Post-embedding Staining Research Articles

MagC, magnetic collection of ultrathin sections for volumetric correlative light and electron microscopy.

The non-destructive collection of ultrathin sections on silicon wafers for post-embedding staining and volumetric correlative light and electron microscopy traditionally requires exquisite manual skills and is tedious and unreliable. In MagC introduced here, sample blocks are augmented with a magnetic resin enabling the remote actuation and collection of hundreds of sections on wafer. MagC allowed the correlative visualization of neuroanatomical tracers within their ultrastructural volumetric electron microscopy context.

Fine Structure and Synaptology of the Nitrergic Neurons in Medial Septum of the Rat Brain

The nitrergic neuron population and certain aspects of their connectivity (peptidergic inputs, co-localization with GABA, synaptic target distribution) were studied in the medial septum of the rat brain. The histochemical localization of NADPH diaphorase and immunohistochemical identification of nNOS at light and electron microscopic level was applied. Double-labeling experiments with galanin and leucine enkephalin, moreover the postembedding GABA immunogold staining was also carried out. NADPH diaphorase- and nNOS-immunopositive neurons could be identified inside the borders of medial septum. Out of their peptidergic inputs galanin- and leucine enkephaline-immunopositive varicose fibers were found in close apposition with nNOS-immunopositive neurons. Based on fine structural characteristics (large indented nucleus, thin cytoplasmic rim, lack of axosomatic synapses) the nitrergic neurons are suggested to be identical with the septal cholinergic nerve cells. Their boutons established asymmetrical synapses mainly on dendritic shafts and spines, some of which were also nNOS-immunopositive. A lower amount of nNOS-immunopositive boutons of presumably extrinsic origin were found to be GABAergic.

Electron microscopic detection of statherin in secretory granules of human major salivary glands

In order to increase current knowledge regarding statherin secretion into the oral cavity, ultrastructural localization of this peptide was investigated in human salivary glands by using a post-embedding immunogold staining technique. Statherin reactivity was found inside the granules of serous cells of parotid and submandibular glands. In parotid granules immunostaining was preferentially present in the less electron-dense region, whereas in submandibular serous granules the reactivity was uniform and the dense core always stained. By contrast, none or weak reactivity was observed in serous cells of major sublingual glands. These findings reveal for the first time the subcellular localization of statherin by electron transmission microscopy and confirm that of the three major types of salivary glands, the parotid and submandibular glands are the greatest source of salivary statherin. Moreover, they suggest that more than one packaging mechanism may be involved in the storage of statherin within serous granules of salivary glands.

Immunocytochemistry of the amphibian embryo--from overview to ultrastructure.

Amphibian embryos are standard research objects to study pattern formation and morphogenesis. Due to their external development and robust nature, experimental manipulations such as microinjections or transplantations can be easily performed. However, most immunocytochemical approaches addressing the specific localization of proteins are hampered by the fragility of the large and yolky embryonic cells which render high resolution staining difficult. Immunocytochemical data are therefore often restricted to either overall patterns in whole embryo preparations or to immunofluorescent localization with limited resolution on sections. High resolution or ultrastructural protein localization data are rare and can be achieved only with time consuming procedures. Here, a comparative study of immunocytochemical methods suitable for light and electron microscopy using different kinds of plastic resins is presented. Three main approaches are described: preembedding staining of whole embryos, postembedding staining of ultrathin sections and preembedding staining of vibratome sections. All the procedures are designed to study protein expression in early amphibian embryos en gros as well as en detail and the described techniques are suitable to combine two or three levels of resolution on the very same biological specimen. Examples are presented and advantages and disadvantages of the different protocols are discussed.

Localisation of Epidermal Growth Factor Receptor in Mucous Cells of Human Salivary Glands

EGFR activation has been related to an increase in synthesis and secretion of mucins in epithelial cells, so that the use of EGFR tyrosine kinase inhibitors has been proposed in the therapy of mucin hypersecretory diseases. In this paper, we describe the ultrastructural localisation of EGFR in the mucous elements of human major and minor salivary glands and relate it to mucin distribution. A post-embedding immunogold staining method has been applied to normal surgical samples of human submandibular, sublingual, and labial glands, using a mouse monoclonal antibody specific for the intracellular domain of human EGFR. In mucous cells of all the glands examined, specific reactivity was detected in the cytoplasmic basolateral portions and near the mucous droplets, but not on cell surfaces. Since this pattern of labelling must be related to the internalisation process of the ligand-GFR complex, our results support the hypothesis that EGFR activation takes place in mucous cells and affects mucin production in human salivary glands.

Ultrastructural localization of epidermal growth factor receptor in human parotid gland.

The epidermal growth factor receptor (EGFR) is widely distributed in several organs in which, following interaction with its ligand, it can affect development and differentiation. The aim of this study was to define the distribution of EGFR in human parotid gland by means of a post-embedding immunogold staining method. Normal human parotid glands obtained at surgery were routinely prepared for electron microscopy. Semithin and ultrathin sections were treated for immunocytochemistry using a mouse monoclonal antibody specific for EGFR and a goat anti-mouse gold conjugated secondary antiserum. At the light microscope level, EGFR reactivity was revealed by a specific dark staining in both acinar and ductal cells. At the electron microscope level, EGFR was strongly stained in the cytoplasmic compartments and occasionally labeled on cell surfaces. In acinar cells, it appeared to be associated with small vesicles of uncertain nature that were scattered among the secretory granules. EGFR-positive vesicles were also observed in the ductal cells, with the most intense labeling being localized in striated ducts. Since cytoplasmic vesicles were previously found to be EGF-positive, these results may be due to the presence of the EGF-EGFR complex that is internalized after binding of EGF to the surface EGFR.

Factor XIII of Blood Coagulation as a Nuclear Crosslinking Enzyme

Intracellular localization and distribution of Factor XIII subunit A (FXIIIA) was investigated in association with monocyte-macrophage differentiation in a long term culture of human monocytes by light- and electron microscopical as well as biochemical and immunobiochemical techniques. To allow the detection of FXIIIA in cells with well-preserved ultrustructure, immunosera against glutaraldehyde-derivatized recombinant FXIIIA were developed in rabbits, then characterized and used in this study. In the early phase of macrophage differentiation intranuclear accumulation of FXIIIA was detected as a transient phenomenon in cells of the 2nd day culture by optical sectioning with 0,7 microm steps in laser scanning confocal microscopy and immunoblotting technique. FXIIIA could be detected by immunoelectron microscopic postembedding staining over electrodense DNA-containing areas. Fluoresceinated monodansylcadaverine incorporation assay was used to demonstrate that FXIIIA is not only present in the nuclei, but also expresses its transglutaminase activity. Our finding of the nuclear accumulation of FXIIIA in differentiating human macrophages is also unique in that a blood clotting factor has, for the first time, been localized in nuclei and has been shown to be an intracellular crosslinking enzyme. The possible role of nuclear FXIIIA in association with cellular processes involving chromatin structure remodeling, such as cell death, cell differentiation or cellular proliferation requires further in-depth investigation.

Topology of the signal transduction of the G protein-coupled somatostatin receptor sst2 in human glioma cells.

By a dual approach, using electron microscopy and biochemical techniques, we investigated the topology of the somatostatin receptor sst2 with its inhibitory G protein Gialpha after ligand-induced stimulation and internalization in human glioma cells. On intact cells, the sst2 was labeled at 8 degrees C by an antibody directed to its extracellular sequence followed by a 15-nm gold-labeled secondary antibody. In the presence of the ligand, internalization was induced by exposure to 37 degrees C for 5-10 min. Then, cells were either fixed for immunoelectron-microscopic analysis or homogenized for density gradient separation. After post-embedding staining of the sst2-labeled sections with anti-Gialpha1- 3 or anti-caveolin, a co-localization of sst2, Gialpha and caveolin was detected in endosomal vesicles after 5 min of internalization, but not after 10 min. Furthermore, the gold-labeled organelles containing the internalised receptor were separated from the non-labeled ones on sucrose gradients (density shift separation) and analyzed by Western blotting. Also here, in fractions with higher densities, sst2 could be costained with Gialpha and caveolin after 5 min. From these congruent results from both methods, it can be concluded that, in human glioma cells, the receptor sst2 (1) is internalised in caveolin-positive vesicles and (2) is neighboured to its Gialpha proteins at the plasma membrane and early endosomes.

Connectivity of GABAergic calretinin-immunoreactive neurons in rat primary visual cortex.

In rat visual cortex neurons that are immunoreactive for the calcium-binding protein calretinin (CR+) constitute a distinct family which accounts for 17% of gamma-aminobutyric acid (GABA)-expressing cells. It is not clear, however, (i) whether CR is expressed exclusively in GABAergic neurons and (ii) how CR+ neurons are incorporated into neuronal circuits of rat visual cortex. To address these questions we studied synaptic relationships of CR+ neurons with GABA+ and GABA- elements in the neuropil of rat primary visual cortex (area 17). All CR+ neurons are nonpyramidal cells with smooth or sparsely spiny and often beaded dendrites. Of all CR+ neurons, 56% are located in layers 1 and 2/3. In layer 2/3, most CR+ neurons are bipolar-shaped and have vertically oriented dendrites. Many ascending dendritic branches reach layer 1 where they run parallel to pial surface. CR+ axons are thin, highly branched near the cell body and often send descending collaterals to layers 5 and 6. Double immunofluorescence labeling revealed GABA in 94% of CR+ cell bodies in layer 2/3. Electron microscopic analysis shows that all CR+ axon terminals contain elongated vesicles and form symmetric synapses. Postembedding staining shows that 98% of CR+ terminals are GABA+. GABA-immunoreactivity is also present in somata and thick dendrites of CR+ neurons but many thin dendrites are GABA-. CR+ somata, dendrites and axon terminals are enriched in mitochondria. Somata and thick CR+ dendrites are densely innervated. At least 68% of the targets of CR+ terminals in layer 2/3 are GABA+ and > or = 50% of these are other CR+ neurons. The remainder (32%) of targets of CR+ terminals are thin dendrites of GABA- cells. In contrast, in layers 5 and 6, 60% of CR+ terminals form synapses with GABA- somatic profiles. The preferential interactions of layer 2/3 CR+ neurons with GABAergic neurons, and with CR+ neurons in particular, suggests that these cells play a role in the inhibition of inhibitory neurons of the same layer. Through these interactions CR+ cells may reduce inhibition of pyramidal cells in layers 2/3, 5 and 6 and thus disinhibit a column of neurons.

Pre-embedding staining for GAD67 versus postembedding staining for GABA as markers for central GABAergic terminals.

Pre-embedding immunocytochemistry for the active form of glutamate decarboxylase (GAD67) and postembedding staining for gamma-aminobutyric acid (GABA) were compared as markers for central GABAergic terminals in the phrenic motor nucleus, in which phrenic motor neurons had been retrogradely labeled with cholera toxin B-horseradish peroxidase. Nerve terminals with or without GAD67 immunoreactivity were identified in one ultrathin section. GABA was localized with immunogold in an adjacent section after etching and bleaching. GABA labeling density was assessed over 519 GAD67-positive and GAD67-negative nerve terminals in the phrenic motor nucleus. Frequency histograms showed that statistically higher densities of gold particles occurred over most GAD67-positive terminals. However, some GAD67-negative terminals also showed high densities of gold particles, and some GAD67-positive terminals showed low densities. Preabsorption of the anti-GABA antibody with a GABA-protein conjugate, but not with other amino acid-protein conjugates, significantly reduced gold labeling over both GAD67-positive and GAD67-negative terminals. These results show that the presence of GAD67 immunoreactivity correlates strongly with high densities of immunogold labeling for GABA in nerve terminals in the phrenic motor nucleus. Preabsorption controls indicate that authentic GABA was localized in the postembedding labeling procedure. Only a small proportion of intensely GABA-immunoreactive terminals lack GAD67, suggesting that both GAD67 and GABA are reliable markers of GABAergic nerve terminals.

The ultrastructure of anionic sites in rat articular cartilage as revealed by different preparation methods and polyethyleneimine staining.

The ultrastructure of anionic sites in the middle layer of rat articular cartilages was studied by two methods, the quick-freezing and deep-etching method, and the quick-freezing and freeze-substitution method. The anionic sites were visualized with a cationic tracer, polyethyleneimine. They were also compared with those revealed in tissues subjected to conventional fixation, such as pre-embedding or post-embedding. With the deep-etching method, three-dimensional meshwork structures were observed more clearly in the extracellular matrix compared with those seen in conventional ultrathin sections. In combination with polyethyleneimine staining, in which no chemical contrast was needed for visualization of anionic sites, numerous stained particles were detected around filaments in the extracellular matrix, indicating that they were anionic sites consisting mainly of proteoglycans. With the pre-embedding method and polyethyleneimine staining, the shapes of aggregated stained particles varied with different preparation procedures, including chemical fixation and contrasting. The fine meshworks were also observed with the post-embedding method and polyethyleneimine staining. It is suggested that such images of anionic sites, as revealed by the deep-etching method and the post-embedding polyethyleneimine-staining method with low-temperature dehydration, are probably closer to native states than those revealed by the conventional pre-embedding polyethyleneimine-staining method.

Lysozyme expression in the rat parotid gland: light and electron microscopic immunogold studies.

Lysozyme (muramidase) is capable of direct bacteriolytic action by hydrolyzing glycosidic bonds in bacterial cell walls. Although it is broadly distributed in vertebrate tissues and secretions, the cellular and subcellular localizations of the enzyme are still not well known. The present study examines the distribution of lysozyme expression in the various cell types of LR gold-embedded rat parotid gland, applying a postembedding immunogold-silver staining technique for light microscopy. Simultaneously, a postembedding immunogold method for electron microscopy was used to determine the cellular compartments engaged in the biosynthesis and exocytosis of lysozyme. Silver-amplified immunogold staining for lysozyme demonstrated identical localization in both paraffin and semithin LR-gold sections: in the supranuclear parts of acinar and intercalated duct cells. Staining intensity varied even between adjacent cells. In the electron microscope, immunogold labeling was detected over the cell compartments associated with protein synthesis and exocytosis in acinar and intercalated duct cells. Lysozyme antigenic sites were visible over endoplasmic reticulum and throughout the Golgi apparatus, being intense over the trans-Golgi network, but even stronger in the condensing vacuoles and most prominent over secretory granules in both cell types. The findings provide the first immunocytochemical evidence of the synthesis and secretion of lysozyme in parotid acinar and intercalated duct cells.

Helix Pomatia Lectin-Binding Sites in the Dog Gastric Mucus Layer

The lectin-binding sites in mucins of the gastric surface mucus layer, mucus droplets of surface epithelial and gland mucus cells were investigated at the ultrastructural level by means of postembedding staining of resin-embedded thin sections, using Helix Pomatia Lectin-Gold Complex (HPL-GC). The saticfactory labeling and fine structure preservation were obtained by mild aldehyde fixation, Agar resin 100 embedding and postembedding staining protocol. The helix pomatia lection-binding sites were intensely observed over the gastric suface mucus layer, mucus droplets of surface mucus and gland mucus cells. This finding demonstrates that the peripheral N-acetyl-D-galactosamine residues of the carbohydrate moiety of mucin are involved in the epitope structure and HPL is specifically bound to this epitope structure.

Distribution of parasympathetic nerve terminals in the rat submandibular gland.

I examined the distribution of cholinergic neuron terminals in the rat submandibular gland. Immunohistochemical procedures with a monoclonal antibody against choline acetyltransferase (ChAT) were used to determine the ultrastructural features of the putatively cholinergic axons. Either the streptavidin biotin-peroxidase complex method or the post-embedding staining with protein A-colloidal gold method was used for immuno-staining. The reaction was too weak to detect using conventional methods for ChAT. Interleukin 3 (IL-3) was used to enhance immunohisto-staining of peripheral cholinergic axons. Good results were obtained with IL-3 treatment. The submandibular ganglions and nerve bundles were both close to the main duct, and both were immuno-reactive to ChAT.Although a number of ChAT positive fibers were seen within the acini and intercalated ducts of the submandibular parenchyma, they were not in other duct cells. ChAT positive terminals of adrenergic axons were detected by prior treatment with 5-hydroxydopamine (5-OHDA). Axons containing vesicles, not only aminergic but also occasionally cholinergic, were found adjacent to the endothelial cells of blood vessels. Although axons containing dense cores in their vesicles were noted at the basement membrane of acinar and duct cells, ChAT positive terminals were seen in both acinar and intercalated duct cells.These findings suggest that immunocytochemical staining using ChAT monoclonal antibodies with IL-3 treatment is a useful technique for detection of cholinergic peripheral nerve fibers in the submandibular gland.

Ultrastructure of Kurloff body proteoglycans after high pressure freezing, cryosubstitution and postembedding staining with cuprolinic blue.

Very high pressure freezing and cryosubstitution of Kurloff cells preserves the ultrastructural morphology of Kurloff bodies, particularly the myelin figures, as shown by embedding in epoxy resin and conventional postembedding staining. It also preserves the Kurloff body proteoglycans as more expanded spindle-like shapes than does fixation with formaldehyde at atmospheric pressure. But, proteoglycans were not discernible in the Kurloff body matrix on either unstained or conventionally stained thin sections. The Kurloff body skeleton of proteoglycans in their native expanded shape was stained with the electron-dense cationic ministain cuprolinic blue, using thin sections embedded in LR white. The mean equatorial diameter of the spindles was 20-30 nm, while the collapsed filaments produced by aldehyde fixation were about 10-15 nm wide. The spindles were often about 200-300 nm long but could be much longer, depending on the plane of the section. Thus, high pressure freezing, freeze substitution, embedding in LR white, and staining with cationic dyes such as phthalocyanins seems to be a convenient way of visualizing intracellular proteoglycans that are well preserved and in very much like their native expanded state.

PH dependent gastrin secretion mechanism: an immunocytochemical study

Gastrin secretion is induced by vagal stimuli, local distension, peptides or aminoacid solutions, and Ca2+ concentration both in stomach lumen and blood. However, the cellular and molecular mechanisms of gastrin-release are unknown. We have tested the effects of different pH fixative solutions on gastrin distribution by the immunolabeling of antral gastrin cells (G cells).Samples from different portions of adult dog digestive tract and related glands (salivary glands, liver and pancreas) were embedded in paraffin by conventional methods. Another samples from the antral mucosa of adult dogs and rats were fixed using mixtures of glutaraldehyde and paraformaldehyde at different pH (from 4 to 7,6 pH), and embedded in araldite and Unicryl. For post-embedding immnunocytochemical staining purposes, sections were incubated with pre - diluted policlonal rabbit anti-human gastrin (Zimed Labs.Inc., San Francisco, USA), rinsed in TBS and incubated with a 15 nm gold-conjugated IgG as secondary antibody. These sections were stained with uranil acetate and examined with TEM.

Functional and morphological changes of the thyroid gland following 5 days of pulsatile TRH stimulation in male rats.

The aim of the present study was to evaluate in vivo the selective effects of a small increase in plasma TSH levels on thyroid function, proliferation and morphology. Chronically catheterized male Sprague-Dawley rats were stimulated i.v. over 5 days either with TRH (2 micrograms TRH in 100 microliters 0.9% (w/v) NaCl (TRH-P) or the NaCl carrier alone (P), both given as pulses every 2 h. Control groups were cotreated i.v. with 10 micrograms thyroxine (T4)/100 g body weight per day (TRH-P + T4) starting 2 days before pulsatile stimulation. TSH plasma levels were approximately doubled by TRH-P (P < or = 0.001), T4 plasma levels significantly increased (P < or = 0.001) but tri-iodothyronine plasma levels did not change compared with treatment with P. No significant changes between groups were found in thyroid weight and in intrathyroidal iodine content, but the percentage of 5-bromo-2'-desoxyuridine-labelled thyrocytes as a marker of proliferation in TRH-P-treated animals was significantly increased over P or TRH-P + T4 (P < or = 0.001). Ultrastructural analysis of the thyroid evaluated by electron microscopy revealed a significant increase in the number of lysosomes (P < or = 0.001). The size of the endoplasmic reticulum (ER) in relation to the cytoplasm was significantly increased when treated with TRH-P compared with P or TRH-P + T4 (P < or = 0.001). Post-embedding immunogold staining revealed Tg as a major product within ER cisternae. Immunogold labelling was moderate in controls and higher densities of gold particles were obtained in TRH-P-treated animals (P < or = 0.001). In conclusion, short-term pulsatile TRH stimulation increasing the plasma levels of immunoreactive TSH only twofold is capable of inducing hypertrophy of the thyrocytes by gross ultrastructural changes which are paralleled by an increase in circulating T4. These data underscore the dominant role of TSH on thyroid ultrastructure within the narrow boundaries of normal physiological regulation.

Colocalization of γ‐aminobutyric acid with vasopressin, vasoactive intestinal peptide, and somatostatin in the rat suprachiasmatic nucleus

The seemingly contradictory observations in previous publications that gamma-aminobutyric acid (GABA) is detected in all cell bodies of the suprachiasmatic nucleus (SCN) and that terminals originating from the SCN are only 20-30% GABA positive prompted us to investigate whether this might be explained by a preference of colocalization in terminals of certain peptidergic neurons in the SCN or by a day/night rhythm in GABA synthesis. At three different circadian times, animals were perfusion fixed, and their SCNs were stained for vasopressin (VP), somatostatin (SOM), or vasoactive intestinal polypeptide (VIP). Subsequently, the number of GABA peptide-positive terminals was determined using GABA postembedding staining in ultrathin sections. It appeared that the highest percentage of colocalization with GABA was detected in VIP terminals (38%) and the lowest in VP terminals (15%). No differences in colocalization percentages could be observed in any parameter at any circadian time. In the dorsomedial hypothalamus, one of the target areas of the VP and VIP fibers from the SCN, a colocalization of GABA within VP and VIP terminals was found similar to that in the SCN. In the region of the somatostatin-containing neurons in the SCN, a number of axoaxonal contacts could be observed that sometimes exhibited synaptic specializations. In nearly all cases, the axoaxonic terminals contained GABA and/or SOM. The conclusion is that the high level of intrinsic GABAergic connections in the SCN represents a putatively powerful mechanism to synchronize or shut down the activity of the SCN. We discuss the possibility that, depending on the firing frequency of the neurons, the colocalization of GABA with all peptides under investigation allows for the selection of which transmitter is released, the peptidergic one or the amino acid.

Cell-surface glycoconjugate layer in the tubotympanic mucosa of the guinea pig as revealed by wheat germ agglutinin/gold labelling.

To evaluate the protective function of the mucous blanket (MB) against lectin substances, we examined at the ultrastructural level whether intraluminal colloidal gold-labelled wheat germ agglutinin (WGA) could enter the MB-covered epithelial cell surface of the guinea pig tubotympanic mucosa. Post-embedding staining with WGA/gold on thin tissue sections was done in parallel for comparison. The cell surface glycoconjugate of the eustachian tubal and transitional epithelium had a typical bilayered structure: the outer MB and the microvilli-associated glycocalyx (MAG), which were interposed by the interciliary fluid zone. In squamous epithelium of the distal middle ear, the MB adhered to the MAG, thereby forming a monolayered coat of glycoconjugates at the cell surface. In the pre-embedding staining, WGA/gold did not bind with the MB and MAG in the eustachian tube, and exclusively bound with MB in the transitional area. Direct binding was also found with MAG and the apical plasmic membrane in the squamous epithelium. These findings indicate that MAG is occluded by MB lined with the interciliary fluid zone for luminal access of lectin at the proximal lumina of the tubotympanic epithelium. It is also suggested that MB existing at two sites possesses a different WGA-binding capacity: shielding as a "dust cover" in the eustachian tube and entrapping as a "flypaper" against lectin in the transitional area of the middle ear.

An easy method for the removal of Epon resin from semi-thin sections. Application of the avidin-biotin technique

A simple procedure is described for removing Epon resin from semi-thin 1 micron sections, which permits excellent postembedding immunohistochemical staining (avidin-biotin complex technique). The procedure was developed for the detection of growth hormone and prolactin in bovine adenohypophysis fixed with 2% paraformaldehyde and 0.5% glutaraldehyde in 0.1 M sodium cacodylate buffer pH 7.4-7.6. The results indicate that the removal of the epoxy embedding medium prior to the application of the immunohistochemical reagents was essential for the successful localization of the antigenic determinants of the two hormones. The immunocytochemical reactivity was obtained only after treating the sections with a solution of potassium hydroxide in a mixture of absolute methyl alcohol and propylene oxide (Maxwell's solution). An enhanced immunoreactivity was obtained when this treatment was followed by an additional treatment with either 4% hydrogen peroxide or a saturated aqueous solution of sodium metaperiodate. Because of the easy preparation of the Epon removal solution and the good structural preservation without damage to the antigenic determinants, Maxwell's solution is suggested as a good etching agent which can be used in immunohistochemical studies on semi-thin sections with excellent results.