Development and Use of Flow Cytometry for Detection of Airborne Fungi

Traditional methods for the enumeration of airborne fungi are slow, tedious, and rather imprecise. In this study, the possibility of using flow cytometry (FCM) for the assessment of exposure to the fungus aerosol was evaluated. Epifluorescence microscopy direct counting was adopted as the standard for comparison. Setting up of the method was achieved with pure suspensions of Aspergillus fumigatus and Penicillium brevicompactum conidia at different concentrations, and then analyses were extended to field samples collected by an impinger device. Detection and quantification of airborne fungi by FCM was obtained combining light scatter and propidium iodide red fluorescence parameters. Since inorganic debris are unstainable with propidium iodide, the biotic component could be recognized, whereas the preanalysis of pure conidia suspensions of some species allowed us to select the area corresponding to the expected fungal population. A close agreement between FCM and epifluorescence microscopy counts was found. Moreover, data processing showed that FCM can be considered more precise and reliable at any of the tested concentrations.     

Rapid Determination of Conidial Viability for Entomopathogenic Hyphomycetes Using Fluorescence Microscopy Techniques

The viability of conidia from two species of deuteromycetes fungi pathogenic to insects was determined using two fluorochrome stains, fluorescein diacetate (FDA) and propidium iodide (PI). These stains were used either alone or in combination, and results were compared with standard conidial germination tests. FDA fluoresces bright green in viable conidia and PI fluoresces red in non-viable conidia, when viewed using specific fluorescence microscopic techniques. Conidia from two isolates of Paecilomyces fumosoroseus (Wize) Brown and Smith and two isolates of Beauveria bassiana (Balsamo) Vuillemin were evaluated. Conidia were suspended in deionized water and half of each suspension was treated with microwave radiation to kill all the conidia. Conidia were tested for viability in non-microwaved suspensions in a mixture (ca. 1:1) of viable and non-viable conidial suspensions, and in the microwaved suspensions that contained all non-viable conidia. No significant differences were observed for the four isolates tested between germination tests on water and agar and viability tests conducted with FDA alone or FDA in combination with PI. One isolate of B. bassiana that had been damaged in storage was also tested. Differences were observed between the actual germination and the percentage of viability determined using FDA or FDA plus PI. Damaged conidia maintained a measure of viability and fluoresced green, but did not fully germinate.     

Application of antibodies to intermediate filament proteins as tissue-specific probes in the flow cytometric analysis of complex tumors

The flow cytometric (FCM) analysis of carcinomas is often hampered by the presence of stromal and inflammatory cells in the cell suspensions obtained from such neoplasms. Therefore, an FCM method was developed to distinguish epithelial from nonepithelial cells by using polyclonal and monoclonal antibodies to (cyto)keratins, the epithelial type of intermediate filament proteins. Using a model system of cultured bladder carcinoma (T24) and leukemia (MOLT-4) cells, we tested our hypothesis and procedures by labeling cell mixtures with these antibodies. After incubation with an appropriate intermediate filament antibody and propidium iodide staining, the DNA content and distribution of T24 cells could be analyzed separately from MOLT-4 cells. When applied to cell suspensions of endometrial carcinomas, bladder carcinomas and Grawitz tumors, only the epithelial (primarily carcinoma) cells were stained for cytokeratin; these cells could thus be analyzed separately from stromal, inflammatory and other nonepithelial cells. In this way, a more accurate FCM analysis of the malignant fraction within a tumor can be achieved.     

Ochratoxin A in airborne dust and fungal conidia

Farm workers are often exposed to high concentrations of airborne organic dust and fungal conidia, especially when working with plant materials. The purpose of this investigation was to study the possibility of exposure to the mycotoxin ochratoxin A (OTA) through inhalation of organic dust and conidia. Dust and aerosol samples were collected from three local cowsheds. Aerosol samples for determination of total conidia and dust concentrations were collected by stationary sampling on polycarbonate filters. Total dust was analysed by gravimetry, and conidia were counted using scanning electron microscopy. A method was developed for extraction and determination of OTA in small samples of settled dust. OTA was extracted with a mixture of methanol, chloroform, HCI, and water, purified on immunoaffinity column, and analysed by ion-pair HPLC with fluorescence detection. Recovery of OTA from spiked dust samples (0.9–1.0 μg/kg) was 74% (quantitation limit 0.150 μg/kg). OTA was found in 6 out of 14 settled dust samples (0.2–70 μg/kg). The total concentration of airborne conidia ranged from < 1.1 × 10⁴ to 3.9 × 15⁵ per m³, and the airborne dust concentration ranged from 0.08 to 0.21 mg/m³. Conidia collected from cultures of Penicillium verrucosum and Aspergillus ochraceus contained 0.4–0.7 and 0.02–0.06 pg OTA per conidium, respectively. Testing of conidial extracts from these fungi in a Bacillus subtilis bioassay indicated the presence of toxic compounds in addition to OTA. The results show that airborne dust and fungal conidia can be sources of OTA. Peak exposures to airborne OTA may be significant, e.g., in agricultural environments. This revised version was published online in August 2006 with corrections to the Cover Date.     

In vitro measurement of cell death with the annexin A5 affinity assay

One of the hallmarks of cell death is the cell surface-expression of phosphatidylserine. Expression of phosphatidylserine at the cell surface can be measured in vitro with the phosphatidylserine-binding protein annexin A5 conjugated to fluorochromes. This measurement can be made by flow cytometry or by confocal scanning-laser microscopy. The annexin A5 affinity assay comprises the incubation of cells stimulated to execute cell death with fluorescence-labeled annexin A5 and propidium iodide. Living cells are annexin A5-negative and propidium iodide negative, cells in the early phases of cell death are annexin A5 positive-and propidium iodide-negative, and secondary necrotic cells are annexin A5-positive and propidium iodide-positive. The entire procedure takes about 30 minutes for flow cytometry and 45 minutes for confocal scanning-laser microscopy. Various precautions and considerations are discussed further in the protocol described here.     

Multimodal Holographic Microscopy: Distinction between Apoptosis and Oncosis

Identification of specific cell death is of a great value for many scientists. Predominant types of cell death can be detected by flow-cytometry (FCM). Nevertheless, the absence of cellular morphology analysis leads to the misclassification of cell death type due to underestimated oncosis. However, the definition of the oncosis is important because of its potential reversibility. Therefore, FCM analysis of cell death using annexin V/propidium iodide assay was compared with holographic microscopy coupled with fluorescence detection - “Multimodal holographic microscopy (MHM)”. The aim was to highlight FCM limitations and to point out MHM advantages. It was shown that the annexin V+/PI− phenotype is not specific of early apoptotic cells, as previously believed, and that morphological criteria have to be necessarily combined with annexin V/PI for the cell death type to be ascertained precisely. MHM makes it possible to distinguish oncosis clearly from apoptosis and to stratify the progression of oncosis.     

Spectra of cells in flow cytometry using a vidicon detector.

A TV type vidicon detector was interfaced to a flow cytometer (FCM) to obtain spectra of fluorophores in cells during flow. The normal operations of the FCM are undisturbed. A spectrograph spreads 320 nm of the fluorophore fluorescence emission across the 500 channels of the detector. Spectra of fluorescamine (a surface labeling agent) and of propidium iodide (a nuclear stain) were obtained from Balb 3T3 cells, and the chlorophyll and phycobilin peaks were resolved from flowing blue-green algae in the FCM. Under typical flow conditions, operation of the vidicon in the continuous mode gives for these fluorophores a S/N of several hundred to one in approximately 3 sec. The vidicon was also gated to obtain spectra of single cells and of cells in selected portions of the cell cycle. For example, the spectrum of fluorescamine was obtained from cells in the G1 phase of the growth cycle by using as a gate trigger the FCM discriminator output derived from the propidium iodide signal.     

Classification of larval circulating hemocytes of the silkworm,<Emphasis Type="Italic"> Bombyx mori</Emphasis>, by acridine orange and propidium iodide staining

Circulating hemocytes of the silkworm can be classified by fluorescence microscopy following staining with acridine orange and propidium iodide. Based on their fluorescence characteristics, three groups of circulating hemocytes can be distinguished. The first group, granulocytes and spherulocytes, is positive for acridine orange and contain bright green fluorescent granules when observed by fluorescence microscopy. In granulocytes, these green granules are heterogeneous and relatively small. In contrast, in spherulocytes, the green granules appear more homogenous and larger. The second group of hemocytes consists of prohemocytes and plasmatocytes. These cells appear faint green following staining with acridine orange and do not contain any green fluorescent granules in the cytoplasm. Prohemocytes are round, and their nuclei are dark and clear within a background of faint green fluorescence. Inside the nucleus there are one or two small bright green fluorescent bodies. Plasmatocytes are irregularly shaped and their nuclei are invisible. Oenocytoids belong to the third group, and their nuclei are positive for propidium iodide. Therefore, all five types of circulating hemocytes of the silkworm, including many peculiar ones that are difficult to identify by light microscopy, can now be easily classified by fluorescence microscopy following staining with acridine orange and propidium iodide. In addition, we show that hemocytes positive for acridine orange and propidium iodide are in fact living cells based on assays for hemocyte composition, phagocytosis, and mitochondrial enzyme activity.     

Flow cytometric analysis and sorting of human endometrial cells after immunocytochemical labeling for cytokeratin using a monoclonal antibody

Endometrial cells in suspension were stained with propidium iodide and a monoclonal antibody against a cytokeratin intermediate filament protein specific for glandular and columnar cells (RGE 53). In this way columnar epithelial cells of the normal endometrium and of adenocarcinomas can be distinguished and separated by flow cytometry from non-epithelial cells (fibroblasts and inflammatory cells) and squamous epithelial cells, all of which are negative for RGE 53. This makes it possible to analyse and also sort pure fractions of this particular tissue type for further studies. The use of propidium iodide allows simultaneous DNA flow cytometry of these columnar epithelial cells. Therefore, the use of antibodies to cytokeratin in combination with propidium iodide can be of help in analyzing and sorting pure fractions of both normal and malignant cells. This allows a more refined examination of complex cell mixtures using flow cytometry.     

Protection of entomopathogenic conidia against chemical fungicides afforded by an oil-based formulation

We evaluated the protection afforded by an oil formulation against non-compatible fungicides in mixtures with conidia of the entomopathogenic fungi Metarhizium anisopliae (Ma) and Beauveria bassiana (Bb). Under laboratory conditions, viability of unformulated (aqueous suspensions) Ma conidia was harmed by recommended label doses of carbendazim (not tested for Bb), and both Ma and Bb conidia were affected by triadimefon. On the other hand, effect of fungicides was usually nil or minimal on conidia formulated as oil-containing suspensions (emulsifiable oil + water). Germination rates for unformulated and oil-formulated Ma conidia subjected to carbendazim were reduced by 77.3 and 12.1%, respectively, compared to their fungicide-free counterparts. Germination rates at 16 h post-inoculation for unformulated and oil-formulated Bb conidia subjected to triadimefon were reduced by 20.5 and 5.5%, respectively, compared to their fungicide-free counterparts. No differences were observed at 20 h post inoculation, indicating a fungistatic action of this compound on Bb conidia. Virulence of unformulated conidia amended with fungicides against third instar Diatraea saccharalis larvae was negatively affected compared to their formulated counterparts. These results suggest that oil-formulated conidia can be effectively protected from damage caused by chemicals, which could have applications in tank mixing or alternate applications with shared spraying equipment, being especially relevant for IPM programs in which mycopesticides and chemicals are simultaneously sprayed.     

Increased growth yields of Mycoplasma spp. in the presence of pyruvate

Viable and non-viable African green monkey kidney (Vero) cells after treatment with Clostridium perfringens enterotoxin (CPE) followed by simultaneous double staining with fluorescein diacetate (FDA) and propidium iodide (PI) were counted with a flow cytometer (FCM). Within 1 min the FCM analysed 10 000 Vero cells in a sample for viability. After treatment of Vero cells with CPE for 60 min and staining with FDA-PI for 5 min, a reproducible dose-response curve was obtained between 25 and 400 ng/ml of CPE and percentage viable cell numbers. The FCM analysis proved to be a strong tool for rapid discrimination between viable and non-viable Vero cells treated with CPE in a large number of samples at a time.     

Preparation and stability of sixteen murine tissues and organs for flow cytometric cell cycle analysis

Three different technical protocols were used to prepare samples for flow cytometric (FCM) analysis. Each protocol developed worked best for only certain organs. Protocol I involved mincing small pieces of fresh tissue in the propidium iodide (PI) staining solution and filtering through packed glass wool. The organs that were prepared by protocol I were: submandibular gland, urinary bladder, liver, thymus, bone marrow, spleen, lung, kidney and testis. Protocol II involved exposure of the organ to 0.5% acetic acid for 48 h prior to mincing in the PI. The organs that were prepared by protocol II were: uterus, rectum, colon, ileum, and heart. Protocol III utilized an exposure to 0.5% acetic acid, pepsinization, and then staining with PI. The tissues that were prepared by protocol III were the epithelium of the anterior surface of the cornea and the epithelium of the surface of the tongue. A total of 16 different organs and tissues were successfully prepared. For each organ, averaged DNA histograms were analyzed by nonparametric and parametric programs and the results (phase fractions) are presented in tabular form. Several of the organs used came from animals exposed to 1.0 mg/kg vincristine (VC) for 5-6 h to test the capability of the different protocols to detect the enlargement of the G2 + M compartment by the accumulation of VC-arrested mitotic figures. The stability of the many different sample preparations was tested by comparing averaged DNA histograms obtained on the day of sample preparation to averaged DNA histograms of the same set of samples after storage at 4 degrees C, with or without fixation in 10% phosphate-buffered formalin, for days to weeks. After staining with propidium iodide, fixation of the sample with a final concentration of 2-3% phosphate-buffered formalin, was the procedure adopted to assure sample stability. The demonstration of sample stability permits sample preparation to occur at one site followed by transport of the samples to the FCM laboratory at another geographical location. The major findings of this work were a) technical protocols were developed which resulted in acceptable nuclear suspensions for FCM from 16 different murine organs or tissues, b) the stability of these samples can be assured by fixing the PI stained nuclear suspension with formalin, and c) each different protocol was capable of detecting and preserving at least some of the mitotic figures arrested and collected by vincristine.     

Spectophotometric method for preparing the inocula of dematiaceous fungi.

The aim of this study was to adapt a spectrophotometric method for preparing the inocula of dematiaceous fungi used for in vitro susceptibility tests. Fifty-two isolates of 17 different species of dematiaceous fungi were used for this purpose. Homogeneous suspensions of conidia and hyphae of these isolates were obtained and adjusted for reading at 530 and 550 nm at 40% and 50% of transmittance. The suspensions were standardised to 1-5 x 10 e6 CFU/ml. Quality controls of the inocula were done by quantitative cultures on agar-Sabouraud plates. The inocula obtained by spectrophotometry showed little variability within all the isolates. This method can be useful for in vitro antifungal evaluation of dematiaceous fungi.     

Rapid assessment of the physiological status of the polychlorinated biphenyl degrader Comamonas testosteroni TK102 by flow cytometry

The viability of the polychlorinated biphenyl-degrading bacterium Comamonas testosteroni TK102 was assessed by flow cytometry (FCM) with the fluorogenic ester Calcein-AM (CAM) and the nucleic acid dye propidium iodide (PI). CAM stained live cells, whereas PI stained dead cells. When double staining with CAM and PI was performed, three physiological states, i.e., live (calcein positive, PI negative), dead (calcein negative, PI positive), and permeabilized (calcein positive, PI positive), were detected. To evaluate the reliability of this double-staining method, suspensions of live and dead cells were mixed in various proportions and analyzed by FCM. The proportion of dead cells measured by FCM directly correlated with the proportion of dead cells in the sample (y = 0.9872 x + 0.18; R(2) = 0.9971). In addition, the proportion of live cells measured by FCM inversely correlated with the proportion of dead cells in the sample (y = -0.9776 x + 98.36; R(2) = 0.9962). The proportion of permeabilized cells was consistently less than 2%. These results indicate that FCM in combination with CAM and PI staining is rapid (相似文献   

Responses of Escherichia coli, Listeria monocytogenes, and Staphylococcus aureus to simulated food processing treatments, determined using fluorescence-activated cell sorting and plate counting

Three common food pathogenic microorganisms were exposed to treatments simulating those used in food processing. Treated cell suspensions were then analyzed for reduction in growth by plate counting. Flow cytometry (FCM) and fluorescence-activated cell sorting (FACS) were carried out on treated cells stained for membrane integrity (Syto 9/propidium iodide) or the presence of membrane potential [DiOC2(3)]. For each microbial species, representative cells from various subpopulations detected by FCM were sorted onto selective and nonselective agar and evaluated for growth and recovery rates. In general, treatments giving rise to the highest reductions in counts also had the greatest effects on cell membrane integrity and membrane potential. Overall, treatments that impacted cell membrane permeability did not necessarily have a comparable effect on membrane potential. In addition, some bacterial species with extensively damaged membranes, as detected by FCM, appeared to be able to replicate and grow after sorting. Growth of sorted cells from various subpopulations was not always reflected in plate counts, and in some cases the staining protocol may have rendered cells unculturable. Optimized FCM protocols generated a greater insight into the extent of the heterogeneous bacterial population responses to food control measures than did plate counts. This study underlined the requirement to use FACS to relate various cytometric profiles generated by various staining protocols with the ability of cells to grow on microbial agar plates. Such information is a prerequisite for more-widespread adoption of FCM as a routine microbiological analytical technique.     

Methodological aspects of flow cytometric analysis of DNA polyploidy in human heart tissue

The purpose of the study was to investigate the possibilities of flow cytometry (FCM) for the analysis of DNA polyploidy in human heart tissue. Suspensions of single nuclei were prepared with the detergent-trypsin procedure and stained with propidium iodide. A mathematical correction procedure was developed to correct for background and clumping. For diploid model populations of chicken and trout red blood cells this correction reduced artifactual fractions in the FCM DNA profile to less than 0.5%, indicating that interference by background and clumping was almost completely overcome by this correction procedure. FCM DNA profiles were obtained from 12 hypertrophic and 7 normal human adult hearts. Clear differences were found between DNA profiles from the normal and the hypertrophic hearts, the latter showing a higher degree of polyploidization. From the corrected DNA profiles, six different polyploidization parameters were computed, all of which showed a significant correlation with at least three out of four different parameters for heart hypertrophy. FCM appears to be a reliable method for the measurement of polyploidization in heart tissue, provided background and clumping are corrected for.     

飞虱虫疠霉分生孢子在不同温湿度组合条件下的存活率*

用荧光染色法研究了不同温度（１０～３０℃）和湿度（５１～１００％ＲＨ）组合条件下飞虱虫疠 霉 Ｐａｎｄｏｒａ ｄｅｌｐｈａｃｉｓ分生孢子的存活率。在无放回抽样观察中,孢子弹射后第２４ ｈ的存活 率在５１％、７４％、８５％、９０％、９５％和１００％ＲＨ与不同温度的组合中分别为４２～８１％、６９～８９％、７０～ ９５％、 ６７～１００％、 ７６～１００％和 ５６～１００％。存放４个月后,不同温度下的孢子存活率在 ５１％、 ７４％、 ８５％和 ９０％ＲＨ下分别为 ５５～７４％、 ５２～８７％、 ３８～７３％和 １～６５％。而在≥９５％ ＲＨ下孢子存活率 ２４ｈ 后锐减,至第７ ｄ几乎全部失活。以上结果表明,弹射后的飞虱虫疠霉孢子在头２４ ｈ的存活 易受低湿影响,但存活下来的孢子能继续在低湿下存活较久;饱和或接近饱和的高湿度最不 利孢子长久存活。     

Flow cytometry: long-term storage of propidium iodide/citrate-stained material.

Single cell suspensions stained by the propidium iodide/hypotonic citrate method for DNA content analysis by flow cytometry can be mixed with an equal amount of 70% alcohol for long-term storage and shipping without introduction of artifacts or loss of fluorescence.     

Flow Cytometry: Long-Term Storage of Propidium Iodide/Citrate-Stained Material

Single cell suspensions stained by the propidium iodide/hypotonic citrate method for DNA content analysis by flow cytometry can be mixed with an equal amount of 70% alcohol for long-term storage and shipping without introduction of artifacts or loss of fluorescence.     

Comparative Study of Microsporidian Spores by Flow Cytometric Analysis

ABSTRACT. Spore suspensions of microsporidian parasites of fish (Microsporidium ovoideum, Glugea stephani, Glugea atherinae and Spraguea lophii ) have been analyzed by flow cytometry. Spore nuclei were dyed either by propidium iodide or bis-benzimide (Hoechst 33342). By observation of forward light scatter and fluorescence the four species could be distinguished and the mono- and diplokaryotic populations of S. lophii identified. Staining of DNA by bis-benzimide was better and easier than propidium iodide. Forward light scatter and fluorescence values were characteristic of each species and remained unchanged throughout the year, so flow cytometry can be used for distinction of spores of some microsporidian parasites once their flow cytometric parameters are known. However, special care has to be taken in tool calibration and material preparation for analysis because of the high precision of the technique.