Cellular membrane contrast and contrast differentiation with osmium triazole and tetrazole complexes

Summary Addition of heterocyclic nitrogen compounds to the classical osmium tetroxide postfixation medium, applied after glutaraldehyde fixation, results in enhanced membrane contrast in ultrathin sections of liver tissue. The addition of similar compounds to potassium osmate solutions, results in contrast differences in some cellular membranes. The membranes of the rough endoplasmic reticulum, the nuclear envelope and the plasma membrane acquire contrast, while the mitochondrial membranes do not. The apolar regions of membranes are contrasted when osmium tetroxide is combined with heterocyclic nitrogen compounds, whereas the polar regions are contrasted by combinations of potassium osmate with these compounds. This polar membrane contrast is probably due to the presence of an amino-group in the heterocyclic nitrogen compounds. Compounds without the amino-group do not contrast membranes, although the glycogen is contrasted.X-ray microanalysis served to establish the relative osmium content in contrasted glycogen, and showed that such nitrogen compounds play a role in complexation of cations in aldehyde-fixed tissues. Electron spectroscopy for chemical analysis (ESCA) measurements of isolated muscle glycogen show that after treatment with various osmium tetroxide or potassium osmate solutions, hexavalent and quadrivalent osmium species are present in the glycogen. The presence of (heterocyclic) nitrogen compounds in such solutions stabilizes certain osmium valency species, and this may account for the contrast observed.     

A cytochemical study on the effects of energy deprivation on autophagocytosis in Ehrlich ascites tumor cells

Summary The effect of energy deprivation on autophagocytosis in Ehrlich ascites tumor cells was studied using cytochemical techniques. Autophagocytosis was induced with vinblastine incubation (0.1 mM) and the cellular ATP-level was lowered with 2-deoxy-d-glucose (0.35 mM). Acid phosphatase was used as a marker for lysosomal enzymes and imidazole-buffered osmium tetroxide impregnation in order to study the effects of energy deprivation on the maturation of autophagic vacuole (AV) membranes.Control and vinblastine treated cells maintained their ATP-levels throughout the incubation period tested (120 min). 2-Deoxy-d-glucose alone and with vinblastine decreased the intracellular ATP-level significantly after only 3 min incubation. Most of the AV's in control and vinblastine treated cells contained degraded material and acid phosphatase activity. Their membranes were stained only slightly or not at all with imidazole-buffered osmium tetroxide. 2-Deoxy-d-glucose alone as well as with vinblastine induced in particular an accumulation of early stages of AV's. These vacuoles contained undegraded cytoplasmic material and no acid phosphatase activity and their membranes were stained usually partly with imidazole-buffered osmium tetroxide. The membranes of some early AV's resembled endoplasmic reticulum and still had attached ribosomes.It was concluded that the inhibition of cellular energy production used in the present study did not inhibit autophagic sequestration but retarded the maturation of AV membranes and impaired the functioning of lysosomal hydrolases.     

The effects of various fixatives on the relative thickness of cellular membranes in the ventral lobe of the rat prostate

Synopsis A densitometric method was utilized in the measurement of the relative thickness of the cellular membranes in the ventral lobe of the rat prostate. Potassium permanganate, glutaraldehyde, osmium tetroxide, and ruthenium tetroxide solutions were used as fixatives. During preparation for electron microscopy, the tissues were given standardized treatments to reduce methodological errors; latex particles were applied to the thin sections to serve as reference particles of a known size. The most remarkable observation of the study was that the densitometric method yielded reproducible results and that the different fixatives gave significantly different values for the relative thickness of cellular membranes. Glutaraldehyde, or glutaraldehyde followed by ruthenium tetroxide post-fixation, gave the highest values for membrane thickness while osmium tetroxide and potassium permanganate gave the lowest values. Glutaraldehyde treatment, prior to osmium tetroxide or potassium permanganate post-fixations, rendered the membranes thicker than after osmium tetroxide and potassium permanganate treatments alone. Ruthenium tetroxide appeared to be very suitable for fixation of cellular membranes.     

An enhanced method for post-embedding immunocytochemical staining which preserves cell membranes.

We have devised a method for immunogold staining of unosmicated, plastic-embedded tissue which gives high levels of specific staining without scrificing cell ultrastructure. The key to this method is a combination of several standard techniques optimized to preserve cell membranes as well as antigen. Important conditions include (a) a combination primary fixative, (b) post-fixation with uranyl acetate to preserve membrane phospholipids, (c) dehydration with acetone to minimize extraction of phospholipids, (d) low-temperature embedding in LR Gold resin, and (e) use of osmium tetroxide to stain thin sections after immunogold labeling. We have developed this method specifically to localize the membrane receptor for immunoglobulin G in the jejunal epithelium of the neonatal rat. Ultra-thin sections of embedded tissue were stained with a monoclonal primary antibody and colloidal gold-labeled secondary antibody, followed by 2% osmium tetroxide and lead citrate. The receptor was resolved in the well-preserved network of tubules, endosomes, and other membrane compartments involved in immunoglobulin transport. In several other tissues processed by this method, cell ultrastructure resembled that seen after conventional osmium post-fixation and epoxy embedding. In addition to its usefulness in these studies, this general method should be applicable to many other immunocytochemical problems.     

Chemical aspects of glycogen contrast-staining by potassium osmate

Summary To obtain contrast-staining of glycogen in electron microscopy, various contrast-enhancing additives can be used in combination with potassium osmate. Examples are potassium ferrocyanide and certain nitrogen heterocyclic compounds, such as triazoles. In the reaction sequence leading to contrast-stained glycogen, a primary reaction is the formation of glycogen osmate. This reaction was studied with isolated glycogen. On the basis of the stoichiometric findings, a molecular structure of the reaction product is proposed; apparently, osmate is bound by glycogen because of the presence of suitably located hydroxyl groups. The resulting compound is not itself sufficiently electron dense, but it binds 1,2,4-triazole as an additional ligand. Secondary reactions can result in additional osmium binding, and finally to osmium (IV) deposits, leading to contrast.     

Ultrastructure of the concentric membrane system in Arthrinium aureum

An ultrastructural study was performed on Arthrinium aureum. The fungi were treated with glutaraldehyde and osmium tetroxide fixation. The hypha and conidia has a concentric membrane system which consisted of multiple membranes of a myelinoid appearance, and continued to the conidia and hypha plasma membrane. The fungi were also treated with periodic acid-alkaline bismuth (PABi) staining after glutaraldehyde and osmium tetroxide fixation. PABi positive materials were found on the marginal glycogen granules, the concentric membrane system and the conidia plasma membrane.     

Localization of the synaptonemal complex under the light microscope

The use of osmium tetroxide fixation followed by postreatment with p-phenylenediamine gives an opportunity of locating the synaptonemal complex (SC) under the light microscope in mouse testes and Allium cepa anthers. When semi-thin sections from these materials were observed under phase contrast optics or dark field microscopy, fine threads in the pachytene nuclei were clearly visible. Post-staining of semi-thin sections with ammoniacal silver increased the contrast of the SC and allowed for observations using a bright field illumination. Ultrathin sections of osmium tetroxide/ p-phenylenediamine treated material showed that, under the electron microscope, this technique stains preferentially elements of the synaptonemal complex, while the surrounding chromatin remains unstained.     

Cytochemical localization of catalase in leaf microbodies (peroxisomes)

Segments of mature tobacco leaves were fixed in glutaraldehyde, incubated in medium containing 3,3''-diaminobenzidine (DAB) and hydrogen peroxide, and postfixed in osmium tetroxide. Electron microscopic observation of treated tissues revealed pronounced deposition of a highly electron-opaque material in microbodies but not in other organelles. The coarsely granular reaction product is presumably osmium black formed by reaction of oxidized DAB with osmium tetroxide. Reaction of the microbodies with DAB was completely inhibited by 0.02 M 3-amino-1,2,4-triazole and was considerably reduced by 0.01 M potassium cyanide. These results, when considered in light of recent biochemical studies, strongly suggest that catalase is responsible for the reaction. Sharp localization of this enzyme in microbodies establishes that they are identical to the catalase-rich "peroxisomes" recently isolated from leaf cell homogenates. A browning reaction that occurred in leaves during the incubation step was inhibited by cyanide but not by aminotriazole and therefore could not have been caused by the same enzyme. This reaction and a slight deposition of dense material within primary and secondary walls are ascribed to oxidation of DAB by soluble and wall-localized peroxidases.     

Electron microscopic observations on isolated mitochondrial membranes,prepared by various histological methods

Summary The pictures of isolated mitochondrial membranes, as seen on the electron-microscope, depend very much on the method of specimen preparation. Subunits of linear dimensions of about 25 m, (electron transport particles) are observed in carbon-replicas of the membranes and in specimens treated with trypsin or pepsin (0.02% for 30 mins) and shadowed with platinum. A three-layered structure of the unit membrane is seen in sections of specimens fixed with osmium tetroxide or formalin followed by post-fixation with osmium tetroxide. But fixation with potassium permanganate or with formalin, followed by post-fixation with potassium permanganate reveals an electron-dense globular structural element in the unit membrane. An electron-transparent ultrastructural element of the unit membrane is observed after treatment with trypsin (0.2% for 5 mins) and fixation with osmium tetroxide. Unsectioned specimens treated with 0.02% trypsin for 30 mins show a honeycomb-like structure of the membrane. Thus, part of the results appear to support the concept of a mosaic-like structure of the unit membrane, whereas other results are in agreement with the classical concept of a three-layered structure.The authors wish to express their gratitude to Dr. Sina Rosenthal, Department of Physiological Chemistry, Humboldt University, Berlin, who prepared the isolated membranes, to Mr. E. Fischer, Head Technician of the Department of Electron Microscopy, Greifswald University, who took most of the electron micrographs, to Mr. G. Bartsch, Department of Electron Microscopy, Greifswald University, and especially to Prof. W. Bargmann and to Doz. E. Lindner, Department of Anatomy, Kiel University, for many valuable suggestions.     

Membrane associated qualitative differences in cell ultrastructure of chemically and high pressure cryofixed plant cells

Membrane contrast can sometimes be poor in biological samples after high pressure freezing (HPF) and freeze substitution (FS). The addition of water to the FS-medium has been shown to improve membrane contrast in animal tissue and yeast. In the present study we tested the effects of 1% and 5% water added to the FS-medium (2% osmium with 0.2% uranyl acetate in anhydrous acetone) on the quality and visibility of membranes in high pressure frozen leaf samples of Cucurbita pepo L. plants and compared them to chemically fixed cells (3% glutaraldehyde post-fixed with 1% osmium tetroxide). The addition of water to the FS-medium drastically decreased the amounts of well preserved cells and did not significantly improve the quality nor visibility of membranes. In samples that were freeze substituted in FS-media containing 1% and 5% water the width of thylakoid membranes was found to be significantly increased of about 20% and the perinuclear space was up to 76% wider in comparison to what was found in samples which were freeze substituted without water. No differences were found in the thickness of membranes between chemically and cryofixed cells that were freeze substituted in the FS-medium without water. Nevertheless, in chemically fixed cells the intrathylakoidal space was about 120% wider than in cryofixed cells that were freeze substituted with or without water. The present results demonstrate that the addition of water to the FS-medium does not improve membrane contrast but changes the width of thylakoid membranes and the perinuclear space in the present plant material. The addition of water to the FS-medium is therefore not as essential for improved membrane contrast in the investigated plant samples as it was observed in cells of animal tissues and yeast cells.     

THE FINE STRUCTURE OF CHONDROCOCCUS COLUMNARIS : I. Structure and Formation of Mesosomes

Cells of Chondrococcus columnaris were sectioned and examined in the electron microscope after fixation by two different methods. After fixation with osmium tetroxide alone, the surface layers of the cells consisted of a plasma membrane, a dense layer (mucopeptide layer), and an outer unit membrane. The outer membrane appeared distorted and was widely separated from the rest of the cell. The intracytoplasmic membranes (mesosomes) appeared as convoluted tubules packaged up within the cytoplasm by a unit membrane. The unit membrane surrounding the tubules was continuous with the plasma membrane. When the cells were fixed with glutaraldehyde prior to fixation with osmium tetroxide, the outer membrane was not distorted and separated from the rest of the cell, structural elements (peripheral fibrils) were seen situated between the outer membrane and dense layer, and the mesosomes appeared as highly organized structures produced by the invagination and proliferation of the plasma membrane. The mesosomes were made up of a series of compound membranes bounded by unit membranes. The compound membranes were formed by the union of two unit membranes along their cytoplasmic surfaces.     

Osmium tetroxide/p-phenylenediamine staining of nucleoli and balbiani rings in Chironomus salivary glands

Summary This paper deals with the application of the osmium tetroxide fixation followed by p-phenylenediamine treatment to salivary gland cells from Chironomus larvae. After this procedure, cytoplasm, nucleoli and Balbiani rings show a high degree of staining both in light and electron microscopy, while chromatin remains unstained. Ethanol fixation followed by osmium tetroxide/p-phenylenediamine does not modify the above mentioned staining pattern. Under these conditions, extractive procedures for lipids do not affect the osmiophilia of nucleoli and Balbiani rings, while RNase or trichloroacetic acid treatment decreaes the staining degree of these structures. In osmium tetroxide/p-phenylenediamine treated salivary glands, the highest contrast within nuclei is seen to occur in the pars granulosa from normal or segregated nucleoli, as well as in Balbiani ring granules, which appear either as hollow granules or with a bipartite or horseshoe-like structure.     

The intracytoplasmic channel in pigment epithelial cells of the chick retina

Summary The fine structure of pigment epithelial cells in the chick retina was studied by electron microscopy with a special attention to the intracytoplasmic channel which is considered to be an important passage of metabolites from the choroidal side to the vitreal side. The chick retina was fixed either by perfusion with glutaraldehyde followed by osmium tetroxide or by immersion in situ with osmium tetroxide before removal of the eyeball. The infoldings appearing in the basal zone of the retinal pigment epithelial cell were provided with the gear-like projection which was encountered as their bottom in many cases, suggesting selective absorption of proteins. It was noticed that certain interspaces of the infoldings were continuous to tubular elements of the agranular endoplasmic reticulum. Moreover, the tubular elements were found in association with such other cellular components as nuclear envelope, mitochondria, fuscin granules and plasma membrane surrounding the outer segment of photoreceptor. The pigment epithelial cell appeared to be continuous with the photoreceptor through the pores of their plasma membranes. The presence of a certain intracytoplasmic channel from the choroid to the photoreceptor is considered to facilitate the transport of metabolites in the pigment epithelial cell.Part of these observations was presented at the Sixth International Congress for Electron Microscopy, Kyoto in 1966.I wish to thank Prof. Gonpachiro Yasuzumi for his valuable advices and discussions through this study.     

Electron microscopic classification of amine-producing endocrine cells by selective staining of ultra-thin sections

Summary The argyrophil, argentaffin and chromaffin reactions were performed directly on ultra-thin sections for examination in the electron microscope. Glutaraldehyde fixation was appropriate for the argentaffin and chromaffin reactions; additional fixation with osmium tetroxide, however, caused impairment of these reactions. Fixation with formaldehyde, but not with glutaraldehyde, was adequate for the argyrophil reaction; post-fixation with osmium tetroxide did not affect this staining. At the light microscopic level the staining reactions were correlated with fluorescence histochemistry according to the method of Falck and Hillarp. The techniques described were used to study certain amine-producing endocrine cell systems: adrenal medullary cells and thyroid parafollicular cells of the mouse, gastric endocrine cells from the oxyntic gland area of the mouse, rat and rabbit. All these cells stained argyrophil. The adrenal medullary cells and one cell type in the oxyntic gland area of the rabbit were strongly argentaffin and chromaffin. The remainder of the cells were non-argentaffin and non-chromaffin but could be induced to give an argentaffin (and chromaffin) reaction after injection of the animals with l-3,4-dihydroxyphenylalanine or l-5-hydroxytryptophan, a treatment which is known to result in the accumulation of the highly reducing dopamine and 5-hydroxytryptamine, respectively, in these endocrine cells. Without exception the precipitates formed in all the staining reactions accumulated selectively over the secretory granules of the cells.The techniques described permit differential staining of consecutive ultra-thin sections for electron microscopic characterization of one and the same cell. They will provide information necessary for correlative studies of the stainable cells at the light and electron microscopic levels.     

Staining of Xylem Parenchyma Mitochondria with Photo-Oxidized 3,3'-Diaminobenzidine

A photo-oxidized solution of 3,3'-diaminobenzidine (DAB) is used to stain xylem parenchyma mitochondria in specimens prepared from lupin hypocotyls fixed with glutaraldebyde and osmium tetroxide and embedded in Epon. No other subcellular components, including plastids, nuclei, vacuoles or cell walls were stained when xylem parenchyma cells were exposed to this reagent for 1 hr. This reaction was stable for 20 min at 80 C, inhibited by KCN, and insensible to 3-amino-1,2,4-triazole. The outstanding sensitivity of this reaction to inhibition probes suggests that this stain is analogous to the previously described DAB/cytochrome c/cytochrome oxidase reaction in plant mitochondria, although the incubation of lupin sections with freshly prepared DAB solution (free of auto-oxidized DAB) did not result in staining. These results draw attention to the unreliability of DAB oxidation for demonstrating electron transport in plant mitochondria. However, we do recommend photo-oxidized DAB as a direct ultrastructural stain for plant mitochondria without reference to its oxidative capacity.     

Staining of xylem parenchyma mitochondria with photo-oxidized 3,3'-diaminobenzidine

A photo-oxidized solution of 3,3'-diaminobenzidine (DAB) is used to stain xylem parenchyma mitochondria in specimens prepared from lupin hypocotyls fixed with glutaraldehyde and osmium tetroxide and embedded in Epon. No other subcellular components, including plastids, nuclei, vacuoles or cell walls were stained when xylem parenchyma cells were exposed to this reagent for 1 hr. This reaction was stable for 20 min at 80 C, inhibited by KCN, and insensible to 3-amino-1,2,4-triazole. The outstanding sensitivity of this reaction to inhibition probes suggests that this stain is analogous to the previously described DAB/cytochrome c/cytochrome oxidase reaction in plant mitochondria, although the incubation of lupin sections with freshly prepared DAB solution (free of auto-oxidized DAB) did not result in staining. These results draw attention to the unreliability of DAB oxidation for demonstrating electron transport in plant mitochondria. However, we do recommend photo-oxidized DAB as a direct ultrastructural stain for plant mitochondria without reference to its oxidative capacity.     

STUDIES ON THE OXIDATIVE METABOLISM OF SACCHAROMYCES CEREVISIAE : I. Observations on the Fine Structure of the Yeast Cell

Vegetative cells of Saccharomyces cerevisiae were fixed with potassium permanganate followed by uranyl nitrate, embedded in methacrylate, and studied in electron micrographs of thin sections. Details of the structure of the cell wall, cytoplasmic membrane, nucleus, vacuole, and mitochondria are described. Cell membranes, about 70 to 80 A thick, have been resolved into two dense layers, 20 to 25 A thick, separated by a light layer of the same dimensions, which correspond in thickness and appearance to the components of the "unit membrane" as described by Robertson (15). The cell wall is made up of zones of different electron opacity. Underlying the cell wall is the cytoplasmic membrane, a sinuous structure with numerous invaginations. The nucleoplasm, often of uneven electron opacity, is enclosed in a pair of unit membranes in which nuclear pores are apparent. The vacuole, limited by a single unit membrane, is usually irregular in outline and contains some dense material. Rod-shaped mitochondria, 0.4 to 0.6 µ in length and 0.2 to 0.3 µ in diameter, are smaller in size, but similar in structure to some of those described in plant and animal cells. Attempts to use osmium tetroxide as fixative were unsuccessful, a result similar to that obtained by other workers. It is suggested that yeast cells are impermeable to osmium tetroxide, except when grown under specific conditions.     

Differentiation of the membrane system in the cells of imaginai discs

Summary Imaginal discs from developing larvae of the fly Calliphora erythrocephala fixed in permanganate or osmium tetroxide and embedded in Epon 812 were observed by electron microscopy. When the larval growth ceases, the differentiation manifests itself through an enlargement of the endoplasmic reticulum, by which continuous membrane contact is established between all cell organelles. During the same time mitochondria swell up and transform into lipid granules and the intercellular contacts weaken.I am indebted to Mrs Mariann Carleson and Miss Brita Nilsson for technical aid.     

Ultrastructure of dyads in muscle fibers of Ascaris lumbricoides

The dyads of Ascaris body muscle cells consist of flattened intracellular cisternae applied to the sarcolemma at the cell surface and along the length of T-tubules. In specimens prepared by conventional methods (glutaraldehyde fixation, osmium tetroxide postfixation, double staining of sections with uranyl acetate and lead hydroxide), both the sarcolemma and the limiting membrane of the cisterna exhibit unit membrane structure and the space between them is occupied by a layer of peg-shaped densities which is referred to as the subsarcolemmal lamina. The lumen of the cisterna contains a serrated layer of dense material referred to as the intracisternal lamina. In specimens fixed in glutaraldehyde, dehydrated, and then postfixed in phosphotungstic acid, with no exposure to osmium tetroxide or heavy metal stains, the membranous components of the dyads appear only as negative images, but the subsarcolemmal and intracisternal laminae still appear dense. Except for the lack of density in membranes and in glycogen deposits, the picture produced by the latter method is very much like that of tissue prepared by conventional methods.     

Spontaneous curvature of ganglioside GM1--effect of cross-linking

The membrane-curvature dependent lateral distribution of outer leaflet ganglioside GM1 (GM1) and the influence of GM1 cross-linking induced by fluorophore-tagged cholera toxin subunit B (CTB) plus anti-CTB was analysed in cell membranes by fluorescence microscopy. Data are presented indicating that cross-linked GM1-ligand patches accumulated at the tips of human erythrocyte echinocytic spiculae induced by Ca(2+)/ionophore A23187. However, when lipid fixative osmium tetroxide was added prior to the ligand no accumulation in spiculae occurred. GM1-staining remained here distributed over the spheroid cell body and in spiculae. Similarly, osmium tetroxide completely prohibited CTB plus anti-CTB-induced GM1 patching in representatives for flat membrane, i.e. discoid erythrocytes and K562 cells. Our results demonstrate that GM1 per se shows low membrane curvature dependent distribution and therefore holds flexible spontaneous curvature. In contrast, the cross-linked GM1-ligand complex has a strong preference for highly outward curved membrane and possesses overall positive spontaneous curvature. Osmium tetroxide efficiently immobilises GM1.