A new method of the immunohistochemical detection of cellular antigens for light and electron microscopy

A new immunohistochemical method for light and electron microscopy of tissue- and cell-specific antigens by using ferric colloid-labeled antibody is presented. The antibodies labeled with the cationic cacodylate ferric colloid are stable and bind specifically to the target antigens to show clearly the site of antigens in tissue sections and on free cells by Prussian blue reaction for light microscopy and by the specific figure of electron opaque ferric colloid particles for electron microscopy. The staining procedure is very simple and it gives clear picture. So the method will be of beneficial for general laboratory use in immunohistochemical researches.     

Fine-granular cationic iron colloid. Its preparation, physicochemical characteristics and histochemical use for the detection of ionized anionic groups

In order to obtain distinct and reliable information concerning the localization of ionized anionic groups in tissues, fine-granular cationic ferric hydroxide colloid solution (Fe-Cac-f) was newly devised. This can be obtained by boiling a mixture of ferric chloride and ammonium cacodylate solutions. The colloid particles of Fe-Cac-f are about 1.0 nm in size, i.e., one-fifth of the size of ferric cacodylate colloid (Fe-Cac; Seno et al. 1983a). As with Fe-Cac, Fe-Cac-f particles in the pH range of 1.6-7.6 carry a positive electric charge, but the latter show a better permeation of tissues. Using the Prussian blue reaction, Fe-Cac-f gives a distinct deep-blue color and can be used for the detection of anionic groups of acid mucopolysaccharides and proteins by light microscopy. It is also useful for detecting the exact sites of ionized anionic groups in deep tissue areas using electron microscopy.     

Fine-granular cationic iron colloid

Summary In order to obtain distinct and reliable information concerning the localization of ionized anionic groups in tissues, fine-granular cationic ferric hydroxide colloid solution (Fe-Cac-f) was newly devised. This can be obtained by boiling a mixture of ferric chloride and ammonium cacodylate solutions. the colloid particles of Fe-Cac-f are about 1.0 nm in size, i.e., one-fifth of the size of ferric cacodylate colloid (Fe-Cac; Seno et al. 1983a). As with Fe-Cac, Fe-Cac-f particles in the pH range of 1.6–7.6 carry a positive electric charge, but the latter show a better permeation of tissues. Using the Prussian blue reaction, Fe-Cac-f gives a distinct deep-blue color and can be used for the detection of anionic groups of acid mucopolysaccharides and proteins by light microscopy. It is also useful for detecting the exact sites of ionized anionic groups in deep tissue areas using electron microscopy.     

改进的免疫胶体铁细胞化学染色

本文以改进的方法制备了胶体铁。该胶体制备简单,稳定性高,易于抗体标记,在PH7.4时,胶体与抗体IgG稳定结合形成胶体抗体复合物的经以CM-Sephadex C-50代替AmberlightCG50进行标记物的纯化,方法可靠,所制备的胶体铁标记抗体用于免疫细胞化学染色,普鲁士蓝反应清晰地显示出标记抗体与相应抗原的特异性结合部位,与传统的免疫酶及免疫金银方法比较,具有敏感性高,背景干净,呈色鲜明等优点,结合免疫酶及免疫金银染色可用于抗原的双标及多标记。     

Immunocytochemical localization of intracellular antigens with SEM

Summary A method for the localization of intracellular antigens with a scanning electron microscope using peroxidase-labelling antibodies is described. A search for a hydrogen donor which may be deposited at the sites of antigen by enzymatic action and emit secondary electrons or generate backscatter electrons was made. It was found that when 4-chloro-1-naphthol was used, the peroxidase deposited reaction product which resulted in a strong secondary electron emission at the site of antigen. With this method, the presence of luteinizing hormone in secretion granules and other cytoplasmic structures of gonadotropic cells was demonstrated. The level of detection of intracellular antigens with this method is not as high as that detectable with light microscopical examination of the same specimens, that is, more reaction product at the site of antigen is required to be detectable with scanning electron microscopy than with light microscopy. In spite of the lack of high sensitivity, the intracellular antigens may be localized with the method described.     

Microscopic examination of bacteria in Fe(III)-oxide deposited from ground water

Ochreous sludge deposited in the course of aeration of ground water contained an assortment of bacterial forms and structures which were investigated by light microscopy, scanning electron microscopy, and transmission electron microscopy. Bacterial structures were often covered by iron deposition which could be removed by acidification of the samples. Sulfuric acid treatment was consistently better than hydrochloric acid to dissolve iron without a considerable damage to the bacterial cells. Partial dissolution of amorphous ferric iron was achieved by acidifying the samples with oxalic acid or citric acid prior to the preparation for electron microscopy.     

Use of nitrogen mustard N-oxide for the fixation of electron microscopic tissues

Summary Nitrogen mustard N-oxide was tried for the fixation of tissue for electron microscopy. A fixative consisting of 1% nitrogen mustard N-oxide, 1% glutaraldehyde and 1% paraformaldehyde buffered at pH 7.4 followed by 1% O_sO₄ buffered at pH 7.4 was found useful for the tissues examined: thyroid, anterior pituitary, adrenal gland and oviduct of mice.If the tissues are fixed and the sections are stained with uranyl acetate and lead acetate doubly, the follicle colloid, colloid droplets, and secretory granules containing thyroglobulin in the thyroid become higher in electron density. The cisterna of the maturing face of the Golgi apparatus, secretory granules, ribosomes, nucleolus and chromatin in the cells examined are extremely electron dense. Tubular elements of smooth endoplasmic reticulum in the adrenal cortical cell and microtubules in all the cells examined are also well preserved. The fixative containing nitrogen mustard N-oxide is useful also for cytochemistry. Using tissue fixed by this method and stained en bloc by uranyl acetate, the noradrenaline and adrenaline cells in the adrenal medulla are clearly distinguished by light microscopy.This study was supported by a grant from the Japan Educational Ministry     

Immunogold-silver staining method for light and electron microscopic detection of lymphocyte cell surface antigens with monoclonal antibodies

We used the immunogold-silver staining method (IGSS) for detection of lymphocyte cell surface antigens with monoclonal antibodies in light and electron microscopy and compared this procedure with the immunogold staining method. Two different sizes of colloidal gold particles (5 nm and 15 nm) were used in this study. Immunolabeling on cell surfaces was visualized as fine granules only by IGSS in light microscopy. The labeling density (silver-gold complexes/cell) and diameters of silver-enhanced gold particles on cell surfaces were examined by electron microscopy. Labeling density was influenced not by the enhancement time of the physical developer but by the size of the gold particles. However, the development of shells of silver-enhanced gold particles correlated with the enhancement time of the physical developer rather than the size of the colloidal gold particles. Five-nm gold particles enhanced with the physical developer for 3 min were considered optimal for this IGSS method because of reduced background staining and high specific staining in the cell suspensions in sheep lymph. Moreover, this method may make it possible to show the ultrastructure of identical positive cells detected in 1-micron sections counterstained with toluidine blue by electron microscopy, in addition to the percentage of positive cells by light microscopy.     

A light and electron microscopic procedure for sequential double antigen localization using diaminobenzidine and benzidine dihydrochloride

Very few double-antigen staining methods are available that are applicable to both light and electron microscopy. The objective of this study was to develop for localization of two neural antigens simultaneously a procedure which would be sensitive, simple to perform, offer permanent reaction products, and permit correlated light and ultrastructural analysis. The method employs sequential immunoperoxidase staining without antibody elution, in which the first sequence of antibodies is visualized with 3,3'-diaminobenzidine (DAB) and the second with benzidine dihydrochloride (BDHC). The DAB reaction product (brown and diffuse) was easily distinguishable from the BDHC deposit (blue, granular, and more electron-dense) by both light and electron microscopy. The procedure was used to simultaneously localize choline acetyltransferase-and either substance P or tyrosine hydroxylase in rat brain at both light and ultrastructural levels. Control experiments demonstrated the absence of both color mixing and antibody crossreactions, even when both primary antibodies were from the same species. This study demonstrates the usefulness of BDHC as a chromogen for immunoperoxidase staining either alone or in combination with DAB, and describes a double method which should have wide applicability for detailed studies of most pairs of antigens at both light and ultrastructural levels.     

Alterations within the rat thyroid gland during vitamin A deficiency

Thyroid glands from female rats kept vitamin A deficient for one, two, and three months were examined by electron microscopy. After one month on the diet, no consistent alterations were noted. After two months, the colloid in some follicles displayed a peripheral zone of decreased density. In addition, ultimobranchial follicles within the gland had become keratinized. After two to three months on the diet, cells were seen entering the colloid. Many of these cells were identified as follicular cells since they often occurred in groups and occasionally exhibited remnants of desmosomes. Often the cells within the colloid appeared vacuolated, and by light microscopy were thought to contain lipid. However, electron microscopy revealed that these cells contained many digestive vacuoles rather than lipid droplets. Quantitative and autoradiographic studies indicated that thyroids of vitamin A deficient rats took up less radioiodide than thyroids of control rats. The keratinization of ultimorbranchial follicles in vitamin-A deficiency has been suggested as preliminary in the histogenesis of squamous cell carcinoma. However, an effect of vitamin A deficiency on thyroid follicular cells has not heretofore been reported. It's possible that the presence of follicular cells in the colloid reflects an accelerated turnover of these cells and could indicate an early pathological sign.     

Combined immunofluorescence and field emission scanning electron microscope study of plasma membrane-associated organelles in highly vacuolated suspensor cells of white spruce somatic embryos

Highly vacuolated suspensor cells of spruce somatic embryos were examined by immunofluorescence light microscopy using butyl-methyl-methacrylate (BMM) and polyethylene glycol (PEG) embedded sections, transmission electron microscopy (TEM) and field emission scanning electron microscopy (FESEM). The use of PEG embedded embryos provided a rapid method for light microscope detection of antigens before committing to FESEM analysis. BMM embedded specimens provided well preserved suspensor cells for immunofluorescence. FESEM permitted high resolution observation of large areas of the inner surface of the plasma membrane and associated cell organelles. Suspensor cells contained mostly transversely oriented cortical microtubules linked to the plasma membrane and adjacent microtubules by cross- bridges. Light and electron microscopy revealed numerous clathrin coated structures on the plasma membrane. These included flat patches of clathrin, coated pits and coated vesicles. Many coated vesicles were associated with microtubules. Both tubular and lamellar endoplasmic reticulum were observed on the plasma membrane by FESEM.     

New sensitive light microscopical detection of colloidal gold on ultrathin sections by reflection contrast microscopy

Summary One simple post-embedding method for combined light- and electron microscopy is presented. Different types of antigens in normal rat and mouse kidneys as well as in tissues from cases of experimental induced nephritis were stained after Lowicryl K4M embedding by an immunogold (silver) method. The (silver-enhanced) gold particles were visualized by light microscopy, e.g. bright-field (BFM)- and reflection contrast (RCM) microscopy, as well as by electron microscopy. The potentials of RCM visualization in this field were investigated, resulting in the successful detection of colloidal gold (15 nm) particles, or silver enhanced gold particles, on ultrathin sections. Furthermore, an increased detection sensitivity of RCM compared with BFM together with an increase in the sensitivity of the immunostaining by RCM visualization was found. The different ways to use RCM, alone or in combination with bright-field- or phase contrast microscopy for visualization of plastic sections varying in thickness, type of plastic and staining, are discussed.     

New sensitive light microscopical detection of colloidal gold on ultrathin sections by reflection contrast microscopy. Combination of reflection contrast and electron microscopy in post-embedding immunogold histochemistry.

One simple post-embedding method for combined light- and electron microscopy is presented. Different types of antigens in normal rat and mouse kidneys as well as in tissues from cases of experimental induced nephritis were stained after Lowicryl K4M embedding by an immunogold (silver) method. The (silver-enhanced) gold particles were visualized by light microscopy, e.g. bright-field (BFM)- and reflection contrast (RCM) microscopy, as well as by electron microscopy. The potentials of RCM visualization in this field were investigated, resulting in the successful detection of colloidal gold (15 nm) particles, or silver enhanced gold particles, on ultrathin sections. Furthermore, an increased detection sensitivity of RCM compared with BFM together with an increase in the sensitivity of the immunostaining by RCM visualization was found. The different ways to use RCM, alone or in combination with bright-field- or phase contrast microscopy for visualization of plastic sections varying in thickness, type of plastic and staining, are discussed.     

Immunofluorescence and electron microscopy of the cytoplasmic surface of the human erythrocyte membrane and its interaction with Sendai virus

A method was developed for directly observing the inner surfaces of plasma membranes by light and electron microscopy. Human erythrocytes were attached to cover slips (glass or mica) treated with aminopropylsilane and glutaraldehyde, and then disrupted by direct application of a jet of buffer, which removed the distal portion of the cells, thus exposing the cytoplasmic surface (PS) of the flattened membranes. Antispectrin antibodies and Sendai virus particles were employed as sensitive markers for, respectively, the PS and the external surface (ES) of the membrane; their localization by immunofluorescence or electron microscopy demonstrated that the major asymmetrical features of the plasma membrane were preserved. The fusion of Sendai virus particles with cells was investigated using double- labeling immunofluorescence techniques. Virus adsorbed to the ES of cells at 4 degrees C was not accessible to fluorescein-labeled antibodies applied from the PS side. After incubation at 37 degrees C, viral antigens could be detected at the PS. These antigens, however, remained localized and did not diffuse from the site of attachment, as is usually seen in viral antigens accessible on the ES. They may therefore represent internal viral antigens not incorporated into the plasma membrane as a result of virus-cell fusion.     

Immunocytochemistry with osmium-fixed tissue. I. Light microscopic localization of growth hormone and prolactin with the unlabeled antibody-enzyme method.

Growth hormone and prolactin were localized on thin plastic sections of rat anterior pituitary gland and mammosomatotropic tumor MtTW15 that were fixed with osmium tetroxide (alone,mixed with aldehydes, or after aldehydes). Intense immunocytochemical staining for both antigens was obtained after plastic was removed from sections with an alcoholic solution of sodium hydroxide. The results indicated that antigenic determinants of rat prolactin and growth hormone were not completely destroyed or inactivated by fixation with osmium and embedment in epoxy resin, and that removal of the polymerized epoxy resin was necessary to obtain light microscopic postembedding immunocytochemical staining of these antigens. The results also demonstrated that tissues which have been conventionally processed for morphological evaluation by electron microscopy may be suitable for postembedding immunocytochemical staining of some antigens for light microscopy.     

Immunohistochemical localization of cell surface receptors using a novel method permitting simple, rapid and reliable LM/EM correlation

Summary A method is presented which allows correlative serial section analysis by light and electron microscopy of cell surface antigens in monolayer cultures. Sites of antigenicity are shown by deposition of diaminobenzidine after pre-embedding, immunoperoxidase immunocytochemistry. Osmication is replaced by the use of gold chloride which specifically enhances the electron density of diaminobenzidine. In addition gold chloride bound to diaminobenzidine survives embedding and provides the basis for a post-embedding photochemical amplification method. Immunostained cells are embedded in LR White by a rapid technique which preserves their structure and leaves them available for subsequent post-embedding immunocytochemistry. The method is illustrated by the demonstration of epidermal growth factor (EGF) receptors on the EGF receptor-rich human carcinoma cell line A431 using a well characterized monoclonal antibody raised against EGF receptor.     

Quantification of protein A-gold staining for peroxisomal enzymes by confocal laser scanning microscopy.

The protein A-gold technique has been widely applied for visual localization and quantification of various antigens by electron microscopy. Observation of specimens stained by the protein A-gold technique with conventional light microscopy is difficult because of insufficient sensitivity of the staining. Light microscopic visualization and quantification of the reaction products were attempted employing a confocal laser scanning microscope (CLSM). Liver tissues of normal and peroxisome proliferator-treated rats were fixed and embedded in Lowicryl K4M resin. Ultrathin and thin sections were stained for catalase and a peroxisome-specific beta-oxidation enzyme by the protein A-gold technique. Ultrathin sections were observed by electron microscopy and the labeling density for each enzyme was analyzed with an image analyzer. Thin sections were observed with a CLSM in the reflection mode and the intensity of the light reflection was analyzed under the same conditions for all specimens. A comparison of these two observation procedures was also attempted using liver tissues stained with various concentrations of the antibody for catalase. The intensity of the reflection for each, as observed by CLSM, correlated well with the labeling density observed by electron microscopy. CLSM made it possible to quantify and to directly observe protein A-gold staining at the light microscopic level.(J Histochem Cytochem 47:1343-1349, 1999)     

Preembedding colloidal gold immunostaining of hypothalamic neurons: light and electron microscopic localization of beta-endorphin-immunoreactive perikarya

A preembedding immunogold staining (IGS) procedure was developed to identify beta-endorphin/adrenocorticotropic hormone immunoreactive neurons at the light and electron microscopic levels. Colchicine-treated rats were perfused with Nakane's periodate-lysine-paraformaldehyde fixative. Vibratome sections were incubated in primary antisera followed by goat anti-rabbit immunoglobulin G coupled to 16 nm colloidal gold, and, in some cases, rabbit immunoglobulin G coupled to gold. The appearance to pink to light red perikarya, corresponding to colloidal gold deposition at antigenic sites, was monitored under the light microscope. Positive cell bodies in the arcuate region sometimes extended lateral to the nucleus. Only proximal portions of neuronal processes were stained. At the ultrastructural level, colloidal gold labeled the periphery of 90-110 nm dense neurosecretory granules in the perikaryal cytoplasm and a few proximal axons. Clusters of gold particles, appearing free in the neuroplasm, actually labeled secretory granules in adjacent thin sections. Granules associated with the Golgi apparatus were not stained. Colloidal gold labeling of mature beta-endorphin granules, but not progranules, in rat hypothalamic neurons was confirmed using the peroxidase-antiperoxidase technique. The results correlate well with data on the intracellular processing of pro-opiomelanocortin in pituitary cells and prepropressophysin in the paraventricular nucleus. These data demonstrate the first application of the preembedding colloidal gold staining method for the identification of intracellular antigens within the central nervous system. The IGS method provides a definitive marker for single or double labeling of nervous tissue at both the light and electron microscopic levels.     

Immunocytochemical localization of nuclear antigens in the unicellular green alga,Chlamydomonas reinhardtii,processed by cryofixation and freeze-substitution

Summary We describe the preparation of monoclonal antibodies to nuclear antigens in the green alga,Chlamydomonas reinhardtii, and their localization at the light and electron microscope level. Supernatants from hybridomas were screened by the ELISA method and the four antibodies giving the strongest signal were subjected to further analysis. At the LM level immunogold silver staining was used on semi-thick resinless sections. We have examined at the EM level the distribution of these antigens by post-embedding immunocytochemical techniques on sections of conventionally fixed specimens compared to cryofixed and freeze-substituted ones. Enhanced ultrastructural preservation was observed in cells which were cryofixed, freeze-substituted and embedded at –35°C in Lowicryl K4M. Different preparative procedures involving cryofixation and substitution are described. Of the four antibodies three were localized under light and electron microscopy. All three were distributed in the interchromatin space. One of these antigens (QUL4D2, 54 kDa) is also found in the dense fibrillar component and fibrillar centers of the nucleolus.Abbreviations DFC dense fibrillar component - EM electron microscope - FC fibrillar center - GAM5 goat anti-mouse IgM coupled to 5 nm colloidal gold - Ig immunoglobulin - LM light microscope - MAb monoclonal antibody - PAG protein A-gold - PBS phosphate buffered saline - PEG polyethylene glycol     

一种在光学和电子显微镜下显示铁还原酶活性的细胞化学方法

报道一种可以在光学和电子显微镜下显示铁还原酶活性的细胞化学方法。其化学原理是:当铁还原酶将铁氰化钾还原为亚铁氰化钾时,亚铁氰化钾与铜离子迅速结合生成浅棕色不溶于水的电子致密沉淀。为了便于在光学显微镜下观察酶反应的结果,可用硫化物-银放大法将暗淡的棕色沉淀转化为强反差的黑色银沉淀。实验结果表明,这一方法具有较高的精确性和专一性。在电子显微镜下,酶反应产物呈微细的颗粒覆盖在质膜上,这与其他研究者用生物化学方法获得的铁还原酶位于质膜上的观点是一致的。用该方法定位铁还原酶比以前报道的普鲁士蓝法要更为精确,后一种方法反应产物较粗并且沉积在质膜与细胞壁之间。此外,在本法中酶反应基质的pH为6.6,更接近铁还原酶的生理pH(5.5～6 .5),而普鲁士蓝反应液的pH仅为3。