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.     

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.     

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.     

Polyacrylamide films as a tool for investigating qualitative and quantitative aspects of the staining of glycosaminoglycans with basic dyes

Synopsis With the introduction of model films of polyacrylamide gel into which purified glycosaminoglycans (GAGs) have been incorporated, the direct recording of metachromatic spectra with virtually no interference of the corresponding orthochromatic peaks has become possible. Because this model system yields situations comparable to those of stained sections under the microscope, it is well suited for investigating qualitative and quantitative aspects of histochemical staining procedures. Previous model experiments have shown that under aqueous conditions only minor differences can be observed between the metachromatic peaks of different GAGs complexed with a suitable dye (e.g. Toluidine Blue O, Thionin, Safranin O, Cresyl Violet, Crystal Violet). In non-aqueous media, such as glycerol and ethylene glycol, the complexes with Toluidine Blue O revealed a special pattern for heparin, having a metachromatic peak (517 nm) about 30 nm lower than that of all other GAGs. This observation has formed the basis of a method for the qualitative microspectro-photometric detection of heparinin situ which was worked out by combining model film experiments with microspectrophotometric data obtained from rat mast cells. Since only a limited number of cells is necessary for obtaining reliable data with this method, the presence of heparin in the cytoplasmic granules of normal human mast cells and basophilic granulocytes could thus be proved directly.Alcian Blue 8GX, another basic dye frequently used in GAG histochemistry, has also been investigated with polyacrylamide films. In contrast to the metachromatic dyes, the rate of staining with Alcian Blue depends to a large extent on the rate of penetration of the dye into the model films. The rate of penetration is also a phenomenon of great importance for dye bindingin situ, where complex basic protein molecules may form a barrier for the Alcian Blue molecules. The model film studies performed so far have yielded conditions that provide maximal staining (up to an optimal level) and a linear relationship between the concentration of GAG and the AB binding. The presence of basic protein, electrostatically bound to the GAG, was not found to influence either the rate of staining or the maximal amount of dye binding.Paper presented at a symposium The Changing directions of carbohydrate histochemistry, at the fifth International Congress of Cytochemistry and Histochemistry in Bucharest, Romania on 1 September 1976.     

Ultrastructural localization of proteoglycans in tissue using Cuprolinic Blue according to the critical electrolyte concentration method: Comparison with biochemical data from the literature

Summary Several connective tissues were stained for proteoglycans using the cationic dye Cuprolinic Blue according to the critical electrolyte concentration method. With this method, proteoglycans are visualized as electron-dense filaments. In most tissues, two types of proteoglycan filaments are present: a small (maximum length 60 nm), thin, collagen fibril-associated filament, and a thick, heavily-staining filament which is predominantly localized between bundles of collagen fibrils. Cartilage contains very large (about 300 nm) proteoglycan filaments while in cornea they are very small. Comparison with biochemical data from the literature suggests that the appearance of the proteoglycan filaments may be indicative for the glycosaminoglycan—protein ratio and for the molecular weight of the part of the protein core to which glycosaminoglycans are attached. The data thus obtained on the localization and structure of a proteoglycan may be useful when planning a strategy for its isolation.     

Cuprolinic Blue: a specific dye for single-stranded RNA in the presence of magnesium chloride. I. Fundamental aspects

Summary Qualitative and quantitative aspects of the cationic dye Cuprolinic Blue were investigated with model films of polyacrylamide gel in which RNA, DNA and other biological polyanionic compounds had been incorporated. In the presence of 1m MgCl₂, Curpolinic Blue was found to bind specifically to single-stranded RNA, leaving native DNA, proteins, (acid) polysaccharides and phospholipids completely unstained. Under these conditions, Cuprolinic Blue is complexed by non-electrostatic bonds with non-stacked purine bases, mainly adenine. Optimal conditions for dye binding and differentiation have been defined. Both the Cuprolinic Blue-MgCl₂ staining of single-stranded RNA and the Cuprolinic Blue staining of RNA and DNA in the absence of MgCl₂ were found to obey the Lambert-Beer law. The advantages and possible applications of Cuprolinic Blue are compared with well-known (indirect) histochemical RNA staining procedures.     

X-ray microanalysis of toluidine blue stained chromosomes: a quantitative study of the metachromatic reaction of chromatin

Summary The stoichiometry of metachromatic staining of chromatin by toluidine blue was investigated in isolated metaphase chromosomes from L929 cells using X-ray microanalysis. Microspectrophotometric measurements revealed that a hypsochromic shift (from 595 to 570 nm) occurs in toluidine blue stained chromosomes in relation to the staining solution. Under the electron microscope, stained chromosomes showed higher electron density than control chromosomes. After toluidine blue staining, X-ray microanalysis of chromosomes revealed a large increase for sulphur counts and a considerable increase for Fe and Cu counts, while the signal of Mg, Ca, Cl, K and Zn was reduced. After subtraction of the intrinsic sulphur signal, S/P ratios of 0.82 — for euchromatic arms — and 0.85 — for centromeric heterochromatin — were obtained. They are considered representative of dye/DNA phosphate ratios. These results indicate the occurrence of a nearly stoichiometric binding of toluidine blue to chromatin DNA and suggest that an external dye stacking is responsible for the metachromatic staining of metaphase chromosomes.     

Structure of outer hair cell stereocilia links in the chinchilla

The structure of side, tip, and “attachment” links of chinchilla outer hair cell (OHC) stereocilia was studied by transmission and scanning electron microscopy using tannic acid and Cuprolinic blue histochemical procedures. Tannic acid, which interacts with many different types of proteins and glycoproteins irrespective of their electrical charge, showed strong reactivity for the central area of the side links and weak reactivity for the marginal area of these links adjacent to the stereocilia membrane. Tannic acid treatment revealed the tip links as thin strands, about 5 nm thick. Attachment links were poorly visualized after tannic acid treatment and appeared as sparse filamentous strands at tips of the tallest OHC stereocilia. Cuprolinic blue, at a high critical electrolyte concentration, reacted with strongly negative, primarily sulfated, carbohydrate residues of glycoconjugate macromolecules. In contrast to the tannic acid treatment, the central portions of the OHC stereocilia side links were unstained after Cuprolinic blue treatment; however, membrane-associated ends of these links were darkly stained. The tip links showed a similar appearance as after tannic acid treatment; however, Cuprolinic blue revealed an electron-dense substructure at both ends of its insertion into the stereocilia. Cuprolinic blue reactive structures were also observed as attachment links only at the tips of the OHC stereocilia of the tallest row in each bundle. These structures formed a crown-like array around the tip of each stereocilium. Their primary function appears to be attachment of type B fibrils of the tectorial membrane to the tallest OHC stereocilia. Cuprolinic blue reactive structures of the side, tip, and attachment links appear to contain acidic, sulfated residues of proteoglycans or glycoproteins. These structures may function as connective elements between the stereocilia links and the hair cell cytoskeleton.     

Uneven Distribution and Size of Rabbit Lens Capsule Proteoglycans

To document the ultrastructural distribution of lens capsule proteoglycans, rabbit lens capsules were fixed and stained overnight in 50mM sodium acetate, pH 5.6, containing 2.5% glutaraldehyde, 0.2% Cuprolinic Blue and 0.2M MgCl2. They were rinsed, stained with 1% aqueous sodium tungstate, embedded in Epon, sectioned (60nm), and examined with an electron microscope at 60kV.Proteoglycan–Cuprolinic Blue complexes mainly appeared as networks of small electron-dense filaments throughout the posterior and anterior capsules. The posterior capsule was a single layer with a network of small proteoglycan filaments gradually decreasing in size from the humoral side (90×10nm) to the lenticular side (30×8nm). The humoral side of the anterior capsule had a thin lamina (400nm) containing large (180×40nm), very electron-dense proteoglycan–Cuprolinic Blue complexes plus small proteoglycans. Below this lamina, the complexes were only seen as filaments slightly smaller than those in the corresponding area of the posterior capsule.Cuprolinic Blue binding of the anterior and posterior lens capsules revealed differences in the size and distribution of their sulphated proteoglycans which do not correspond to the patterns of their immunoreactivity with anti-heparan sulphate proteoglycan. The humoral lamina in the anterior capsules, with large proteoglycan structures, might be a distinct structural and functional compartment.     

New tetrachromic VOF stain (Type III-G.S) for normal and pathological fish tissues

A new VOF Type III-G.S stain was applied to histological sections of different organs and tissues of healthy and pathological larvae, juvenile and adult fish species (Solea senegalensis; Sparus aurata; Diplodus sargo; Pagrus auriga; Argyrosomus regius and Halobatrachus didactylus). In comparison to the original Gutiérrez VOF stain, more acid dyes of contrasting colours and polychromatic/metachromatic properties were incorporated as essential constituents of the tetrachromic VOF stain. This facilitates the selective staining of different basic tissues and improves the morphological analysis of histochemical approaches of the cell components. The VOF Type III -6.5 stain is composed of a mixture of several dyes of varying size and molecular weight (Orange G相似文献   

Is the surface layer from hazelnut pollen,which is precipitated by Cuprolinic blue,an effective antigen in hay-fever patients?

Summary In electron micrographs it could be shown that hazelnut (Corylus avellana) pollen grains are covered on their surface by a diffusible 10 nm thick lamellar layer. On pollen surface as well as in pollen extract this layer could be precipitated and stained by the polycationic dye Cuprolinic blue. By subsequent application of both immunogold labeling with serum from a hay-fever patient allergic to tree pollen grains and histochemical detection with Cuprolinic blue this pollen surface layer proved to be an effective antigen.     

Dentine proteoglycans: composition, ultrastructure and functions

Summary Proteoglycans (PGs) have been visualized in the predentine and dentine with cationic dyes by staining thin sections with Alcian Blue, bismuth nitrate, or using Spicer's high-iron diamine (HID) method. The precise location may be obtained by adding cationic dyes such as Cuprolinic Blue, ruthenium hexammine trichloride or cationic detergent (cetylpyridinium chloride) to the fixative. These methods induced the formation of aggregates which varied in shape and number according to the method used. Rapid freezing followed by freeze-substitution revealed an amorphous ground substance, homogeneously stained with Alcian Blue, located in the predentine between the collagen fibres. These PGs may be involved in transport and diffusion in predentine. In dentine, small granules and needle-like structures were observed along the collagen fibres. This second group of PGs differs in composition, distribution and functions from the predentine PGs. The same distribution was seen when hyaluronidase-gold labelling was used. Labelling with antibodies and autoradiography also gave evidence of two distinct groups of PGs. In predentine, as an hydrated gel, PGs seems to act as mineral inhibitors, whereas immobilized on a surface, as seen at the dentine edge, they act as nucleating agents. The interaction between PGs and phospholipids seems also to play a role in the mineralization process.     

Feulgen type staining of mammalian tissues with Dahlia-SO2.

The use of the basic dye, Dahlia, which belongs to triphenylmethane group but without a primary amino group in its molecule has been described as useful in the staining of aldehyde groups of acid hydrolysed DNA in tissue sections following the conventional Feulgen procedure. Dahlia-SO2 prepared with sodium hydrosulphite is highly suitable when used at pH 4-0 to 5-0. The absorption characteristics of the stained nuclei indicate on the peak of maximum absorption at 560 nm, whereas, that of the aqueous dye solution is at 590 nm.     

X-ray microanalysis of toluidine blue stained chromosomes: a quantitative study of the metachromatic reaction of chromatin

The stoichiometry of metachromatic staining of chromatin by toluidine blue was investigated in isolated metaphase chromosomes from L929 cells using X-ray microanalysis. Microspectrophotometric measurements revealed that a hypsochromic shift (from 595 to 570 nm) occurs in toluidine blue stained chromosomes in relation to the staining solution. Under the electron microscope, stained chromosomes. After toluidine blue staining, X-ray microanalysis of chromosomes revealed a large increase for sulphur counts and a considerable increase for Fe and Cu counts, while the signal of Mg, Ca, Cl, K and Zn was reduced. After subtraction of the intrinsic sulphur signal, S/P ratios of 0.82--for euchromatic arms--and 0.85--for centromeric heterochromatin--were obtained. They are considered representative of dye/DNA phosphate ratios. These results indicate the occurrence of a nearly stoichiometric binding of toluidine blue to chromatin DNA and suggest that an external dye stacking is responsible for the metachromatic staining of metaphase chromosomes.     

A Microspectrophotometric Analysis of Staining with Carmine, Orcein and Carmine-Orcein

Microspectrophotometric measurements of carmine, orcein and carmine-orcein were made in solutions, in air-dried films and in stained adult and embryonic tissues of the domestic chicken. For individual stains only minor differences were found between dried dye and stained tissue. The absorption curve for carmine in solution showed a single peak at 490 mμ but was bimodal at about 530 and 570 mμ in dry films and stained tissue. Orcein showed a single broad peak at 510 mμ in solution; in dry films and stained tissue a broadening of the absorption curve in the red wavelengths was observed. The dye mixture carmine-orcein in solution showed a single peak at 500 mμ, but in tissue the spectral absorptions closely resembled carmine. With alum-like carmine, spectral changes due to the addition of iron were not detected. The results indicate that nuclear staining with carmine-orcein is due mainly to the carmine component of the mixture. Interpretation of spectral shifts indicates that acew-carmine is a metachromatic stain while aceto-orcein is mainly an ortho-chromatic stain, although some metachromasy is evident.     

A new method for myofibrillar Ca++-ATPase reaction based on the use of metachromatic dyes: its advantages in muscle fibre typing

A new method for Ca++-ATPase reaction in human muscle fibres is presented as an alternative to previous ATPase stains. The method is based on the use of metachromatic dyes, namely Azure A and Toluidine Blue, and has the advantages of speed, ease of performance and production of an elegant and clearcut fibre typing. The method distinguishes fibre types because of their metachromatic or orthochromatic staining, due to their different content of phosphate after incubation in the reaction medium. The comparison of serial sections stained by cationic dyes and by ammonium sulphide revealed close correspondence of fibre typing. Fibre type differentiation was also obtained with Acridine Orange; however this method was less reproducible.     

Acid polysaccharide content of frog rod outer segments determined by metachromatic toluidine blue staining

Summary Sulfonation of periodate-oxidized vicinal hydroxyl groups on a polysaccharide backbone allows binding of toluidine blue (aldehyde bisulfite-toluidine blue or ABT staining) with a concurrent metachromatic shift of the dye's absorption peak from 630 nm (monomer) to 580 nm (isolated dimer interaction at vicinal sulfonate groups) or 540 nm (dye polymer interaction). A molar absorptivity of 2.358±0.134×10⁴ at 540 nm for polymeric toluidine blue O chloride (TB) aggregates was determined by spectrophotometry of TB bound to hyaluronic acid (HA) and sulfonated glycogen (SG) in water. Microspectrophotometry of ABT stained frog rod outer segments (FROS) showed spectra similar to TB in aqueous HA and SG solutions with absorbances corresponding to 0.063 M dye bound to sugar. Given two dye molecules bound per sugar residue and a rhodopsin concentration of 3.25 mM in FROS, the above indicates 10 stainable sugars per rhodopsin are contained in these cells. Half of these sugars are sensitive to hyaluronidase digestion implying 5 glycosaminoglycan (GAG) repeating units and 5 stainable oligosaccharide sugar residues per rhodopsin in FROS. The GAGs in FROS appear to be primarily HA. Birefringence measurements at 475 nm indicate that this HA and the oligosaccharide of rhodopsin are anisotropically oriented in these cells.Supported by NIH grants EY00012, EY07035 and EY01583     

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.     

Spectroscopic and thermodynamic investigations on the binding of azure B to chondroitin sulfate and the structure of the metachromatic dye complex

The binding of azur B to chondroitin sulfate (CHS) was investigated using absorption spectroscopy. In aqueous solutions it is possible to distinguish three different dye species with absorption bands at 646, 597, and 555 nm. They are assigned to monomers, dimers, and higher aggregates of azure B, which become bound to CHS as the dye concentration (CD) increases. The short-wavelength band (555 nm) causes metachromasia in stained histological materials. When saturation occurs, the metachromatic azure B-CHS complex has a 1:1 composition, i.e., each anionic SO-4 and COO(-)-binding site of CHS binds one dye cation. The composition of the saturated metachromatic complex was determined by spectrophotometric and conductometric titration of CHS with azure B, while the SO-4 and COO- content of CHS was determined by conductometric titration of CHS-acid with NaOH. The binding isotherm of azure B to CHS was determined using gelpermeation chromatography. The isotherm can be described by the model of cooperative binding of ligands to linear biopolymers. We found good agreement between theoretical predictions and experimental findings in the range of 0 less than r less than 0.8 (r = the fraction of occupied binding sites). Using a Schwarz plot, we determined the binding constants of nucleation (Kn = 2.5 X 10(3) M-1) and aggregation (Kq = 1.2 X 10(5) M-1), as well as the cooperativity parameter (q = 50), T = 295 K. With increasing CD, the strong cooperativity of the dye binding favors the formation of metachromatic aggregates rather than monomers and dimers. From the temperature dependence of Kq we evaluated the standard binding enthalpy (delta Hoq = -20.0 kJ mol-1) and entropy (delta Soq = 29.7 JK-1 mol-1) of the cooperative dye binding. The binding was found to be strongly exothermic and accompanied by a thermodynamically favorable entropy increase, this being typical of hydrophobic interactions. Solid azure B-CHS complexes were prepared according to a special dialytic technique and were studied using a microspectrophotometer equipped with a polarizer and an analyzer. The metachromatic 1:1 complex has a broad, intense absorption band whose main peak occurs at 560 nm. This corresponds with the maximum of the metachromatic dye complex in aqueous solution, i.e. 555 nm. The CHS chains of the azure B-CHS complex can be mechanically aligned in a preferred direction (k). We were able to prepare excellently orientated and very fine dye-CHS films which were birefringent and dichroic - the more birefringent, the better the mechanical orientation.(ABSTRACT TRUNCATED AT 400 WORDS)     

Is the surface layer from hazelnut pollen, which is precipitated by Cuprolinic blue, an effective antigen in hay-fever patients?

In electron micrographs it could be shown that hazelnut (Corylus avellana) pollen grains are covered on their surface by a diffusible 10 nm thick lamellar layer. On pollen surface as well as in pollen extract this layer could be precipitated and stained by the polycationic dye Cuprolinic blue. By subsequent application of both immunogold labeling with serum from a hay-fever patient allergic to tree pollen grains and histochemical detection with Cuprolinic blue this pollen surface layer proved to be an effective antigen.