteins

A sensitive assay procedure for the determination of microgram quantities of immobilized proteins is described. The procedure is based on the property of Coomassie blue G-250 to bind strongly yet reversibly to proteins. The assay involves incubation of the immobilized protein with a solution containing 0.1% Coomassie blue, 10% acetic acid, and 25% isopropyl alcohol in distilled water at room temperature followed by washing off of the unbound dye. The protein-bound dye is eluted with methanolic NaOH, acidified, and the absorbance is measured at 605 nm. The assay is highly reproducible and several proteins immobilized on various matrices could be conveniently assayed. Protein values determined by the dye-binding assay showed good agreement with those obtained by other procedures.     

Measurement of free and total sialic acid by isotopic dilution liquid chromatography tandem mass spectrometry method

The measurement of urine sialic acid (N Acetylneuraminic Acid: Neu5Ac) is useful for screening sialic acid storage disorders. We developed a new LC MS/MS method for the determination of a sialic acid. Urine samples were analyzed, after an HCl n-Butanol derivatization step, by a reverse phase based high-performance liquid chromatography method using 1,2,3-(13)C(3) N-Acetyl-D-neuraminic Acid ((13)C-Neu5Ac) as an internal standard. Selective detection was performed by tandem mass spectrometry using an electrospray source operating in positive ionization mode employing multiple reactions monitoring to monitor N-Acetylneuraminic Acid and the internal standard. The transitions m/z 366→330 and 369→333 for Neu5Ac and (13)C-Neu5Ac were respectively monitored. The limit of the method quantification was 1.40 μM of N-Acetylneuraminic Acid and the calibration curve showed a good linearity up to 1000 μM. The within assay precision and accuracy of the method ranged from 3.22 to 5.95% and 98.69 to 109.18%, respectively and the between assay precision and accuracy ranged, respectively, from 5.15 to 7.65% and 96.14 to 102.30%. The method can be applied for the determination of N-Acetylneuraminic Acid concentrations in urine and other biological fluids (e.g., amniotic and peritoneal fluids).     

A rapid naphthol yellows method for measuring the cellular protein content of anchorage cultures

Summary A rapid method has been developed for measuring the cellular protein content of mono- and multilayered anchorage cultures. Fixed or air dried cultures are stained for 30 min with 0.2% Naphthol Yellow S (NYS) dissolved in 1% acetic acid. Unbound dye is removed by a series of four 2.5 min washes in 1% acetic acid, and protein-bound dye extracted with 10 mM unbuffered Tris base for spectrophotometric optical density determination at 433 nm. The NYS method exhibited a least-squares correlation coefficient of 0.99997 with the Oyama-Eagle Lowry method.     

Fluorescently labeled liposomes for monitoring cholera toxin binding to epithelial cells

Vibrio cholerae, the causative agent for cholera, expresses a toxin required for virulence consisting of two subunits: the pentameric cholera toxin B (CTB) and cholera toxin A (CTA). CTB is frequently used as an indicator of the presence of pathogenic V. cholerae and binds to the G_M1 ganglioside on the surface of epithelial cells. To study V. cholerae virulence (CTB expression) in the presence of human epithelia, we devised an inexpensive, simple, and rapid method for quantifying CTB bound on epithelial surfaces in microtiter plates. G_M1 ganglioside was incorporated into the lipid bilayer of liposomes both encapsulating the fluorescent dye sulforhodamine B (SRB) and with SRB tagged to lipids in the bilayer (BEGs). In addition, G_M1-embedded liposomes encapsulating SRB only (EGs) and with SRB in their bilayers only (BGs) were synthesized. The three types of liposomes were compared with respect to their efficacy for both visualizing and quantifying CTB attached to the surface of Caco-2 cells. The BEGs were the most effective overall, providing both visualization under a fluorescence microscope and quantification after lysis in a microtiter plate reader. A limit of detection corresponding to 0.28 μg/ml applied CTB was attained for the on-cell assay using the microtiter plate reader approach, whereas as low as 2 μg/ml applied CTB could be observed under the fluorescence microscope.     

Sulfate-reducing bacteria in littoral sediment of Lake Constance

Abstract The viable population of sulfate-reducing bacteria (SRB) in littoral sediments of Lake Constance was investigated using enrichment and enumeration techniques. Enrichment studies established that most types of SRB grew best in media with low salt concentrations (max. 0.4 g Cl⁻/1), consistent with the low salinity of the freshwater habitat. Enumerations were based on an adequate medium with the following electron donors: H₂, lactate, acetate, propionate, butyrate, caprylate, succinate, benzoate, or S₂O₃²⁻ for thiosulfate-disproportionating bacteria. Cultures were incubated for 6 weeks to obtain maximum counts. A maximum cell density of 6.3 × 10⁶ cells per ml sediment was estimated, which is the highest number of SRB ever reported for anoxic sediments. A comparison with measured sulfate reduction rates showed that the enumeration techniques were about 10–100-fold more efficient than those previously used. The population of SRB had a characteristic structure consisting of 87.7% H₂-utilizing SRB (physiologically resembling the classical Desulfovibrio species); 12.0% propionate utilizers (tentatively identified as Desulfobulbus species); 0.3% long chain fatty acid-oxidizing Desulfovibrio sapovorans species. Acetate-utilizing SRB ( Desulfotomaculum acetoxidans ) constituted ≤ 0.05% of the total estimated population. Moreover, the latter species was only present as inactive spores. Benzoate-degrading SRB were not detected.     

Development of a short-term assay based on the evaluation of the plasma membrane integrity of the alga Pseudokirchneriella subcapitata

Membrane integrity has been used as a criterion for the definition of cell viability. In the present work, staining conditions (time and dye concentration) for the evaluation of membrane integrity in a fluorescence microplate reader, using the membrane-impermeant nucleic-acid dye SYTOX Green, were optimized. Incubating Pseudokirchneriella subcapitata algal cells with 0.5?μmol/l SYTOX Green for 40?min allowed a clear discrimination between live (intact plasma membrane) and dead cells (with compromised plasma membrane). Algal cell suspensions, labelled with SYTOX Green, exhibited a green fluorescence proportional to the fraction of the cells with a permeabilized plasma membrane. The optimized staining conditions were used to assess the toxicity of 1-pentanol on P. subcapitata in a short-term exposure (6?h) assay. The loss of membrane integrity in the cell population increased with the concentration of 1-pentanol. The 6-h EC(10) and EC(50) values were 7,617?mg/l 1-pentanol (95?% confidence limits 4,670-9,327) and 12,818?mg/l 1-pentanol (95?% confidence limits 10,929-15,183), respectively. The developed microplate-based short-term assay can be useful in the high-throughput screening of toxics or environmental samples using the alga P. subcapitata.     

A micro-method for quantitative determination of acylneuraminic acids from erythrocyte membranes.

A micro-method is presented which enables the fast and exact determination of acid-hydrolyzed acylneuraminic acids in erythrocyte membranes. Erythrocytes from 1 ml of human and rabbit blood containing ACD buffer are, washed and hemolyzed on Millipore filters of pore size 1.2 mu. Acylneuraminic acids are released from the erythrocyte membranes still on the filters under the optimal conditions of 0.1 N HCl at 80 degrees C for 50 min. A prerequisite for the determination of the true amount of acylneuraminic acids using the periodic acid/thiobarbituric acid assay is the small-scale extraction of lipids from the hydrolysate and anion-exchange chromatography of acylneuraminic acids. The values thus obtained must be corrected, as 20% of acylneuraminic acids are destroyed during acid hydrolysis. In samples of human blood from 10 healthy individuals, on an average 223 nmol acylneuraminic acids per ml of packed erythrocytes were found, and in the same amount of rabbit erythrocytes, 1e method for a screening of the acylneuraminic acid content of erythrocyte membranes in hemolytic diseases or of other cell membranes is discussed.     

Fluorescence-based viability assay for studies of reactive drug intermediates

Studies of drug toxicity, toxicologic structure-function relationships, screening of idiosyncratic drug reactions, and a variety of cytotoxic events and cellular functions in immunology and cell biology require the sensitive and rapid processing of often large numbers of cell samples. This report describes the development of a high-sensitivity, high-throughput viability assay based on (a) the carboxyfluorescein derivative 2'-7'-biscarboxyethyl-5(6)-carboxyfluorescein (BCECF) as a vital dye, (b) instrumentation capable of processing multiple small (less than 100 cells) samples, and (c) a 96-well unidirectional vacuum filtration plate. Double staining of cultured peripheral blood mononuclear cells with BCECF and propidium iodide (PI) showed no overlap between PI+ (nonviable) and BCECF+ (viable) cells by flow cytometric analysis. Optimal conditions were developed for dye loading and minimizing physical cell damage and fluorescence quench during the assay procedure. The ratio of BCECF fluorescence to internal standard fluorescent particles was linear from 40 to greater than 20,000 cells with a signal:noise ratio of approximately 3 at 40 cells/well. Sulfamethoxazole hydroxylamine (SMX-HA) was used as a model toxic drug metabolite to explore the validity of the BCECF procedure. SMX-HA, but not its parent compound sulfamethoxazole, resulted in a dose dependent loss of cellular fluorescence and the parallel accumulation of PI+ nonviable cells. When compared to the currently used tetrazolium dye reduction viability assay, the BCECF method was 3-fold more sensitive, greater than 10-fold faster, and required 1/10-1/100 the cell numbers.     

A flow-cytometric method for determination of yeast viability and cell number in a brewery

A flow-cytometric assay, using the fluorescent dye, oxonol, for the simultaneous determination of yeast cell viability and cell number is described. The assay was optimised, and trialed at a brewery for 6 months. The flow-cytometry assay offered a substantially reduced error in viability determination, compared to methylene blue which is the industry standard for measuring viability. Further, by calculating yeast cell number at the same time, this assay provides a reliable method for determining pitching rate, allowing increased quality control of subsequent fermentations.     

Lipoteichoic Acid Localization in Mesosomal Vesicles of Staphylococcus aureus

Mesosomal vesicles and plasma membranes of Staphylococcus aureus ATCC 6538P have been prepared and examined for the presence of lipoteichoic acid. Lipids were first removed by treatment with pyridine-acetic acid-butanol (22:31:100, vol/vol/vol) and chloroform-methanol (2:1, vol/vol). Subsequently, lipoteichoic acid was removed with 40% phenol in water. The lipoteichoic acid from mesosomal vesicles was characterized by (i) equimolar glycerol and phosphate, (ii) alanine upon hydrolysis (2 N NH₄OH, 18 h, 22 C), and (iii) fatty acids, diglycerol triphosphate, glycerol monophosphate, and glycerol diphosphate upon alkaline hydrolysis (1 N NaOH, 3h, 100 C). The plasma membranes contained no lipoteichoic acid. The presence in mesosomal vesicles of 18% of the dry weight as lipoteichoic acid and its absence from plasma membranes provide the first major chemical differences between these organelles. A study of the lipoteichoic acid content in various fractions of the cell showed that the mesosomal vesicles were the major and probably the sole site for the localization of the lipoteichoic acid in these organisms. A new method for the preparation of mesosomes in increased yields is reported. A theory for the control of cell division involving lipoteichoic acid and the mesosome is proposed.