Lowicryl K4M embedding of brain tissue for immunogold electron microscopy

We present methods for embedding brain tissue in Lowicryl K4M embedding medium and localizing antigens using postembedding immunogold techniques. After perfusion fixation with 4% paraformaldehyde and 0.1% glutaraldehyde in 0.1 M cacodylate buffer, blocks of rat brain were placed in 2% aqueous uranyl acetate for 1 hour, dehydrated in 50%, 70%, and 95% ethanol, infiltrated with Lowicryl/ethanol mixtures (1:2 for 10 min, 1:1 for 15 min) and 100% Lowicryl (20 min and 25 min). Polymerization was carried out under UV light for 24-48 hours at room temperature. Several neural antigens, including three different synaptic vesicle proteins and an enzyme associated with the postsynaptic density, were localized by this technique, indicating that this procedure may have wide applicability.     

Double immunogold staining method for the simultaneous ultrastructural localization of regulatory peptides

Recent studies have suggested that the morphological characteristics of secretory granules contained within endocrine cells and nerves may be determined largely by their chemical composition. The use of the immunogold staining (IGS) method, which is based on the adsorption of colloidal gold to immunoglobulins, has been used in our laboratory to demonstrate a wide range of intracellular antigens at both the light and electron microscope levels. In this study we have applied a modification of the IGS method for the simultaneous detection of two separate antigens in a single tissue section, using a variety of region-specific antisera to different peptides. Peptide antisera were raised in rabbits or in guinea pigs and these were applied simultaneously or sequentially to grid-mounted ultrathin tissue sections. Antigenic sites were visualized at the electron microscope level using antisera raised in goats, adsorbed to gold particles of 12, 20, or 40 nm. Using this technique we have attempted to investigate the coexistence of multiple antigens in single tissue sections, in particular in single granules; the topographic distribution of molecular forms within one single granule or granule population; the heterogeneity of peptidergic neurons and also the heterogeneity of peptide content in morphologically similar granules. The double immunogold staining procedures described here have proved to be extremely effective for the simultaneous ultrastructural localization of two antigens (peptide-peptide; peptide-propeptide) on a single tissue section. The further development of this technique may provide useful information on neuroendocrine cell dynamics in normal and diseased states.     

The use of osmicated tissues for Lowicryl K4M embedding.

Tissue chopper slices of rat incisor, rat parotid gland, and chicken tibiae, fixed with 1% glutaraldehyde, were post-fixed with potassium ferrocyanide-reduced osmium tetroxide, dehydrated with methanol, and conventionally embedded in Lowicryl K4M at -20 degrees C. The tissues showed an ultrastructural appearance comparable with that of their Epon-embedded counterparts and, in particular, the Golgi apparatus was well defined. Furthermore, Lowicryl K4M-embedded osmicated tissues permitted both post-embedding lectin-gold cytochemistry and immunogold labeling.     

Quantitative immunogold localization of Na, K-ATPase along rat nephron.

Ultrastructural localization of Na, K-ATPase alpha-subunit along rat nephron segments was investigated quantitatively by immunogold electron microscopy on LR-White ultrathin sections using affinity-purified antibody against alpha-subunit of the enzyme. Ultrathin sections were incubated with the antibody at a saturation level and the number of gold particles bound per micron of the plasma membrane (particle density) of the tubular epithelial cells from the proximal tubule to the collecting duct was determined. In all the tubular epithelial cells, gold particles were located exclusively on the basolateral surface, and no significant binding of gold particles to the apical surface was observed. Distribution of gold particles on the basolateral membranes was quite heterogeneous; lateral membranes and infolded basal membranes were highly labeled, whereas the basal membranes which are in direct contact with the basal lamina were scarcely labeled. The average particle density on the basal surface was highest in the distal straight tubule cells (11.4 units), very high in the distal convoluted tubule cells (9.8 units), intermediate in the proximal tubule cells (3.3 units), in the connecting tubule cells (4.3 units), and in the principal cells of the collecting duct (5.6-3.8 units), low in the thin limb of Henle's loop (1.0 unit), and at the control level in the intercalated cells in the connecting and collecting duct. The relative number of gold particles/mm nephron segment and the relative number of gold particles in the various nephron segments were calculated using quantitative morphological data. The estimated distribution profile of the former was in good agreement with the Na, K-ATPase activity profile in rat nephron, which was determined biochemically with a microenzymatic method.     

A method for preserving ultrastructural properties of mitotic cells for subsequent immunogold labeling using low-temperature embedding in LR White resin

The best available approach of biological sample preparation for transmission electron microscopy currently includes cryoimmobilization by high-pressure freezing (HPF) followed by freeze-substitution (FS). This method has been well established for interphase cells; however, a reliable and easy procedure is still missing for mitotic cells especially because of their fragility and sensitivity to treatments. Here, we present a fast and effective method for HPF/automated FS and LR White embedding of mitotic cells which allows for their controlled and reproducible quality processing. It should be useful in various ultrastructural studies on mitotic cells especially in combination with immunocytochemistry.     

Serological detection and immunogold localization of cross-reactive antigens shared by Camellia sinensis and Exobasidium vexans

AIMS: Pathogenicity of Exobasidium vexans, causal agent of blister blight of tea, was studied in 30 commercially cultivated tea varieties by analysing the antigenic patterns of host and pathogen using immunological techniques. METHODS AND RESULTS: Whole plant inoculation of tea varieties with E. vexans showed that T-78 and T-17/1/54 were most susceptible and most resistant respectively. Antigen preparations from tea varieties, pathogen, nonpathogen (Fusarium oxysporum) and of nonhosts (Glycine max, Leucaena leucocephala and Oryza sativa) were compared by indirect enzyme-linked immunosorbent assay and dot-immunobinding assay using polyclonal antibodies raised against the pathogen, nonpathogen, susceptible and resistant tea varieties. Cross-reactive antigens (CRA) were found among susceptible varieties and E. vexans isolates but not in resistant varieties, nonhosts or nonpathogen. Indirect staining of antibodies using fluorescein isothiocyanate indicated CRA were concentrated mainly around epidermal and mesophyll cells in compatible host (T-78). This was substantiated by ultrastructural studies using gold-labelled antibodies through transmission electron microscopy which showed specific localization in the chloroplasts and host cytoplasm. CONCLUSION: Pathogenicity of E. vexans to different tea varieties is therefore related to the level of antigenic similarity between host and pathogen. SIGNIFICANCE AND IMPACT OF THE STUDY: Immunological methods proved to be valuable in screening commercially cultivated tea varieties against E. vexans.     

Ultrastructural immunogold localization of nitric oxide synthase isoforms in rat and human eosinophils

The involvement of nitric oxide (NO) as both pro and anti-inflammatory agent in allergic, airway inflammatory, and asthmatic diseases and the active participation of eosinophils in such ailments have been previously suggested. NO modulates eosinophil number, migration and their survival. The microenvironment of NO synthase (NOS) in subcellular organelles determines its rate and efficiency of catalysis, which in turn influences NO generation at distinct intracellular locales. The present study was undertaken to assess the intracellular distribution of NOS isoforms by transmission electron microscopy followed by morphometric analysis in human and rat eosinophils. Rat eosinophils were explored in parallel, and since they are widely used as model systems to mimic human diseases, a comparative study on NOS localization patterns might provide useful information in deciphering NO role in diverse aspects of eosinophil-related inflammatory ailments. The results demonstrated predominance of neuronal NOS (nNOS) in the eosinophilic granules and even distribution of inducible NOS (iNOS) and nNOS in the cytoplasm and nucleus of human eosinophils. In rat eosinophils, however, iNOS was mainly localized in the eosinophilic granules and nucleus, while nNOS was distributed evenly in cytoplasm and nucleus. Distribution of endothelial NOS (eNOS) in eosinophils was scanty. Differences in NOS isoforms and their localization in human and rat cells might have implications in differential mode of catalysis and functional contribution to eosinophil physiology and pathology, warranting detailed investigations. The present study highlights species-specific differences in the relative abundance and distribution pattern of NOS isoforms in rat and human eosinophils, which should be considered cautiously in interpreting the rat data to humans.     

Carbonic anhydrase in the rat salivary glands: distribution and ultrastructural localization

Rat salivary glands were studied by Hanson's method to specify the ultrastructural localization of carbonic anhydrase (CA). Two different procedures were used: 1) The embedding of the tissues in water-soluble resins, followed by the incubation of the resin sections on the medium. 2) The embedding in epon-araldite of previously incubated frozen sections. Light and electron microscopy were used to observe the distribution and the ultrastructural localization of the cobalt precipitate. In parotid and mandibular glands, CA was localized in the secretion granules and the hyaloplasma of the secretory endpieces. The enzyme was also detected on the basal and lateral membranes of the striated duct cells in the three glands. In the convoluted granular duct cells of the mandibular gland CA was found in the hyaloplasma only. In the sublingual gland, CA was localized in the hyaloplasma of the serous crescents and no activity was detected in the mucous tubules. As regards the localization of the enzyme in the granules of the secretory endpieces of parotid and mandibular glands, it appears that CA has to be considered as a secretory product of these cells; this localization is consistent with the presence of the enzyme in rat saliva.     

Toxoplasma gondii: ultrastructural localization of specific antigens and inhibition of intracellular multiplication by monoclonal antibodies

This experiment was focused on the characterization of anti-Toxoplasma monoclonal antibodies (mAbs) and the effect of mAbs on the parasite invasion of mouse peritoneal macrophages. Twenty eight mAbs including M110, M556, R7A6 and M621 were characterized by Ab titer, immunoglobulin isotyping and western blot pattern. Antibody titer (optical density) of 4 mAbs, M110, M556, R7A6 and M621, were 0.53, 0.67, 0.45 and 0.39 (normal mouse serum; 0.19) with the same IgG1 isotypes shown by Enzyme-linked immunosorbent assay (ELISA). Western blot analysis showed that M110, M556, R7A6 and M621 reacted with the 33 kDa (p30), 31 kDa (p28), 43 kDa and 36 kDa protein. Immunogold labelling of mAbs M110, M556, R7A6 and M621 reacted with the surface membrane, dense granules and parasitophorous vacuolar membrane (PVM), rhoptries and cytoplasm of tachyzoite, respectively. For in vitro assay, preincubation of tachyzoites with four mAbs, M110, M556, R7A6 and M621 resulted in the decrease of the number of infected macrophages (p < 0.05) and the suppression of parasite multiplication at 18 h post-infection. Four monoclonal antibodies including M110 (SAG1) were found to have an important role in the inhibition of macrophage invasion and T. gondii multiplication in vitro, and these mAbs may be suitable for vaccine candidates, diagnostic kit and for chemotherapy.     

Purification and immunohistochemical localization of rat brain myelin proteolipid protein.

Abstract— A homogeneous preparation of proteolipid protein (PLP) from rat brain myelin was isolated by preparative gel electrophoresis in sodium dodecyl sulfate and chemically characterized. The results of amino acid and N-terminal amino acid analyses are reported. The same preparation of myelin PLP was used to produce specific precipitating antibodies. Rabbit and goat antisera to myelin PLP each gave a single precipitin line with purified PLP dissolved in Triton X-100. Under identical conditions, no precipitation was observed with antiserum to myelin basic protein or with control serum. Immunofluorescence localization employing antiserum to PLP demonstrated bright specific fluorescence restricted to the myelin sheaths of axons in all anatomical areas of the rat brain examined. Neuronal cell bodies and their dendrites were completely negative with respect to the presence of proteolipid protein. PLP could not be localized in the cell bodies or fibrous processes in any of the glial elements in the adult rat brain. However, myelin PLP was clearly visible in the cytoplasm and processes of actively myelinating oligodendrocytes in the corpus callosum in the brains of 10-day-old rats.     

High-resolution immunogold localization of Giardia cyst wall antigens using field emission SEM with secondary and backscatter electron imaging

We describe here the ultrastructural localization of Giardia cyst antigens in the filaments associated with the outer portion of intact cysts and on developing cyst wall filaments in encysting trophozoites. Post-embedding immunogold labeling of thin sections of intact Giardia cysts with polyclonal and monoclonal antibodies specific for cyst wall antigens (major protein bands of approximately 29, 75, 88, and 102 KD on Western blots) showed strong labeling of the filamentous cyst wall, whereas no labeling was seen on the membranous portion. High-resolution field emission scanning electron microscopy (FESEM) of Giardia cysts revealed that the cyst wall-specific polyclonal rabbit antisera and monoclonal mouse antibody produced gold labeling of 20-nm filaments in the cyst wall as detected with secondary electron imaging (SEI) and backscatter electron imaging (BEI) at 10 kV, despite coating of the cells with platinum by ion sputtering. FESEM studies of encysting Giardia trophozoites demonstrated that immunostaining with antibodies to cyst wall antigens produced colloidal gold labeling of developing cyst wall filaments on the cell surface; however, the intervening membrane domains were unlabeled. Substitution of normal serum for cyst wall-specific antibodies, or preabsorption of specific antibodies with Giardia cysts, eliminated immunolabeling of the filaments.     

Ultrastructural localization of tubulin and actin in polyethylene glycol-embedded rat seminiferous epithelium by immunogold staining

The polyethylene glycol (PEG) method for immunofluorescence localization of cytoskeletal antigens has been extended to the ultrastructural level using glutaraldehyde-fixed tissues and immunogold staining. Semithin sections of fixed tissue embedded in polyethylene glycol are divested of the PEG, exposed to purified antibodies (e.g., antiactin, antitubulin) and anti-IgG-colloidal gold. The sections may be processed by dehydration and critical-point drying, or reembedment in hydrophilic substances. Tubulin is demonstrated in the mitotic spindles of dividing spermatogonia, manchettes, axonemes and centrioles of developing spermatids, and in the Sertoli cell cytoplasm; actin localization is demonstrated in the myoid cells of the tunica propria, and smooth muscle cells of arterioles in the interstitial tissue. The results demonstrate the applicability and versatility of PEG embedding for immunocytochemistry.     

Ultrastructural localization of neuropeptides and GABA in rat dorsal horn: a comparison of different immunogold labeling techniques

Several immunogold techniques were used to determine the ultrastructural localization of calcitonin gene-related peptide (CGRP), tachykinin, somatostatin, and gamma-amino-butyric acid (GABA) immunoreactivity in the dorsal horn of rat spinal cord. The immunocytochemical reactions were carried out directly on ultrathin sections from non-osmicated frozen tissue, non-osmicated low temperature-embedded (Lowicryl K4M) tissue, and osmicated epoxy-embedded material. Preservation of ultrastructural morphology and immuno-labeling efficiency were compared. Morphology of subcellular organelles was relatively good in ultra-thin frozen sections, which showed the highest immunoreactivity. However, only very small samples of tissue could be examined. Although there was relatively good immunolabeling in the Lowicryl K4M-embedded tissue, the ultrastructure of the neuropil, and particularly that of synapses, was poorly maintained. In contrast, the osmicated epoxy-embedded material offered optimal morphological preservation together with accurate subcellular localization of all antigens under study. The latter approach thus enabled clear visualization of CGRP, tachykinin, and somatostatin immunoreactivity restricted to large dense-cored vesicles (90-150 nm diameter) in many axonal and synaptic profiles in the superficial layers of the dorsal horn. CGRP- and tachykinin-positive profiles were also present in the tract of Lissauer. GABA immunoreactivity was present mainly in axons and terminals, and less frequently in somatic and dendritic profiles. In terminals, which often formed symmetrical synapses on immunonegative dendritic profiles, it was associated with small (30-60 nm diameter) clear vesicles and mitochondria. Double immunolabeling was possible on all preparations, but the osmicated, epoxy-embedded material clearly showed co-localization of peptides, especially of CGRP and tachykinins, within the same dense-cored vesicles in axonal fibers and/or terminals. On the other hand, peptide and GABA immunoreactivity were consistently seen in different nerve profiles. In a few cases, GABAnergic terminals were seen to synapse on tachykinin-positive fibers.     

Electron microscopic localization of pyruvate carboxylase in rat liver and Saccharomyces cerevisiae by immunogold procedures

The intracellular location of pyruvate carboxylase (EC 6.4.1.1) in rat liver and Saccharomyces cerevisiae was investigated using the antibody-gold and protein A-gold techniques carried out as a postembedding immunoelectron microscopic procedure. The vast majority of gold particles (greater than 98%), indicative of the presence of antigenic sites of pyruvate carboxylase, were found in the mitochondria of rat liver. No other cellular compartment was labeled except the cytosol which did not account for more than 2% of the total labeling of a rat hepatocyte. Furthermore, 60% of labeled pyruvate carboxylase molecules within a mitochondrion were found adjacent to the matrix side of the inner mitochondrial membrane. In contrast, in S. cerevisiae, pyruvate carboxylase was found exclusively in the cytosol.