Cuprolinic Blue: a specific dye for single-stranded RNA in the presence of magnesium chloride. II. Practical applications for light microscopy

The application of the new nucleic acid dye Cuprolinic Blue to cell smears and tissue sections has been described. Without added cations, Cuprolinic Blue stains both DNA and RNA, whereas in the presence of 1 M MgCl2, Cuprolinic Blue specifically stains single-stranded RNA only. The total RNA can be stained after removal of DNA by DNAase digestion. Fixation in a modified Carnoy solution gave optimal staining results in all cases tested. By cytophotometry, a reliable and reproducible relative estimate can be obtained of the total nucleic acid content, the total RNA content and the amount of single-stranded RNA alone per cell.     

Staining of proteoglycans in mouse lung alveoli. I. Ultrastructural localization of anionic sites

Summary In order to contrast anionic sites, in mouse lung alveoli, two staining procedures were applied: (a) staining with Ruthenium Red and Alcian Blue and (b) staining with Cuprolinic Blue in a critical electrolyte concentration method. The Ruthenium Red-Alcian Blue staining procedure revealed electron-dense granules in the alveolar basement membrane. The granules were closely associated with the epithelial cell membrane and continued to stain even when the procedure was carried out at a low pH, indicating the presence of sulphate groups in the granules.After staining with Cuprolinic Blue, electron-dense filaments, also closely associated with the cell membrane, became visible in the basement membrane of type I epithelial cells. Their length depended on the MgCl₂ concentration used during staining. At 0.4m MgCl₂, the length was mostly within the range 100–180 nm. Using a modified Cuprolinic Blue method, the appearance of the filaments closely resembled that of spread proteoglycan monomers with their side-chains condensed. The basement membrane of type II epithelial cells also contained filaments positive towards Cuprolinic Blue; their length, however, was smaller in comparison with those of type I epithelial cells. The filaments lay in one plane and provided the whole alveolus with an almost continuous sheet of anionic sites. Cuprolinic Blue staining also revealed filaments in the basement membrane of the capillary endothelial cells. Furthermore, Cuprolinic Blue-positive filaments (average length about 40 nm) became apparent in close contact with collagen fibrils and separated from each other according to the main banding period of the collagen fibrils (about 60 nm), indicating a specific ultrastructural interaction between these two components. Filaments connecting collagen fibrils with each other were also detected.     

The proteoglycan skeleton of the Kurloff body as evidenced by Cuprolinic Blue staining

Summary This study deals with the ultrastructure of the chondroitin sulphate proteoglycans of the Kurloff body, a large lysosome organelle, metachromatic towards Toluidine Blue, of a blood cell unique to the guinea pig and called the Kurloff cell. Splenic Kurloff cell from oestrogen-treated guinea pig cells were examined after staining with Cuprolinic Blue, a cationic phthalocyanine-like dye, in the presence of MgCl₂ in a critical electrolyte concentration method. Better results were obtained when the fixation-staining by the glutaraldehyde Cuprinolinic Blue MgCl₂ mixture was preceded by a glutaraldehyde pre-fixation. On light microscopy, Kurloff bodies generally exhibited an overall pink and glassy metachromasia, sometimes with additional darker metachromatic small dots at their peripheries. At the ultrastructural level, the metachromatic central matrix of the Kurloff body usually exhibited, as a major feature, a typical network pattern of ribbon-like or stellate electron-dense precipitates suggesting the presence of a skeleton of Cuprolinic Blue-reactive filamentous structures. Taking into account their high anionicity (as shown by the stability of the dye binding in the presence of 0.3 m MgCl₂) and their susceptibility to chondroitinase ABC, these anionic structures were assumed to be related to the proteochondroitin-4-sulphate previously characterized as the only major sulphated glycoconjugate of the Kurloff cell.     

Histochemical evidence of a functional heterogeneity of the chondrocytes of adult canine articular cartilage

Synopsis Twenty humeral heads were collected from 10 adult English Pointer dogs, fixed in 15% formalin containing cetylpyridinium chloride, decalcified, processed for paraffin sections, and cut serially. The articular cartilage was studied by staining principally with Alcian Blue in the presence of 0.4 or 0.9m MgCl₂ with and without a van Gieson counterstain. The results of the differential staining procedures demonstrated the existence of two groups of chondrocytes with distinctly different staining affinities. One group reacted intensely for the presence of protein-polysaccharides within its cytoplasm while the other group completely lacked this property. An approximate proportionality of 31 of the protein polysaccharide-positive and-negative chondrocytes was observed in the tangential layer and upper intermediate zone. In the lower intermediate zone, radiate zone, and zone of calcified cartilage, the chondrocyte types were present in equal proportions. Staining with Alcian Blue in the presence of 0.9m MgCl₂ with and without a van Gieson counterstain indicated a further subdivision of the protein-polysaccharide positive group of chondrocytes. This blocking technique has been reported to distinguish between chondroitin sulphate and high mol. wt. keratosulphate. Thus, based upon a greatly decreased number of the blue-stained chondrocytes after staining with Alcian Blue in the presence of 0.9m MgCl₂ the hypothesis is put forward that some chondrocytes produce primarily chondroitin suphate and others produce both chondroitin sulphate and keratosulphate.     

Differential staining of glycosaminoglycans in the predentine and dentine of rat incisor using Cuprolinic Blue at various magnesium chloride concentrations

Summary Rat incisors were fixed with a solution of 0.05% Cuprolinic Blue and 2.5% glutaraldehyde in the presence of various concentrations of MgCl₂ according to the critical electrolyte concentration (CEC) principle. This method allows glycosaminoglycans (GAG) to be properly preserved and visualized. Small granules were stained by the cationic dye in the predentine in the absence of MgCl₂. These granules grew in size and became more electron-dense when the concentration of the electrolyte was increased. Larger ribbon-like structures and granules were seen when 0.3M MgCl₂ was used. In the dentine, tiny dots in close association with the surface of the collagen fibres, or their periodic striations, were positively stained. A thick electron-dense band located on the dentine side at the predentine-dentine junction was seen both with and without 0.05 M MgCl₂. With higher concentrations of the electrolyte (0.1–0.3 M), this band was reduced to a very thin line located at the border of the dentine, along with mineralizing collagen fibres. This demonstrated the presence of GAG at the dentine surface and therefore indicated that GAG may play a role as nucleator agent.     

Staining of proteoglycans in mouse lung alveoli. II. Characterization of the Cuprolinic Blue-positive, anionic sites

Summary The nature of Cuprolinic Blue-positive anionic filaments in mouse lung alveoli has been characterized. The contrast of filaments in the alveolar basement membrane of type I epithelial cells was lost on treatment with nitrous acid and pronase (without prefixation). In contrast, neither neuraminidase, chondroitinase ABC or AC, norStreptomyces hyaluronidase had any effect. Treatment with pronase (after prefixation) and 2.0m MgCl₂ (after prefixation) also had no effect, indicating that the filaments are heparan sulphate proteoglycans. The filaments in the alveolar basement membrane of type II epithelial cells and in the capillary basement membrane of the endothelial cells were also nitrous acid sensitive, but chondroitinase ABC-insensitive. A model in which the whole alveolus contains a single layer of heparan sulphate-containing proteoglycan monomers is proposed. Furthermore, the collagen fibril associated filaments remained unaffected after treatment with nitrous acid, neuraminidase orStreptomyces hyaluronidase, or after digestion with pronase (after prefixation) and treatment with 2.0m MgCl₂ (after prefixation). These filaments, however, could no longer be detected when digestion with chondroitinase ABC or pronase (without prefixation) was applied; chondroitinase AC treatment clearly affected the filaments, although they still were visible. These results indicate that the filaments are dermatan sulphate-containing proteoglycans. Some functional aspects of the proteoglycans are discussed.     

Metachromatic staining and electron dense reaction of glycosaminoglycans by means of Cuprolinic Blue

Summary The cationic phthalocyanin-like dye Cuprolinic Blue, unlike phthalocyanin dyes such as Alcian Blue or Astra Blue, can definitely exhibit a clear metachromatic reaction with appropriate substrates, The application of Cuprolinic Blue to epoxy-embedded semithin sections revealed that mast cell cytoplasmic granules, goblet cell mucin and cartilage matrix stained in violet shades (metachromatic), whereas nuclear chromatin presented a bright blue coloration (orthochromatic). The metachromatic structures showed a high degree of contrast when ultrathin sections treated with Cuprolinic Blue were examined by electron microscopy.Cytophotometric measurements of stained components from the large intestine showed different absorption maxima: at 580 nm for mucin and at 640 nm for nuclei. The spectroscopical analysis revealed a clear-cut metachromatic shift when the dye was in the presence of chondroitin—4-sulphate. The addition of aluminium metal to Cuprolinic Blue solutions resulted in a striking spectral change; under such conditions the dye showed absorption maximum at 530 nm.     

Phenotypic expression of proteoglycan in mast cells of the human nasal mucosa

Summary The phenotypic expression of the proteoglycan of human mast cells in the nasal mucosa and normal skin was analysed using histochemical techniques. Nasal mucosa was obtained from normal subjects, from patients with seasonal allergic rhinitis before and during the pollen season and from patients with nasal polyps. In the latter groups, specimens were taken from both polyp tissue and adjacent nasal mucosa. Formaldehyde treatment blocked the cationic dye binding in 75–84% of the mast cells located in the nasal mucosa, as compared to the optimum fixation with IFAA (iso-osmotic formaldehyde-acetic acid). A significantly lower degree of blocking of dye binding was obtained in the human skin where 45% of the mast cells were susceptible to formaldehyde treatment (P<0.01). The mast cells of the polyp tissue also showed a relatively low degree of blocking (54%), which was significantly lower than the blocking of mast cells of the nasal mucosa taken from the same individuals (P<0.05). Staining of serial tissue sections in Alcian Blue containing graded concentrations of MgCl₂ was used to determine the critical electrolyte concentration (CEC) of the dye binding, defined as the salt concentration at which the staining of 50% of the mast cells is extinguished. The CEC of the skin mast cells was 0.64m MgCl₂ which is significantly higher than that of the mast cells of the nasal mucosa of normal subjects [0.49m (P<0.05)], allergic subjects [0.52m (P<0.01)], patients with polyp disease [0.52m (P<0.01)] and the polyp tissue proper [0.57m (P<0.05)]. This implies that mast cells of the nasal mucosa contain glycosaminoglycans of a relatively lower charge density and/or molecular size than the connective tissue mast cells found in the human skin. A similar difference has been observed between rat mucosal mast cells, containing a chondroitin suphate proteoglycan, and rat connective tissue mast cells which contain a heparin proteoglycan. However, unlike the rat mucosal cells, the mast cells of the human nasal mucosa showed a weakly fluorescent Berberine binding and, like the rat connective tissue mast cells, entirely lost the ability to bind Toluidine Blue after treatment with nitrous acid. Such treatment results in a deaminative cleavage of heparin and heparan sulphate, but does not degrade chondroitin sulphate. These results provide further evidence of the existence of a distinctive mucosal mast cell phenotype also in man. It is suggested that the lower CEC of the mucosal mast cells is an expression of a content of haparan sulphate, while the relatively higher CEC of the skin mast cells is compatible with a content of heparin.     

Histochemical demonstration of hyaluronic acid molecules by Alcian Blue

Summary Specimens of vitreous humour (monkey eye), Wharton jelly (human umbilical cord) and commercial hyaluronates were immersed in buffered fixative solutions containing either aldehydes and Alcian Blue, or aldehydes and Alcian Blue with MgCl₂ as electrolyte. Two MgCl₂ concentrations were used, 0.025m and 0.3m. Immersion in both solutions induced formation of precipitates which were postfixed in OsO₄, dehydrated and embedded for thin section electron microscopy. The use of the same fixative solution produced morphologically comparable precipitates from all three materials. The precipitates, especially after fixation in the presence of electrolyte, were composed of linear, unbranched filaments, frequently aggregated into bundles. The filaments were considered to be molecules of hyaluronic acid.Part of this work was presented at the 10th Meeting of the European Club for Ophthalmic Fine Structure, Copenhagen, September 3–4, 1982.     

Protection of DNA by salts against thermodegradation at temperatures typical for hyperthermophiles

The effect of physiological concentrations of KCl and MgCl₂ on the chemical stability of double-stranded and single-stranded DNA has been studied at temperatures typical for hyperthermophiles. These two salts protect both double and single-stranded DNA against heat-induced cleavage by inhibiting depurination. High KCl concentrations also protect DNA cleavage at apurinic sites, while high MgCl₂ concentrations stimulate this cleavage. It has been previously proposed that salt protects double-stranded DNA against depurination by stabilizing the double helix. However, the inhibition of the depurination of single-stranded DNA by KCl and MgCl₂ indicates that this effect is more probably due to a direct interaction of salts with purine nucleotides. These results suggest that the number and nature of heat-induced DNA lesions which have to be repaired might be quite different from one hyperthermophile to another, depending on their intracellular salt concentration. High salt concentrations might be also useful to protect DNA in long polymerase chain reaction (PCR) experiments and for long-term preservation. Received: October 12, 1997 / Accepted: January 29, 1998     

Victoria blue B — a nuclear stain for cytology

Summary The aim of this study was to investigate the staining characteristics of Victoria Blue B in alcohol solutions. Cytological specimens (liver and spleen tissue imprints, blood smears) were stained with methanol solutions of commercially available Victoria Blue B-Cl and with pure Victoria Blue B-BF₄. The dye concentration, staining time, and protone concentration of the dye solution were varied. The dye solutions were characterized using spectrophotometry and thin-layer chromatography. Cytophotometry and image analysis were used to quantitate the staining pattern of cell nuclei. Feulgen-stained slides were used as controls. Victoria Blue B-BF₄ gave excellent nuclear staining exhibiting a quantitative dye-substrate relationship, whereas commercial dyes resulted in lower staining intensity and less distinct nuclear texture. Dye concentration and staining time were, over wide ranges, not of critical importance for the quality of the staining. Under certain staining conditions, only cell nuclei were stained, with the background remaining completely unstained. We presume that, in alcohol solutions, Victoria Blue dye binds as a neutral dye molecule in conjunction with its anion. Victoria Blue B-BF₄ staining provides a simple and reproducible staining technique for cytology which is suitable for use in automated cell-pattern recognition.Dedicated to Professor Dr. T.H. Schiebler on the occasion of his 65th birthdayThis study was supported by a grant from the Bundesministerium für Forschung und Technologie, Bonn-Bad Godesberg, Federal Republic of Germany, (no. 01 Z08501/6)     

Recycle Use of Sphingomonas sp. CDH-7 Cells for Continuous Degradation of Carbazole in the Presence of MgCl2

Carbazole (CA) is a heterocyclic nitrogen compound contained in the crude petroleum oil and recalcitrant to removal through the refinery processes. For development of the efficient CA-degradation bioprocess, conditions for the recycle use of Sphingomonas sp. CDH-7 resting cells were examined. When the resting cells (O.D.₆₆₀ 3.3) were shaken in 50 mM K₂HPO₄-KH₂PO₄ buffer (pH 7.0) containing CA 1000 mg/L, CA 880 mg/L was degraded within 3 h, but thereafter the activity decreased markedly. However, the activity was found to be restored to the initial level after the shaking treatment for 3 h in CA-free medium solution or in the buffer containing 20 mM MgCl₂. Although the CA-degradation activity of CDH-7 resting cells was lost after 3 h of shaking in the buffer containing 100 mM EDTA, it was restored through the shaking treatment for 3 h in the buffer containing 20 mM MgCl₂. When CA was periodically added eight times at a concentration of 100 mg/L (0.599 mM) to the reaction mixture containing the resting cells, CA 778 mg/L (4.66 mM) was continuously degraded within 35 h by the recycle use of resting cells, with the restoration treatment after each CA-degradation reaction by the resting cells. Received: 28 June 2001 / Accepted: 30 July 2001     

Studies on the permeability of living cells

Summary The penetration of the dye, dahlia, into the sap ofNitella has been determined in the presence of NaCl, KCl, MgCl₂ and CaCl₂ at various concentrations.NaCl is the least effective and MgCl₂ was the most effective in preventing penetration of the dye.It was found that NaCl antagonizes the action of CaCl₂ in certain proportions to a small degree but not sufficiently to permit the dye to penetrate at a normal rate.Published by permission of the Surgeon General.     

Copper retention,calcium release and ultrastructural evidence indicate specific Cuprolinic Blue uptake and peculiar modifications in mineralizing aortic valves

Previously, reactions with copper phthalocyanines at 0.05M critical electrolyte concentration were found to cause demineralization in calcifying porcine aortic valves after subdermal implantation in rat, as well as simultaneous visualization of peculiar phthalocyanine-positive layers around cells and cell-derived matrix vesicles. In the present investigation, an appraisal was made of the mechanism and specificity of reactions with Cuprolinic Blue by comparing quantitatively calcium release and copper retention by calcified aortic valves reacted with this phthalocyanine under different critical electrolyte concentration conditions, and the corresponding ultrastructural patterns. It was found that (i) decalcifying properties are inversely proportional to salt molarity; (ii) reactivity to Cuprolinic Blue is critical electrolyte concentration-dependent, since the greatest copper retention occurred in 0.05M critical electrolyte concentration Cuprolinic Blue-reacted samples, the only ones that also exhibited phthalocyanine-positive layers; (iii) the appearance of phthalocyanine-positive layers depends on Cuprolinic Blue uptake, revealing pericellular clustering of calcium-binding, anionic molecules; and (iv) minor Cuprolinic Blue uptake occurs by residual proteoglycans which still remain in the extracellular matrix after 6-week-long subdermal implantation. The present results indicate that this method is appropriate for the study of mineralized tissues and illustrate peculiar tissue modifications occurring at least in the experimental conditions used here.     

Differential staining of acid glycosaminoglycans (mucopolysaccharides) by Alcian blue in salt solutions

Summary The application of the critical electrolyte concentration (CEC) concept to the differentiation of acidic glycosaminglycans (mucopolysaccharides) is described. Alcian Blue 8GX stains with increasing selectivity as increasing amounts of magnesium chloride are incorporated into the dye solution. Model experiments with pure polyanions, or artifically carboxylated, phosphorylated and sulphated liver sections, showed that binding of dye to carboxylate or phosphate groups ceased at low electrolyte concentrations (< 0.3M) whereas dye continued to be held by sulphate ester groups at concentrations five to ten times as high. The similarity to the well established cetylpyridinium system for polyanion fractionation is discussed.Sections of tissues chosen to contain predominantly or characteristically carboxylated mucins, and/or sulphate ester polyanions showed a staining pattern entirely similar to the model sections. Goblet cell mucin in rat ileum stained at < 0.4M MgCl₂, Cartilage at < 0.6M MgCl₂, mast cells at < 0.75M, and corneal stroma at < 1.0M. These results are in agreement with the known contents of sialo-mucin, chondroitin sulphate, heparin and keratansulphate, respectively. The conditions in which this principle can be used in a practical technique are described.The new and more precise terminology of Jeanloz (1960) is used in preference to the older nomenclature.     

6-Phosphogluconate dehydrogenase in cell free extracts of Escherichia coli K-12

Summary Investigations into the properties of 6-PG dehydrogenase in cell free extracts of Escherichia coli revealed a pH optimum at pH 9.5 with a sharp decline on both sides of the optimum. The addition of 1.0×10^-2 m MgCl₂ produced maximal activity, whereas higher concentrations caused inhibition. The K _m values were 2.5×10^-4 m for 6-phosphogluconate and 2.5×10^-5 m for NADP⁺ as substrate. The enzyme was extremely stable for at least 5 hours if stored at 4°C in Tris–NaCl–MgCl₂ buffer at pH 7.5. 6-PG dehydrogenase activity was shown to be proportional to cell free extract concentration over the range 0–0.3 mg protein. An assay method based on the new optimal conditions has been established and has been shown to be 33% more sensitive than a number of commonly used methods.Meinem hochverehrten Lehrer Herrn Professor A. Rippel zum 80. Geburtstage.     

Salt- and solvent-dependent conformational transitions of ribo-CGCGCG duplex

The conformational transition of r(CpG)₃ was investigated under different chemical conditions. It was found that NaCl at a high concentration induced a partial transformation of the duplex into another conformation of RNA, whereas MgCl₂ and LiCl at concentrations of 2.3 and 5.4 M, respectively, caused the complete transition from A-RNA to the new conformation. ³¹P-NMR spectra measured in 5.0 M LiCl confirmed the conclusion that A-RNA was transformed into another conformation which at 70°C was apparently melted to single-stranded RNA. An increase in MgCl₂ concentration to 0.5 M caused an apparent increase in the stability of the duplex. It was established that apolar alcohols did not influence the duplex conformation but, at 78% ($\text{v}\text{v}$), they caused the aggregation of the duplex. Trifluoroethanol and urea at 78% and 10 M, respectively, caused the melting of the duplex due to the breakage of the hydrogen bonds within the duplex. It was suggested that r(CpG)₃ formed a right-handed helix which under extreme conditions was transformed into another conformation and it was presumed that it might be a left-handed Z-RNA.     

Differences in the red fluorescence of acridine orange bound to single-stranded RNA and DNA.

Fluorescence of acridine orange bound to RNA or DNA in the single-stranded form including single-stranded synthetic polyribo- or polydeoxyribonucleotides was measured in the expectation that some distinct structural characteristic between single-stranded RNA and DNA might be reflected by a specific fluorescent behaviour of bound dyes. It was found that the complex of the dye with single-stranded RNA emits a weaker red fluorescence around 650 nm than the complex with single-stranded DNA at low phosphate-to-dye ratios. The fact could be explained neither by a direct interaction of bound dyes with the 2′-hydroxyl group of ribose in RNA nor by the difference in the G-C content of the nucleic acids. On the basis of the character of dye molecules emitting the red fluorescence, it was suggested that the bases in single-stranded RNA might be buried in some hydrophobic environment that would make the dyes less likely to interact with them, compared with the bases in single-stranded DNA. It was further inferred that some conformational rigidity of single-stranded RNA may partially be responsible for the weaker red fluorescence.     

Microwave Staining of Intestinal Whole-mount Preparations with Cuprolinic Blue

Encouraged by the knowledge that microwaves have a beneficial effect on immunohistochemical reactions, the present study aimed to find out whether microwaves could improve the Cuprolinic Blue staining of enteric neurons as well as the actual method that has been developed for gastrointestinal whole-mount preparations. In addition to incorporating a microwave application in the method described by Holst and Powley (1995), some other modifications were made: two incubations before incubation in the staining solution and free-floating incubations. In the whole-mount preparations, most, if not all, enteric neurons were stained by Cuprolinic Blue. These neurons appeared as blue–green cells with non-reacting nuclei and neuronal processes. At higher magnification, the cytoplasm was characterized by a fine blue– green granulation, and the nucleolus in the nucleus appeared as a blue iridescent structure. Non-specific staining occurred in fibrocy tes and epithelial cells but, because of their location and appearance, they could easily be distinguished from neurons. The modified incubations and the incorporation of a microwave application into the conventional Cuprolinic Blue staining method turn the method into an easy-to-use one that seems to visualize most, if not all, enteric neurons in whole-mount preparations of the pig jejunum.     

Investigations of dye binding in the sequential staining of mucosaccharides by Alcian Yellow-Alcian Blue. 1. Histochemical experiments on different animal and human mucosaccharides

Synopsis It may be assumed that, histochemically, carboxyl groups and sulphate half-ester groups of muco electrolyte concentration of the dye baths in the two steps of a sequential Alcian Yellow-Alcian Blue method. In the present study the specificity and reliability of this method has been investigated.When the staining conditions were the same in both steps, the second dye (Alcian Blue) was found to stain mucosubstances in spite of the prior staining with Alcian Yellow. Binding of Alcian Blue was observed in all but very dilute Alcian Blue solutions. The degree of Alcian Blue binding depended on the dye concentration and staining time of the second step (Alcian Blue), and it varied widely for different mucosubstances. Although an incomplete saturation of anionic groups with dye molecules in the first step cannot be completely excluded, it is thought that Alcian Blue displaces Alcian Yellow from the carboxyl and sulphate groups of mucosubstances in tissue sections.It seems that the sequential Alcian Yellow-Alcian Blue method, under the conditions investigated, does not provide a reliable means for differentiating carboxyl and sulphate groups of mucosbstances in tissue sections simultaneously, because the second dye obviously is capable of displacing the first dye from sulphate groups. However, it is possible to distinguish non-sulphated acid mucosaccharides from sulphated mucosaccharides.