The influence of fixation on immunoperoxidase staining of plasmacells in paraffin sections of intestinal biopsy specimens.

The influence of different fixation methods on the results of immunoperoxydase staining of immunoglobulin and gastrin producing cells in gastric and duodenal mucosa was investigated. An indirect method was used on paraffin sections. It appeared that that fixatives containing sublimate gave the most consistent results, a sublimate-formaldehyde mixture being the best.     

Composition and distribution of glycosaminoglycans in cultures of human normal and malignant glial cells.

The glycosaminoglycans of human cultured normal glial and malignant glioma cells were studied. [35S]Sulphate or [3H]glucosamine added to the culture medium was incorporated into glycosaminoglycans; labelled glycosaminoglycans were isolated by DEAE-cellulose chromatography or gel chromatography. A simple procedure was developed for measurement of individual sulphated glycosaminoglycans in cell-culture fluids. In normal cultures the glycosaminoglycans of the pericellular pool (trypsin-susceptible material), the membrane fraction (trypsin-susceptible material of EDTA-detached cells) and the substrate-attached material consisted mainly of heparan sulphate. The intra- and extra-cellular pools showed a predominance of dermatan sulphate. The net production of hyaluronic acid was low. The accumulation of 35S-labelled glycosaminoglycans in the extracellular pool was essentially linear with time up to 72h. The malignant glioma cells differed in most aspects tested. The total production of glycosaminoglycans was much greater owing to a high production of hyaluronic acid and hyaluronic acid was the major cell-surface-associated glycosaminoglycan in these cultures. Among the sulphated glycosaminoglycans chondroitin sulphate, rather than heparan sulphate, was the predominant species of the pericellular pool. This was also true for the membrane fraction and substrate-attached material. Furthermore, the accumulation of extracellular 35S-labelled glycosaminoglycans was initially delayed for several hours and did not become linear with time until after 24 h of incubation. The glioma cells produced little dermatan sulphate and the dermatan sulphate chains differed from those of normal cultures with respect to the distribution of iduronic acid residues. The observed differences between normal glial and malignant glioma cells were not dependent on cell density; rather they were due to the malignant transformation itself.     

A comparative study of glycosaminoglycans in cultures of human, normal and malignant glial cells.

The glycosaminoglycans (GAG) of human cultured normal glial and malignant glioma cell lines were studied using 35S-sulphate or 3H-glucosamine as markers. 35S-labelled GAG were assayed by precipitation with cetylpyridinium chloride; 3H-labelled sulphated GAG and 3H-labelled hyaluronic acid were quantitated after separation on a DEAE-cellulos column. The net production of GAG and the distribution, composition and turnover of GAG were similar in all of the normal cell lines tested, but showed a great variability in the malignant cell lines. Most of the glioma cell lines produced more hyaluronic acid and less sulphated GAG than the normal cell lines, but exceptions were noted. The GAG of the trypsin susceptible (pericellular pool of normal glial cells consisted mainly of heparan sulphate with only minor amounts of other GAG. The analogous material of most glioma cells showed hyaluronic acid as the major GAG. Material liberated by trypsin from EDTA-detached cells (membrane fraction) was enriched in heparan sulphate as compared to the entire pericellular pool. Substrate attached material (SAM) left with the plastic dish after EDTA treatment of normal cultures was rich in heparan sulphate, whereas SAM of glioma cells lacked heparan sulphate or showed greatly reduced amounts of this component. Release of newly synthesized GAG to the extracellular medium was a rapid process in the normal cells but was more or less delayed in the glioma cells. The extracellular medium of the malignant glioma cultures was consistently poor in dermatan sulphate, as compared to that of normal cultures.     

The influence of fixation on immunoperoxidase staining of plasmacells in paraffin sections of intestinal biopsy specimens

Summary The influence of different fixation methods on the results of immunoperoxydase staining of immunoglobulin and gastrin producing cells in gastric and duodenal mucosa was investigated. An indirect method was used on paraffin sections. It appeared that that fixatives containing sublimate gave the most consistent results, a sublimate-formaldehyde mixture being the best.     

Microwave-accelerated fixation and lacZ activity staining of testicular cells in transgenic mice.

Microwave energy has been used in conjunction with glutaraldehyde to rapidly fix testicular samples of transgenic mice (whole tubules, individual cells, and cryosections) as a preparation for histochemical bacterial beta-galactosidase activity staining. The results demonstrate that the microwave-enhanced aldehyde fixation step is a convenient and simple adaptation for routine analyses, with almost no artifactual consequences or gross distortions in morphology at the microscopic level. The entire procedure (from sacrificing the animal to microscopic observation of the blue spermatogenic cells) can be completed in 1 h.     

The influence of ovarian steroids on ovine endometrial glycosaminoglycans

The ovine endometrium is subjected to cyclic oscillations of estrogen and progesterone in preparation for implantation. One response to fluctuating hormonal levels is the degree of hydration of the tissue, suggesting cyclical alterations in glycosaminoglycan/proteoglycan content. The aim of the present study was to quantitate and characterize glycosaminoglycans in the ovine endometrium during estrogen and progesterone dominant stages. Endogenous endometrial glycosaminoglycan content was determined by chemical analysis and characterized by enzyme specific or chemical degradation. [(35)S]-sulphate and [(3)H]-glucosamine labeled proteoglycans/glycosaminoglycans were extracted by cell lysis or with 4M guanidine-HCl. Extracts were purified by anion exchange and gel chromatography and characterized as above. Estrogen and progesterone dominant endometrium contained 3.2 +/- 0.1 and 2.1 +/- 0.1 mg endogenous glycosaminoglycan/g dehydrated tissue, respectively. Characterization of endogenous glycosaminoglycan showed chondroitin sulphate and hyaluronan contributing over 80%. The major difference between hormonal dominant tissue was a higher estrogenic hyaluronan percentage and a higher progestational keratan sulphate percentage (p < 0.001). Estrogen dominant tissue incorporated 1.6-1.9 fold more radiolabeled proteoglycans/glycosaminoglycans (p < 0.001). Analysis of newly synthesized proteoglycans/glycosaminoglycans revealed a heparan/chondroitin sulphate ratio of 1:2.2-2.5. Keratan sulphate was not detected. Estrogenic hyaluronan was 1.6 fold greater in [(3)H]-labeled tissue. Analysis of labeled proteoglycans/glycosaminoglycans revealed two size classes with apparent molecular weights >2.0 x 10(6) and 0.8-1.1 x 10(5) and a charge class eluting between 0.1-0.5 M NaCl. The greater glycosaminoglycan content (particularly hyaluronan) and synthesis in estrogen dominant tissue supports a role for steroid hormones in endometrial glycosaminoglycan/proteoglycan regulation and consequent tissue hydration. It also suggests a role for these macromolecules in endometrial function and possibly the implantation process.     

Standardization in biological staining. The influence of dye manufacturing.

The purpose of biological staining is to obtain specimens of biological material that can be assessed in the microscope. These specimens are influenced by all processes from removal from the intact organism to mounting on the microscopic slide. To achieve comparable results with various techniques for biological staining, standardization of all procedures and reagents is mandatory. In this paper, I focus particularly on dyes and consider the possibilities for obtaining standardized dyes. In general practice, most biological staining takes place with available commercial dyes. These dyes may or may not have been subjected to quality assessment either internally by the producer or vendor or externally by independent investigators or organizations such as the Biological Stain Commission. Concerted attempts at standardization in Europe are discussed. The latest results of this work, the European standard EN 12376, is presented. This standard is concerned with information supplied by the manufacturer with in vitro diagnostic reagents for biological staining. The standard has been prepared by a Working Group on Staining in Biology under Technical Committee 140, In Vitro Medical Devices, of the European committee for standardization, CEN.     

Phase-partition fixation and staining of Drosophila eggs.

Aqueous solutions of alcohol-acetic acid-formalin or glutaraldehyde-acrolein were shaken with heptane and heptane phase used for fixation. Phase-partition fixation is akin to fixation with vapor. The organic solvent, immiscible with water, penetrates hydrophobic membranes and carries the fixative in contact with water phase of the tissue. Only the fixative enters the tissue, without changing the ionic and water-soluble substance concentrations in the tissue. The quality of this fixation for optical or electron microscopy was as good as that of any conventional fixation method. Staining with basic fuchsin after 2 N HCl hydrolysis gave brilliant staining of nuclei, more intense than that with Feulgen reagent, while cytoplasm remained nearly colorless. Fixing and staining procedures for Drosophila eggs are given.     

The Alcian Blue and combined Alcian Blue-Safranin O staining of glycosaminoglycans studied in a model system and in mast cells

Synopsis Polyacrylamide films containing different glycosaminoglycans have been applied to the study of the Alcian Blue and combined Alcian Blue-Safranin O staining procedures. It was found that the polyacrylamide matrix can be interpreted as some kind of barrier around the substrate molecules, a situation which can be compared to a certain extent with what occursin situ, where complex protein molecules can likewise form a barrier.The Alcian Blue staining of the model films was found to follow the Lambert-Beer law. The time to reach optimal dye binding depended on the concentration of the glycosaminoglycan enclosed in the model films and on the concentration of Alcian Blue in the dye solution. Lowering the pH of the dye solution appeared to increase the rate of staining. Optimal staining of model films in the presence of salt or urea was not possible, because under these conditions the pores of the polyacrylamide matrix became blocked. Alcian Blue was found to bind irreversibly to the glycosaminoglycan molecules enclosed in the polyacrylamide films.The results of the combined Alcian Blue-Safranin O staining applied to model films appeared to be highly dependent on the amount of Alcian Blue bound to the glycosaminoglycan in the first step of the double staining procedure. No specific differences were noticed between the behaviour of the different glycosaminoglycan-Alcian Blue complexes towards the Safranin O binding in the mext step. As the theoretical basis for the application of the combined Alcian Blue-Safranin O staining was also found not to be completely valid, the conclusion was reached that this double staining cannot be used for the histochemical identification of glycosaminoglycans. The colour retained by a certain glycosaminoglycan-containing part of the specimen only delivers information about the accesibility of that part for Alcian Blue.     

The influence of high ambient glucose level on the production of pericellular glycosaminoglycans by cultured endothelial cells

The 14C-acetate metabolic labeling of glycosaminoglycans (GAGs) was used to investigate the effect of high glucose level on the production of hyaluronic acid (HA), heparan sulphate (HS), chondroitin sulphate (CS) and dermatan sulphate (DS) by human immortalized umbilical vein endothelial cells. It is demonstrated that 30 mM glucose decreased the accumulation of HS and increased the accumulation of CS and DS in the cell layer, pericellular matrix and conditioned medium in 48 h of incubation. The modulation of the overall metabolism of sulphated GAGs by high glucose is in contrast to the observed redistribution of HA from the conditioned medium to the pericellular matrix of endothelial cells. The preincubation at 30 mM glucose increased also the attachment of hyaluronidase-treated endothelial cells to HA-coated surface and had no effect on the cell attachment to poly-D-lysine, indicating the alterations of CD44 binding to immobilized HA. The treatment of endothelial cells with p-nitrophenyl-beta-D-xylopyranoside, which inhibits the coupling of CS to the core protein, attenuated high glucose-induced pericellular HA accumulation and decreased cell attachment to HA-coated surface. It is supposed the implication of CD44-related CS in the accumulation of pericellular HA by endothelial cells exposed to high glucose level.     

The influence of embedding media and fixation on the postembedment ultrastructural demonstration of complex carbohydrates. III. High iron diamine staining for sulfated glycoconjugates

The high iron diamine (HID) method for detection of sulfated complex carbohydrate has been applied directly on thin sections of variably fixed tissues embedded in epoxy and nonepoxy resins. Results with postembedment HID staining in mouse intestinal epithelium are compared to those previously obtained using preembedment methods. Sections from epoxy-embedded tissues have been found to exhibit the weakest staining intensity. Intense, specific staining was obtained in tissues not postfixed with osmium tetroxide and embedded in polystyrene, polyester resins, styrene-methacrylate, and especially the styrene-Vestopal W embedding mixture. Postosmication of tissues abolished HID staining in epoxy resins and the styrene-Spurr's resin embedding mixture, but only reduced the staining intensity in tissues embedded in nonepoxy resins.