Visualization of fungi in histological sections

Deparaffinized kidney sections from mice infected with Candida albicans and lung sections from mice infected with Blastomyces dermatitides were stained with the stilbene derivative, Uvitex 2B (1%), and counterstained with haemalum and eosin. Fungi selectively stained with Uvitex 2B are visualized by blue fluorescence under incident illumination with ultraviolet light. Simultaneous or consecutive illumination with transmitted light permits the assignment of fluorescent fungi to haemalum-eosin-stained structures in the section. The most practical means of achieving a high optical contrast with Uvitex 2B in sections and good haemalum-eosin staining is to use the established haemalum-eosin technique, but with a solution containing both 1% eosin and 1% Uvitex 2B in place of eosin alone. Since Uvitex 2B stains all fungi investigated so far, it affords a simple, sensitive and inexpensive method of selectively detecting opportunistic fungal infections in conventional histopathology.     

The fluorescence of elastic fibres stained with Eosin and excited by visible light

Synopsis Fluorescent light of any wavelength, emitted by a microscopical specimen excited with visible light, can be observed using crossed polarizers and a dark-field condenser. The absorbance of Eosin is high in the green portion of the spectrum, so that visible light from a tungsten lamp is highly effective in exciting the fluorescence of this dye.Elastic fibres in routine sections stained with Haemalum and Eosin have been found to fluoresce rather strongly, while most other Eosin-stained structures fluoresce less or not at all. The reason for this relatively selective fluorescence of Eosin-stained elastic fibres is obscure, although the phenomenon may prove useful in routine histology. It is possible, however, that in most stained substrates the fluorescence of Eosin is largely quenched by aggregation of the dye molecules, but that this is inhibited inside the relatively dense (i.e. impermeable) elastic fibres.     

Fluorescence microscopical visualization of elastic fibres using basic fuchsin

Summary We show that fluorescence microscopy after staining of tissue sections with basic fuchsin (BF) can be used successfully for the demonstration of elastic fibres. Using double staining with BF and antibodies reacting with microfibrils of elastic fibres (anti-SAP) we showed that BF reacts with the elastin core of elastic fibres and the elastin poor terminal branches of the subepidermal elastic fibre system. Small amounts of bound BF were easily seen by fluorescence microscopy (FL) but not by ordinary light microscopy. Both frozen sections and sections of paraffin embedded tissues could be stained. The BF-FL staining procedure is simple to perform and, due to its selectivity, it may be useful for detecting elastic fibres in various tissues at the light microscopical level.     

Fluorescence microscopical visualization of elastic fibres using basic fuchsin

We show that fluorescence microscopy after staining of tissue sections with basic fuchsin (BF) can be used successfully for the demonstration of elastic fibres. Using double staining with BF and antibodies reacting with microfibrils of elastic fibres (anti-SAP) we showed that BF reacts with the elastin core of elastic fibres and the elastin poor terminal branches of the subepidermal elastic fibre system. Small amounts of bound BF were easily seen by fluorescence microscopy (FL) but not by ordinary light microscopy. Both frozen sections and sections of paraffin embedded tissues could be stained. The BF-FL staining procedure is simple to perform and, due to its selectivity, it may be useful for detecting elastic fibres in various tissues at the light microscopical level.     

Detection of areas of wall differentiation in fungi using fluorescent staining

Fungal colonies were stained with a fluorescent brightner, Calcofluor White M2R New. When viewed using ultraviolet light certain hyphal regions showed intense fluorescence, whereas others showed a lower intensity fluorescence. The apical 10 μm of leadingBotrytis cinerea hyphae showed intense fluorescence. Developing septa and side branches also showed this intense localised fluorescence. Calcofluor staining of hyphae and their subsequent growth illustrated the phenomenon of tip extension.     

The fluorescence brightener Rylux BSU induces dimorphism inBasidiobolus ranarum

The fluorescence brightener Rylux BSU (RBSU) showed an affinity for polysaccharide components of cell walls and accumulated in the extension zones of hyphal apices inBasidiobolus ranarum. It inhibited the polarized growth of mycelial hyphae and induced isotropic growth resulting in spherical thick-walled cells up to 456 μm in diameter. On the inner cell wall surface, massive protuberances were formed. The cell wall and protuberances were positive in PAS and the Grocott method and stained with fluorochromes Blankophor BA, Calcofluor, Uvitex 2B, Rylux BSU and FITC-labeled WGA- and ConA-lectins. The WGA-FITC fluorescence intensity of the wall’s outermost layer, if not connected with neighbouring cells, and the fluorescence intensity of the innermost layer and of some protuberances mainly in their apical parts were on the average twice higher than the fluorescence intensity of the remaining wall material. RBSU binding to the cell wall material was stable. The process of converting from polarized to isotropic growth was reversible, depending upon contact with RBSU-containing medium. Repeated transfers of cells from RBSU-containing medium to an RBSU-free medium resulted in the development of apical swollen dumbbell-shaped cells.     

应用荧光染色法检测寄主昆虫体表病原真菌孢子及其附着孢

采用蝗虫翅膀作为侵染组织,探讨了荧光染色剂Calcofluor White M2R在观测寄主体表绿僵菌孢子及其附着孢形成中的应用。结果表明,在荧光显微镜下,清晰可见蝗虫翅膀上发蓝色荧光的绿僵菌孢子、芽管及附着孢,而蝗虫翅膀未被染色,避免了干扰观察目标物。该方法可以准确观察病原真菌孢子在昆虫体表组织的萌发及附着孢形成。     

Block-Surface Staining for Differentiation of Starch and Cell Walls in Wheat Endosperm

A staining technique for differentiating starch granules and cell walls was developed for computer-assisted studies of starch granule distribution in cells of wheat [Triticum aestivum L.] caryopses. Blocks of embedded caryopses were sectioned, exposing the endosperm tissue, and stained with iodine potassium iodide (IKI) and Calcofluor White. Excessive tissue hydration during staining was avoided by using stains prepared in 80% ethanol and using short staining times. The IKI quenched background fluorescence which facilitated the use of higher concentrations of Calcofluor White. Cell wall definition was improved with the IKI-Calcofluor staining combination compared to Calcofluor alone. The high contrast between darkly stained starch granules and fluorescent cell walls permitted computer assisted analysis of data from selected hard and soft wheat varieties. The ratio of starch granule area to cell area was similar for both wheat classes. The starch granule sizes ranged from 2.1 μm³ to 22,000 μm³ with approximately 90% of the granules measuring less than 752 μm³ (ca. 11 μm in diameter). Hard wheat samples had a greater number of small starch granules and a lower mean starch granule area compared to the soft wheat varieties tested. The starch size distribution curve was bimodal for both the hard and soft wheat varieties. Three-dimensional starch size distribution was measured for four cells near the central cheek region of a single caryopsis. The percentage of small granules was higher at the ends than at the mid-section of the cells.     

An Orcein-Oil Red O Stain for Concomitant Demonstration of Elastic Tissue and Lipid

Orcein, 0.5% in 50% isopropanol, 0.5-1 hr, followed by saturated oil red O in isopropanol diluted 3:2 with distilled water, 10-15 min, was used to demonstrate lipids and elastic tissue simultaneously in 10 μ frozen sections of formalin-fixed aortas of the wild African buffalo, showing atherosclerotic lesions. A comparison was made with the oil red O-aldehyde fuchsin (AF) method of Kwaan and Hopkins (Stain Techn., 39: 123-5, 1964) and the resorcin fuchsin (RF)-oil red O method of Lillie (Histopathologic Technic and Practical Histochemistry, McGraw-Hill, 1954), but both gave marked background staining by AF or RF that obscured the smaller deposits of lipid. Sudan IV could be substituted for oil red but did not demonstrate many of the finest deposits of lipids. Sudan black, in combination with orcein, AF or RF, was very satisfactory for demonstrating lipids but obscured many elastic fibres. Sudan dyes I, II, III, brown, blue, and green, with orcein, AF or RF, showed less contrast between lipids and elastic tissue or failed to stain the lipids adequately.     

Enhancing Aniline Blue Fluorescent Staining of Cell Wall Structures

Prior staining with the periodic acid-Schiff reaction, toluidine blue O, Congo red, or Calcofluor White M2R New, or reduction by NaBH₄ do not interfere with aniline blue-induced fluorescence of sieve plates, new cell walls, pit fields or tracheids in compression wood of conifers. Detail of such fluorescent structures is improved by these treatments because of increased contrast, reduced flare, and a quenching of autofluorescence.     

Enhancing aniline blue fluorescent staining of cell wall structures.

Prior staining with the periodic acid-Schiff reaction, toluidine blue O, Congo red, or Calcofluor White M2R New, or reduction by NaBH4 do not interfere with aniline blue-induced fluorescence of sieve plates, new cell walls, pit fields or tracheids in compression wood of conifers. Detail of such fluorescent structures is improved by these treatments because of increased contrast, reduced flare, and a quenching of autofluorescence.     

EVIDENCE FOR GLUCAN COMPONENTS IN THE PRIMARY ZYGOTE WALL OF CHLAMYDOMONAS MONOICA

The primary zygote wall of C. monoica is transient and is released from mature zygospores. The fluorochromes aniline blue and primulin, used in other systems to detect β-1,3 glucans, stain the primary wall intensely. Two β-1,3 glucan synthases have been identified in higher plants: a calcium-dependent synthase produced in response to wounding and induced by chitosan, and a magnesium-dependent enzyme, associated with pollen development and unresponsive to chitosan. Chitosan has no effect on C. monoica primary wall synthesis or staining properties. We are presently testing for the effect of magnesium and/or calcium depletion on primary wall synthesis. Aniline blue and primulin do not stain purified cellulose fibers, while the fluorochrome Calcofluor does. Calcofluor also stains the primary wall intensely. For all fluorochormes tested, fluorescence is first detected in motile quadriflagellate zygotes. Aniline blue staining maximizes quickly, while Calcofluor staining continues to intensify until primary wall release. Dinitrobenzonitrile, a specific inhibitor of cellulose synthesis in plants, has no effect on primary wall synthesis in C. monoica. Addition of glucanase or cellulase to partially purified primary walls results in wall thinning and loss of staining. Using electron microscopy, we are evaluating the effects of these enzymes on primary wall ultrastructure. Further studies are needed to determine whether all three fluorochromes are recognizing the same polysaccharide component (a β-1,3 glucan or a β-1,3; β-1,4 mixed glucan), or whether Calcofluor staining indicates the presence of a distinct component containing β-1,4 linkages, such as cellulose or a xyloglucan.     

Pyronin Y as a fluorescent stain for paraffin sections

Pyronin Y has long been used, in combination with other dyes such as Methyl Green, as a differential stain for nucleic acids in paraffin tissue sections. It also forms fluorescent complexes with double-stranded nucleic acids, especially RNA, enabling semi-quantitative analysis of cellular RNA in flow cytometry. However, the possibility of using pyronin Y as a fluorescent stain for paraffin tissue sections has rarely been investigated. We herein report that in sections stained with Methyl Green–pyronin Y, red blood cells, elastic fibre of blood vessels, zymogen granules of pancreatic acinar cells, surface membrane of heptocytes and kidney tubular cells showed strikingly strong green and/or red fluorescence, while the nuclei of cells appeared non-fluorescent. The use of confocal laser-scanning microscope greatly improved the resolution and selectivity of the fluorescent images. Staining with pyronin Y alone gave similar results in terms of fluorescence properties of the specimens. Pretreatment of paraffin sections with RNase significantly reduced cytoplasmic pyronin Y staining as judged by transmission light microscopy, but it had little effect on the fluorescence intensity of red blood cells, elastic fibres and zymogenbreak granules.     

Further confirmation of the presence of DNA in the pyrenoid core of the siphonous green algal genus Caulerpa (Caulerpales, Ulvophyceae, Chlorophyta)

We re-examined the distribution of chloroplast DNA (ct-DNA) in the pyrenoid core of Caulerpa okamurae Weber van Bosse and C. lentillifera J. Agardh by fluorescence microscopy after staining the squashes and Technovit sections with DNA fluorochromes such as 4′6-diamidino-2-phenylmdole (DAPI), ethidium bromide, Hoechst 33258 and chromomycin A3. All fluorochromes stained specifically the pyrenoid core on the squashes and Technovit sections. In addition, we present new data on the localization of ct-DNA in the pyrenoid core of two other species of the genus Caulerpa: C. cactoides (Turner) Agardh and C. geminata Harvey.     

Licht- und fluoreszenzmikroskopische Darstellung spezifischer Zellen und Strukturen des Binde- und Nervengewebes von Gastropoden im Semidünnschnitt

Zusammenfassung Im Binde- und Nervengewebe von Gastropoden, welche in Kunstharze eingebettet wurden, lassen sich nach Entfernung des jeweiligen Einbettungsmediums mit licht- und fluoreszenzmikroskopischen Färbeverfahren (Paraldehydfuchsin, Aldehydthionin, Alcianblau, Pseudoisocyanin, RF 500) mit hoher histochemischer Spezifität Zellen und Strukturen darstellen. Neben verschiedenen Zelltypen mit unterschiedlichen Funktionsstadien im Bindegewebe können vor allem die neurosekretorischen Zellen und ihre Fortsätze in den Cerebralganglien der untersuchten Schneckenarten bis in ihre Neurohämalbereiche differenziert angefärbt werden. Mit AT und PAF konnten dabei neurosekrethaltige Axone in der Cerebralkommissur von Planorbarius corneus erstmals sicher lichtmikroskopisch nachgewiesen werden. Die von uns verwendeten Verfahren erlauben eine gezielte elektronenmikroskopische Analyse der im Semidünnschnitt licht- und fluoreszenzoptisch selektiv histochemisch identifizierten Zellen und Strukturen.

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Light- and fluorescence microscopic investigations on specific cells and structures in semithin sections of the connective- and nervous tissues of gastropods

Summary In the present study specific cells and structures in the connective-and nervous tissues of some gastropods were demonstrated by light- and fluorescence techniques, performed on semithin sections of plastic embedded material. After dissolving the embedding medium (Epon or Styrene-methacrylate), the semithin sections are stainable by Gomori's Paraldehyde-Fuchsin, Aldehyde-Thionin, Alcian Blue and the fluorochromes Pseudoisocyanin and RF 500. Best results are obtained optically by staining with Pseudoisocyanin, because all fluorescing substances (i. a. the neurosecretory cells and fibres in the ganglia) appear on a practically dark background. For the first time, with Aldehyde-Thionin and Paraldehyde Fuchsin—but not with Pseudoisocyanin—neurosecretory fibres has been demonstrated in the cerebral commissure of Planorbarius corneus.The histochemical identifying of specific cells and structures in semithin sections by light- and especially fluorescence microscopic highly selective reactions gives the possibilities to analyse these target cells by electron microscopic investigations.

     

Irradiation of specimens by excitation light before and after staining with pararosaniline feulgen: A new method to reduce non-specific fluorescence in cytofluorometry

Summary Thorough irradiation on specimens with strong green light before or after pararosaniline Feulgen staining destroys specifically the primary-fluorescent substances in the background. By this treatment of pre- or post-irradiation, accuracy of DNA cytofluorometry is markedly improved and the Feulgen specific fluorescence is stabilized. Selecting proper wavelength, this technique will universally be useful in microfluorometry of any fluorochromes for reducing background fluorescence.     

FISH and Calcofluor staining techniques to detect in situ filamentous fungal biofilms in water

Filamentous fungi are a ubiquitous and diverse group of eukaryotic organisms and may contribute, along with bacteria, yeasts, protozoa and viruses, to the formation of biofilms in water distribution systems. However, fungal involvement in biofilms has not been demonstrated unambiguously. Furthermore, these fungi may be responsible for the production of tastes, odours and mycotoxins in drinking water making their early detection important. The detection of fme these problems a combination of two fluorescent techniques for direct detection was tested: (a) Fluorescence In Situ Hybridization (FISH) employing the universal rRNA probe EUK516, labelled with the red Cy3, followed by (b) staining with Calcofluor White MR2 fluorescent dye which stains fungal cell walls blue. Pure cultures of Penicillium brevicompactum were used to establish the methods followed by separate experiments with real water biofilm samples in PVC-C and cast iron coupons. FISH demonstrated eukaryotic microrganisms after approximately 5 h while the calcofluor method revealed chitinous filamentous structures in less than one hour. When the two methods were combined, additional resolution was obtained from the images of filamentous walls (blue) with intact protoplasm (red). In conclusion, FISH and Calcofluor staining provide rapid, direct and unambiguous information on the involvement of ff in biofilms which form in water.     

Interaction between carbohydrate residues of alpha1-acid glycoprotein (orosomucoid) and saturating concentrations of Calcofluor White. A fluorescence study

Calcofluor White is a fluorescent probe that interacts with polysaccharides and is commonly used in clinical studies. Interaction between Calcofluor White and carbohydrate residues of alpha1-acid glycoprotein (orosomucoid) was previously followed by fluorescence titration of the Trp residues of the protein. A stoichiometry of one Calcofluor for one protein has been found [J.R. Albani and Y.D. Plancke, Carbohydr. Res., 318 (1999) 193-200]. Alpha1-acid glycoprotein contains 40% carbohydrate by weight and has up to 16 sialic acid residues. Since binding of Calcofluor to alpha1-acid glycoprotein occurs mainly on the carbohydrate residues, we studied in the present work the interaction between Calcofluor and the protein by following the fluorescence change of the fluorophore. In order to establish the role of the sialic acid residues in the interaction, the experiments were performed with the sialylated and asialylated protein. Interaction of Calcofluor with sialylated alpha1-acid glycoprotein induces a red shift of the emission maximum of the fluorophore from 438 to 450 nm at saturation (one Calcofluor for one sialic acid) and an increase in the fluorescence intensity. At saturation the fluorescence intensity increase levels off. Binding of Calcofluor to asialylated acid glycoprotein does not change the position of the emission maximum of the fluorophore and induces a decrease in its fluorescence intensity. Saturation occurs when 10 molecules of Calcofluor are bound to 1 mol of alpha1-acid glycoprotein. Since the protein contains five heteropolysaccharide groups, we have 2 mol of Calcofluor for each group. Addition of free sialic acid to Calcofluor induces a continuous decrease in the fluorescence intensity of the fluorophore but does not change the position of the emission maximum. Our results confirm the presence of a defined spatial conformation of the sialic acid residues, a conformation that disappears when they are free in solution. Dynamics studies on Calcofluor White and the carbohydrate residues of alpha1-acid glycoprotein are also performed at saturating concentrations of Calcofluor using the red-edge excitation spectra and steady-state anisotropy studies. The red-edge excitation spectra experiments show an important shift (13 nm) of the fluorescence emission maximum of the probe. This reveals that emission of Calcofluor occurs before relaxation of the surrounding carbohydrate residues occurs. Emission from a non-relaxed state means that the microenvironment of bound Calcofluor is rigid, inducing in this way the rigidity of the fluorophore itself, a result confirmed by anisotropy studies.     

Block-surface staining for differentiation of starch and cell walls in wheat endosperm.

A staining technique for differentiating starch granules and cell walls was developed for computer-assisted studies of starch granule distribution in cells of wheat (Triticum aestivum L.) caryopses. Blocks of embedded caryopses were sectioned, exposing the endosperm tissue, and stained with iodine potassium iodide (IKI) and Calcofluor White. Excessive tissue hydration during staining was avoided by using stains prepared in 80% ethanol and using short staining times. The IKI quenched background fluorescence which facilitated the use of higher concentrations of Calcofluor White. Cell wall definition was improved with the IKI-Calcofluor staining combination compared to Calcofluor alone. The high contrast between darkly stained starch granules and fluorescent cell walls permitted computer assisted analysis of data from selected hard and soft wheat varieties. The ratio of starch granule area to cell area was similar for both wheat classes. The starch granule sizes ranged from 2.1 microns 3 to 22,000 microns 3 with approximately 90% of the granules measuring less than 752 microns 3 (ca. 11 microns in diameter). Hard wheat samples had a greater number of small starch granules and a lower mean starch granule area compared to the soft wheat varieties tested. The starch size distribution curve was bimodal for both the hard and soft wheat varieties. Three-dimensional starch size distribution was measured for four cells near the central cheek region of a single caryopsis. The percentage of small granules was higher at the ends than at the mid-section of the cells.     

2-Hydroxystilbamidine isethionate: A new fluorochrome for use in general pathology

Summary 2 mg of 2-Hydroxystilbamidine isethionate when dissolved in 50 ml 0.1 M citric acid produced nuclear fluorescence in paraffin sections. Pre-hydrolysis in 5N HCl at room temperature increased selectivity of nuclear fluorescence. The addition of 100–200 mg sodium metabisulphite to the fluorochrome solution and preoxidation in periodic acid produced selective fluorescence of mucosubstances. Pre-oxidation with potassium permanganate induced selective fluorescence of elastic fibres. Yellow nuclear fluorescence contrasted clearly with blue/white fluorescence of mucosubstances and elastic fibres when excited with UV light. Unwanted nuclear fluorescence was quenched with 5% iron alum solution. Mast cells selectively fluoresced in acid alcoholic solutions of the fluorochrome. The procedures described were simple and rapid and produced permanent fluorescent preparations. The metachromatic fluorescence of nuclei in contrast to that of mucosubstances and elastic fibres eliminated the need for counterstaining.