The effect of various fixation procedures on the digestability of sialomucins with neuraminidase

Synopsis The histochemical digestability with neuraminidase of sialomucin in mouse sublingual gland was studied in unfixed and formaldehyde vapour-fixed cryostat sections, and in sections prepared from paraffin-embedded material fixed in several alcohol- or formaldehyde-containing fixatives recommended for mucosubstances.The removal of sialic acid residues from sections treated with neuraminidase was followed histochemically with the following staining methods: Azure A pH 3.5, Alcian Blue pH 2.5, Low Iron Diamine and Alcian Blue pH 2.5 followed by periodic acid-Schiff. When Goland's methanolic cyanuric chloride was used as fixative, only a partial loss of tissue basophilia was evident after enzyme incubation, but in tissues fixed in other ways a complete loss of histochemically detectable sialic acid residues was observed.     

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.     

Side effects of reaction media in histochemical blocking procedures

Synopsis 0.2 N NaOH, the reaction medium for 1,2-cyclohexanedione, a specific reagent for arginyl residues in proteins, was found to intensify, at some sites in rat abdominal skin and human gingiva, the Sakaguchi reaction, staining with Pauly's reagent, and anionic dye binding at pH 6.4; at other sites these reactions were reduced, presumably due to extraction of material from sections. 0.2 N NaOH slightly reduced staining after the ninhydrin-Schiff procedure at all sites in rat skin. The interpretation of this finding is obscure, because some sites giving a positive Sakaguchi reaction and staining with anionic dyes failed to stain after the ninhydrin-Schiff procedure. There were also alterations in staining, with the cationic dyes Alcian Blue and Alcian Yellow. It is suggested that 0.2 N NaOH ruptures linkages between polycationic residues of proteins and polanions, demonstrable by Alican Blue. The blockade produced by acetic anhydride-pyridine (4060 v/v) mixtures was stable, in the alkaline conditions required for staining with Pauly's reagent. Pretreatment with pyridine alone reduced tissue binding of anionic dyes.     

Alcian Blue staining of glycosaminoglycans in embryonic material: Effect of different fixatives

Summary Glycosaminoglycans are important components of the extracellular matrix of developing embryos where they are found in the form of proteoglycans. Alcian Blue staining of tissue sections is the technique most commonly used for demonstrating their distribution. Glycosaminoglycans have a high solubility in water, and are easily lost from the tissue during processing, even if non-aqueous fixatives have been used. Formalin and Carnoy's fluid are the most frequently used fixatives, and the addition of cetyl pyridinium chloride has been recommended to reduce glycan solubility.Using sections of day-10 rat embryos containing developing head and heart (both known to be rich in glycosaminoglycans) the effects of ten fixatives have been investigated with and without cetyl pyridinium chloride on the preservation of Alcian Blue-stainable material (at pH 2.5) and tissue structure. The most useful fixatives were Karnovsky's and Sainte-Marie's. Both gave a strong and reproducible staining pattern of the extracellular polyanionic material. Sainte-Marie's gave better preservation of tissue structure, allowing the demonstration of cell-matrix inter-relationships; Karnovsky's gave a better contrast between extracellular and intracellular staining, which is particularly useful at lower magnifications.Cetyl pyridinium chloride is a detergent. Transmission electron microscope observations showed that it causes cell membrane disruption and vesicle formation, which at the light microscopic level, would cause cell membrane-associated glycosaminoglycans to appear as stained strands wholly within the extracellular domain. Therefore the use of cetyl pyridinium chloride is inadvisable where a distinction between surface-related and extracellular glycosaminoglycans is desirable. It has the further disadvantage of enhancing cytoplasmic and nuclear polyanionic material, thus decreasing the differential staining intensity of intracellular and extracellular domains.     

Electron microscopic visualization of proteoglycans with Alcian Blue.

The intercellular matrices of bovine nasal cartilage, chick embryo perichordal cartilage, and chick embryo mesenchymal cells cultured in vitro have been examined by electron microscopy after staining them with Alcian Blue in salt solutions according to Scott & Dorling (1965). Matrix granules, which are typical components of cartilage at the ultrastructural level, are not visible after Alcian Blue staining and are replaced by alcianophilic rod-like particles, varying in length and width. With tissue cultures, Alcian Blue stains 40-120 A thick filaments which display an orthogonal and longitudinal relationship to collagen fibrils. We assume that cartilage matrix granules represent linear proteoglycans that are coiled as a consequence of the usual glutaraldehyde-osmium fixation. It is thought that Alcian Blue, on the other hand, contributes to the stabilization of the proteoglycans in their original structural arrangement. This stabilizing property presumably also results in the sharp visualization of fine filaments in the tissue culture matrix.     

Staining of sulphatides in metachromatic leukodystrophy with Alcian blue at high salt concentrations.

Alcian blue combines with purified sulphatide in 1.OM magnesium chloride. In tissue sections from patients with metachromatic leukodystrophy, sulphatide is stained by Alcian blue in 0.8 M magnesium chloride, and the staining can be abolished by prior treatment with chloroform and methanol. The simplicity of the technique, its specificity and ease of interpretation recommend Alcian blue staining at high salt concentrations as a routine method in the diagnosis of metachromatic leukodystrophy.     

Staining of sulphatides in metachromatic leukodystrophy with Alcian blue at high salt concentrations

Summary Alcian blue combines with purified sulphatide in 1.OM magnesium chloride. In tissue sections from patients with metachromatic leukodystrophy, sulphatide is stained by Alcian blue in 0.8 M magnesium chloride, and the staining can be abolished by prior treatment with chloroform and methanol. The simplicity of the technique, its specificity and ease of interpretation recommend Alcian blue staining at high salt concentrations as a routine method in the diagnosis of metachromatic leukodystrophy.     

Enzymatic Elimination of Collagen in the Alcian Blue Staining of Connective Tissue Ground Substance

Collagenase pretreatment of frozen-dried sections permits Alcian blue staining of mucopolysaccharides of connective tissue ground substance without the interference of collagen staining. Hyaluronidase elimination of Alcian blue staining confirms mucopolysaccharide as a substrate of the staining reaction.     

The influence of fixation on staining of glycosaminoglycans in glial cells.

Cytoplasmic staining of glial cells by Alcian blue in 0.40 M magnesium chloride can be demonstrated in sections of brain tissue fixed in formol-acetic acid and in Bouin's solution. Phosphate-buffered aldehyde fixatives, whether at neutral or low pH, fail to preserve stainable material.     

植入了骨修复材料的小型猪腰椎椎体不脱钙病理组织切片制备方法

摘要 目的：建立植入了骨修复材料小型猪腰椎椎体骨组织标本的不脱钙病理组织切片制备方法。方法：将含骨修复材料的腰椎椎体骨组织标本进行分割暴露组织切面,梯度浓度乙醇脱水后经Technovit 7200 VLC光聚树脂浸润,经黄蓝光共同辐照进行光聚合包埋,借助硬组织病理切磨系统制备含骨修复材料不脱钙病理组织切片。结果：结果显示通过上述方法制备的病理组织切片,经苏木精-伊红（HE）染色及甲苯胺蓝染色后光学显微镜下观察能较好地显示骨的各种组织细胞结构,可清晰的观察到骨小梁的走向及连接情况。结论：研究建立了含骨修复材料骨组织标本病理组织切片制备方法,实现了含骨修复材料不脱钙骨组织病理切片的制备,经病理染色后实现了带植入物的组织学观察,为生物材料及医疗器械动物试验研究提供了新的病理检测手段及组织学评价途径。     

Selection of a simple protease procedure for identifying mast cells in routinely processed human tissues

Proteases present in mast cell granules have been harnessed to demonstrate mast cells in human tissues. A number of substrate mixtures were tested. D-Val-Leu-Arg-4-methoxy-2-naphthylamide (MNA) plus Fast Blue B was the best for identifying human mast cells, yielding the most specific and complete staining. The procedure is simple and the results are permanent. Cryostat sections of aldehyde-fixed routine preparations or paraffin sections of Carnoy-fixed tissues give the most satisfactory results. Mast cells are stained a strong red color that stands out distinctly from the surrounding tissues, so that they can be easily identified by simple microscopy. A double-staining technique, first for protease and subsequently using Alcian Blue, showed that as progressive protease staining occurs, the alcianophilia of mast cells is lost. This procedure demonstrated that mast cells in the mucosa of human gut generally required longer incubations to develop protease staining than in other connective tissue sites. In post-mortem tissues, mast cells retain their protease activity well and so can be demonstrated in cryostat sections of aldehyde-fixed material, giving a more complete picture than with Alcian Blue. The synthetic substrate D-Val-Leu-Arg-MNA can be recommended for routine identification of mast cells in human tissues.     

A new technique for removal of amorphous phase tissue water without ice crystal damage: a preparative method for ultrastructural analysis and immunoelectron microscopy

An apparatus has been produced that can remove amorphous phase tissue water via molecular distillation without devitrification or rehydration. This method represents a fundamental advance in tissue preparation, making possible for the first time ultrastructural localization of soluble molecular entities without the problems of alteration, re-distribution, and loss which have plagued conventional techniques. Fresh slices of rat brain, liver, or kidney, and monkey retinal tissue were cryofixed by bounce-free, metal mirror cooling on copper bars immersed in liquid nitrogen (LN2). Tissue transferred under LN2 was then placed in a precooled copper specimen block, which was subsequently lowered into a LN2-cooled stainless steel chamber. After rough pumping at 1 X 10(-3) mbar with a mechanical pump to remove LN2, the chamber was evacuated with a cryopump or turbomolecular pump to achieve a hydrocarbon-free, ultra-high vacuum of 1 X 10(-8) mbar. Equilibrium temperature in the chamber before the drying cycle was -192 degrees C. The copper specimen block was equipped with a thermocouple and a programmable feedback-controlled heating circuit. Tissue was dried by increasing the specimen block temperature 1 degree C/hr during the critical drying phase while monitoring the rate of water removal with a partial pressure analyzer. Results obtained indicate that drying is complete below the devitrification temperature of amorphous phase tissue water. Dried tissue was fixed with osmium tetroxide vapor, vacuum-embedded in a low-viscosity epoxy resin, sectioned, stained, and viewed with the electron microscope. Processed tissue exhibits excellent morphological preservation without the use of pre-fixation or cryoprotective agents. Thin sections of this tissue are excellent for immunocytochemical staining and electron microprobe analysis.     

OBSERVATIONS ON THE FINE STRUCTURE AND CYTOCHEMISTRY OF MOUSE AND HUMAN INTERCOSTAL NEUROMUSCULAR JUNCTIONS

The fine structure of the mouse and human intercostal muscle neuromuscular junction was studied after brief fixation in a new formol-sucrose fixative. This primary formalin fixation was followed by brief postosmication in buffered 1 per cent osmium tetroxide. Muscle blocks were embedded in methacrylate or Epon 812 epoxy resin. Marked similarities between mouse and human motor end-plates were observed. Neuromuscular junctions from both mouse and human intercostal muscle showed synaptic vesicles, primary and secondary synaptic clefts, and layered differentiation of the amorphous surface material (ASM) present on the surface of the Schwann cell plasma membrane and on the muscle surface membrane in the region of the neuromuscular junction. An attempt to stain the ASM with lead was unsuccessful. Observations on thick and thin plastic-embedded sections stained by PAS after diastase digestion showed that the ASM within the subneural apparatus is PAS positive. Alcian blue stained the endoneurium and perineurium of peripheral nerve bundles and portions of the end-plates. The similarity of the PAS-positive ASM to other basement membranes described in other sites is discussed and its possible physiologic significance within the subsynaptic apparatus is considered.     

Freeze-substitution staining of rat growth plate cartilage with alcian blue for electron microscopic study of proteoglycans

To selectively stain polyanionic macromolecules of growth plate cartilage and to prevent artifacts induced by aqueous fixation, proximal tibial growth plates were excised from rats, slam-frozen, and freeze-substituted in 100% methanol containing the cationic dye Alcian blue. Electron microscopic examination showed the tissue stained with Alcian blue to be comparable in ultrastructural preservation to tissues slam-frozen and freeze-substituted in the absence of Alcian blue. The extracellular matrix exhibited a characteristic staining pattern when stained by this method. The pericellular rim was identified as a band of varying width encircling the chondrocyte and its cell processes. Peripheral to the pericellular rim the heterogeneity of staining within the extracellular matrix increased, taking the form of polymorphic densities. X-ray microanalysis showed that the visual interpretation of electron density was related to the concentration of copper present, and that the concentration of sulfur was variable in the pericellular rim and in the interterritorial matrix. The difficulties associated with aqueous fixation and staining procedures are discussed in contrast to the improved preservation achieved by cryogenic methods.     

Keratin in the Egg Shells of Amphistomes; Histochemical Differentiation from Quinonetanned Protein in Other Trematoda

Various combinations of the oxidation method for demonstrating keratin in shell material of amphistomes were tried. Acidified permanganate worked more efficiently than performic and peracetic acids, and Alcian blue and aldehyde fuchsin excelled other basic dyes for subsequent staining. For the permanganate-Alcian blue reaction, sections of material fixed in Susa or Bouin were oxidized in 0.3% permanganate in 0.3% H₂SO₄ for 5 min., decolourized in 1% oxalic acid, stained in 3% Alcian blue in 2 N H₂SO₄ and counterstained with eosin. The shell globules stained a deep blue. For permanganate aldehyde fuchsin staining, the sections were stained in aldehyde fuchsin for 1 hr, after oxidation with permanganate. The shell globules then stained a deep magenta. The catechol and fast red reactions were negative in amphistomes and the specimens lack the characteristic amber colour due to quinone tanning.     

The histochemical specificity of Streptomyces hyaluronidase and chondroitinase ABC.

Synopsis Treatment of tissue sections with enzymes which degrade specific types of glycosaminoglycans should provide a means for localizing glycosaminoglycans in tissue sections. The feasibility of this technique was examined by utilizing endogenously labelled glycosaminoglycans in chick and quail embryos. Less than 8% of the total glycosaminoglycans appear to be lost non-specifically during fixation and dehydration. BothStreptomyces hyaluronidase and chondroitinase ABC degraded more than 90% of their respective substrates and demonstrated minimal non-specific extraction of other glycosaminoglycans. The selectivity of chondroitinase ABC for sulphated glycosaminoglycans was substantially increased by raising the pH of the incubation buffer to 8.6. At this pH, chondroitinase ABC degraded negligible amounts of hyaluronic acid. Use of bothStreptomyces hyaluronidase and chondroitinase ABC confirmed that embryonic hyaluronic acid binds Alcian Blue under conditions that were previously believed specific for sulphated glycosaminoglycans. We suggest that this may be due to the increased molecular weight of embryonic hyaluronic acid compared to the hyaluronic acid in adult tissues. The results presented suggest that treatment of adjacent sections with buffer, chondroitinase ABC at pH 8.6, andStreptomyces hyaluronidase and subsequent staining with Alcian Blue provides a method for localizing and quantitating glycosaminoglycans in tissue sections.     

Histochemistry defines a proteoglycan-rich layer in bovine flexor tendon subjected to bending

Mid-substance fibrocartilage develops in bovine deep flexor tendon at the point where the tendon wraps under sesamoid bones of the foot and receives transverse compressive loading during locomotion. Fibrocartilage extends several millimeters into the tendon at this location and the proteoglycan-rich tissue stains intensely with Alcian blue. Using histochemical techniques we demonstrate the presence of aggrecan, type VI collagen, and hyaluronic acid in the extracellular matrix of this region of tendon. Biglycan staining was localized to the cells, however. Adjacent to the fibrocartilage, at the outer curvature of the tendon as it bends, the tissue resembles typical tensile tendon with dense bundles of linearly arranged collagen. Longitudinal sections revealed discrete layers of Alcian blue-stained material between the collagen bundles. We demonstrate that these layers of loose matrix also contain aggrecan, type VI collagen, and hyaluronic acid. However, the dense collagen bundles of this region are negative for these components. Transverse sections of tendon in the area adjacent to fibrocartilage show a distinct Alcian blue-stained structure surrounding vascular elements at the point where several fiber bundles come together. This is concluded to be the same structure as the Alcian blue-stained layers seen in longitudinal sections. These observations suggest that proteoglycan-rich matrices in tendon subjected to mechanical loading other than pure tension may serve multiple roles. Such matrices can not only provide compressive stiffness and separate and lubricate collagen bundles that move relative to each other, but may also protect the integrity of vasculature in tendon subjected to bending and shear.     

Immunohistochemical staining for chondroitin sulphate and keratan sulphate. An evaluation of two monoclonal antibodies

Summary Immunohistochemical staining with commercially available antibodies against chondroitin sulphate (clone CS-56) and keratan sulphate (clone 1/20/5-D-4) was compared with two conventional histochemical methods for the demonstration of glycosaminoglycans, namely Alcian Blue with varying pH and critical electrolyte concentrations, and a modified PAS stain. The antibodies were tested on sections from both frozen and fixed, paraffin embedded human material from umbilical cord, skin, and bronchus. The results showed immunostaining to function equally well on frozen and routine sections, and to be superior to Alcian Blue and PAS with regard to morphological detail. Thus, reactivity with anti-chondroitin sulphate was demonstrated in vessel walls, in small nerves, in the basal membrane zone of the skin, in perichondrium, and in and around chondrocytes. Reactivity with anti-keratan sulphate occurred in chondroid matrix and in perichondrial tissue; however, some cells of the bronchial epithelium and mucous glands also exhibited positivity.     

Immunohistochemical staining for chondroitin sulphate and keratan sulphate. An evaluation of two monoclonal antibodies

Immunohistochemical staining with commercially available antibodies against chondroitin sulphate (clone CS-56) and keratan sulphate (clone 1/20/5-D-4) was compared with two conventional histochemical methods for the demonstration of glycosaminoglycans, namely Alcian Blue with varying pH and critical electrolyte concentrations, and a modified PAS stain. The antibodies were tested on sections from both frozen and fixed, paraffin embedded human material from umbilical cord, skin, and bronchus. The results showed immunostaining to function equally well on frozen and routine sections, and to be superior to Alcian Blue and PAS with regard to morphological detail. Thus, reactivity with anti-chondroitin sulphate was demonstrated in vessel walls, in small nerves, in the basal membrane zone of the skin, in perichondrium, and in and around chondrocytes. Reactivity with anti-keratan sulphate occurred in chondroid matrix and in perichondrial tissue; however, some cells of the bronchial epithelium and mucous glands also exhibited positivity.     

The effect of pH on Alcian Blue staining of epithelial acid glycoproteins. I. Sialomucins and sulphomucins (singly or in simple combinations)

Synopsis This study is concerned with the staining of epithelial acid glycoproteins by Alcian Blue at various pH levels. A detailed analysis of the effect of pH on Alcian Blue staining of epithelial tissues at selected sites was made. Alcian Blue was combined with the periodic acid-Schiff technique, the Alcian Blue being used at pH levels between 2.6 and 0.5.Animal salivary glands, human foetal tracheal gland and epithelial goblet cells of the adult bronchial mucosa were chosen for study because the nature of their acid glycoprotein is known and is relatively simple.In sites containing sialomucin alone, no Alcian Blue staining took place below pH 1.5. A difference was demonstrated between sialidase-sensitive sialomucin which stained only between pH 2.6 and 1.7, and sialidase-resistant sialomucin which stained between pH 2.6 and 1.5. Two types of sulphomucin were identified: the usual one stained with Alcian Blue at all the pH levels studied, and the other, in the canine gland, stained only at the most acid pH levels, that is, between pH 1.5 and 0.5.