Improved utilization of tissue blocks for electron microscopy. Effect of various concentrations of formaldehyde and glutaraldehyde.

Liver tissue from miniature pig fetuses was immersion-fixed in fixative mixtures with various concentrations of formaldehyde and glutaraldehyde. The preservation quality of hepatocytes was evaluated ultrastructurally in a peripheral zone (30--130 micron below the surface) and a central zone (500 micron below the surface). In the peripheral zone the best preservation was obtained with a fixative mixture containing 2% formaldehyde and 2% glutaraldehyde and in the central zone with a fixative mixture containing 8% formaldehyde and 8% glutaraldehyde. It is concluded that a better utilization of fairly large tissue blocks for ultrastructural investigation can be obtained by division of the block and subsequent fixation in fixatives containing various concentrations of formaldehyde and glutaraldehyde.     

Poor reliability of immunocytochemical localization of IgG in immersion-fixed tissue from the central nervous system.

The effect of fixation technique and post mortem-to-fixation interval in immersion-fixed tissue from the central nervous system on immunocytochemical staining for the presence of an immunoglobulin was determined in mice. Immersion-fixed tissue was found to be inferior to perfusion-fixed tissue for immunocytochemical staining of this serum protein. Unlike what has been observed for other antigens, the quality of staining for IgG in immersion-fixed tissue decreased to unacceptable levels if the post mortem-to-fixation interval was increased to more than a few hours. This effect may be secondary to the rapid post-mortem disintegration of the blood-brain barrier and a resulting diffusion of serum proteins into surrounding tissue from the vasculature.     

Evaluation of tissue preparation methods and paired immunofluorescence staining for immunocytochemistry of lymphomas

Eight cross-linking fixatives were tested for preservation of extracellular or intracellular IgG, IgA, IgM, IgD, kappa and lambda light chains, J chain and secretory component. Most of the selected fixatives have been used in recent immunohistochemical studies of lymphoproliferative processes and comprised routine formalin, glutaraldehyde(1%)-formalin, Baker's formalin-calcium, formalin-sublimate, acetic acid(2%)-formalin-saline, Bouin's fluid, Susa fixative, and carbodiimide. The results obtained in artificial test substrates with defined amounts of IgG or IgA and in biological substrates (colon mucosa, tonsils, and different types of lymphomas) were compared by immunofluorescence with the antigenic preservation afforded by fixation in cold 96% ethanol (with or without inclusion of a pre-fixation 48 h washing period). An antigen concentration at least an eight-fold higher was necessary for detection with most other fixatives. Bouin's and Susa fixatives were peculiar in that they required antigen concentration 150 times higher for detection of IgG but only 3-8 times higher for IgA. Light chains were relatively well preserved by all fixatives except glutaraldehyde. For all cross-linking fixatives, the extent of antigenic masking depended on the concentration of environmental proteins, and the efficiency of unmasking with pronase or trypsin, therefore, varied with the location in the tissue. The J chain was particularly vulnerable to degradation during proteolytic treatment. The extensive masking of extracellular immunoglobulin in formalin-fixed tissue afforded a relatively good signal-to-noise ratio for immunoglobulin-producing cells when kappa and lambda chains were traced. Thus, differentiation between polyclonal and monoclonal B-cell processes on the basis of cytoplasmic labelling was often better in undigested sections. However, the light-chain type of membrane immunoglobulin could usually not be determined in directly fixed tissue. Ethanol fixation preceded by washing in saline afforded such determination and also preserved certain T-cell and HLA-DR antigens as well as diffuse alpha-naphthylbutyrate esterase. Reactive and malignant macrophages could further be traced by their cytoplasmic expression of L1 antigen, both in formalin- and ethanol-fixed material.     

Evaluation of nine different fixatives. 2. Preservation of IgG, IgA and secretory component in an artificial immunohistochemical test substrate

An artificial substrate was developed for quantitative testing of the ability of various fixatives to preserve the reactivity of IgG and IgA isotypes (gamma and alpha chains) and the secretory component (SC) of secretory IgA as model antigens. Polymerized normal rabbit serum was used as matrix and defined amounts (10-0.1 g/l) of antigen were incorporated into it by diffusion before fixation and paraffin embedding. The various fixatives comprised alcohol, routine formalin, glutaraldehyde(1%)-formalin, Baker's formol calcium, formol sublimate, acetic acid(2%)-formol saline, Bouin's fluid, Susa fixative, and carbodiimide. The detection sensitivity afforded by these fixatives was defined as the immunofluorescence staining end point. Compared to the reference value obtained with alcohol (gamma and alpha chains, 0.06 g/l of IgG and IgA; SC, 0.12 g/l of colostral IgA), an antigen concentration at least 8 times higher was necessary for detection with most of the cross-linking fixatives. Bouin's and Susa fixatives were peculiar in that they required more than 150 times higher antigen concentration for detection of IgG but only 3-8 times higher for IgA. The determined sensitivities were compared with the immunofluorescence performance results obtained on human tissues prepared with the same fixatives; excepting carbodiimide (which produced unacceptable autofluorescence of the substrate matrix) a remarkably good correlation was found with regard to IgG- and IgA-producing cells (especially of the former isotype) and secretory epithelium (IgA and SC). However, the latter result depended on pronase treatment of the tissue sections to unmask epithelial antigens.(ABSTRACT TRUNCATED AT 250 WORDS)     

Antigen preservation tests for immunocytochemical detection of cytoskeletal proteins: influence of aldehyde fixatives

The effects of aldehyde fixatives on immunochemical detection of cytoskeletal proteins were demonstrated by applying several quantitative assays to evaluate antigen conservation. Immunologically detectable brain spectrin (240/235) was measured by dot-immunobinding and quantitative immunodot assay using a polyclonal antibody. Paraformaldehyde fixation led to a 43-66% reduction in brain spectrin (240/235) immunodetection, and increasing glutaraldehyde concentrations decreased the immunological detection even more. Quantitative cryosection immunoassay and immunocytochemical localization confirmed the aldehyde sensitivity of brain spectrin (240/235). Brain spectrin (240/235) immunoreactivity decreased with increasing protein crosslinking and was dependent on glutaraldehyde concentration and post-fixation period. The assays were also used to test for conservation of antigenicity of neurofilament proteins by two monoclonal antibodies. Neurofilament detection was abolished in brain tissue after aldehyde fixation. The described methods allow screening within 24 hr of many fixation conditions by use of purified proteins as well as brain tissue samples, and allow an estimate of fixative influence on the conservation of protein antigenicity.     

A Detailed Analysis of the Effects of Various Fixatives on Animal Tissue with Particular Reference to Muscle Tissue

Nine different fixatives (Carnoy's, Susa, Baker's formalin, 5% formalin, 10% formalin, 10% formol saline, Bouin, Zenker, and 2.5% glutaraldehyde) were compared by two methods. Gelatin-albumin gels were used to study volum changes after fixation and after various stages of subsequent processing. The appearance and hardness of the gels were also noted. The fixatives either shrunk or swelled the gels, but dehydration and clearing shrunk the gels in all cases. Sampkes of muscle tissue from one location in beef longissimus dorsi muscle were also placed in the different fixatives and processed. Various features were noted for each fixative, including the ease with which the paraffin wax blocks were cut and the staining ability of the sections in Mallory's triple stain. The diameters of the muscle fibers were measured from transverse sections of these samples and compared with the mean diameter of muscle fibera in a frozen unfixed section of muscle tissue. It was found that the fixatives had the same shrinkage effects on both the gels and the muscle samples. Analysis of variance tests showed that the various fuatives caused different degrees of shrinkage. Statistical details are given for the amounts of shrinkage caused by each fixative. Both the general histological picture and the amount of shrinkage were considered when deciding the bcst fixative. Carnoy was found to be the best of the fixatives investigated.     

Swelling of golgi apparatus cisternae in monensin-treated tissues is modulated by fixation conditions

Summary Swelling of Golgi apparatus cisternae is reported to be a common response to the ionophore, monensin. However, the amount of swelling depends on fixation, thus raising the question of whether the swelling response is due to monensin or to the fixation protocol. To resolve this problem, maize root cap cells were treated with monensin and then fixed with glutaraldehyde and osmium tetroxide (applied sequentially), osmium tetroxide alone, or aqueous potassium permanganate, or were quick frozen in liquid propane and substituted in acetone-osmium tetroxide. The chemical fixatives (which take minutes to stabilize tissue elements) were judged by comparison with freeze substitution which requires only fractions of a second to stabilize tissue elements. The results verify that monensin causes cisternal swelling and that this swelling is best observed at the ultrastructural level by fixation in glutaraldehyde/osmium tetroxide or by freeze substitution.     

A histological comparison of phase-partition fixation with fixation in aqueous solutions

In phase-partition fixation, tissue is immersed in a non-aqueous solvent at equilibrium with an aqueous solution of a fixing agent to minimize osmotic effects. Preservation of morphology afforded by phase-partition fixation using formalin and glutaraldehyde and several organic solvents was compared to aqueous 10% neutral buffered formalin fixation for five tissues. It was shown that phase-partition fixation can provide excellent fixation for light microscopy if the proper combinations of fixatives and solvents are used.     

Fixation and tissue preservation for antibody studies

Synopsis The methods of fixation and preparation of lymphoid tissues for the immuno-enzyme technique are reviewed. For this technique an enzyme is used first as an antigen and then as a marker to demonstrate its specific antibody. A variety of commonly employed fixatives satisfactorily conserve tissues for the light microscopic detection of antibody but, for electron microscopy, glutaraldehyde or formaldehyde or both are the fixatives of choice. The main technical problem for electron microscopy is to reduce the size of the tissue fragments sufficiently so that the enzymes and their substrates permeate through the fixed tissues. The merits and short-comings of the different preparative techniques are examined and it is shown that the most reproducible results are obtained with 40 m frozen sections. Some of the problems of non-specific staining arising from fixation procedures, as well as endogenous enzyme activity, are discussed. The evidence for and against antibody inactivation by fixation and enzyme inactivation by interaction with its specific antibody is reviewed.     

Application of immunoelectron microscopy for identification of T lymphocyte subsets and HLA DR antigen positive cells in tissue

The identification of T lymphocyte subsets by means of monoclonal antisera in tissue has so far been restricted to light microscopic observations on cryostat sections, since the conventional fixatives as formaldehyde, B5, or glutaraldehyde seem to denature the surface antigens. Applying a mild fixative, periodate-lysine-paraformaldehyde (PLP), we were able to demonstrate T cell subsets on the electron microscopic level in human tonsils with minimal loss of antigenicity of the surface markers Leu 1, OKT4, OKT8, and HLA DR. The preservation of the tissue could be compared favorably to fixation with glutaraldehyde, and provided an ultrastructural basis to distinguish helper and suppressor cells by morphological features as well.     

Immunohistochemical localization of human immunoglobulins and lysozyme in epoxy-embedded lymph nodes: effect of different fixatives and of proteolytic digestion

The postembedding immunoperoxidase staining technique for the localization of immunoglobulins (light and heavy chains) and of lysozyme has been successfully applied to epoxy-embedded human lymph nodes, after removal of the resin. Glutaraldehyde-containing fixatives appear to be suitable for the immunohistochemical localization of human immunoglobulins and lysozyme, provided that the masked antigenicity of these proteins is recovered by proteolytic digestion of the tissue sections using 0.4% pepsin or 0.1% trypsin. Nonglutaraldehyde-containing fixatives allow the immunolocalization of human immunoglobulins without any enzymatic pretreatment. This study shows that tissues routinely fixed in glutaraldehyde and embedded for ultrastructural investigations are actually suitable for immunohistochemical studies on human immunoglobulins and lysozyme.     

(3-Cryo) methods (cryofixation, cryosubstitution and cryoembedding) for processing of tissues for ultrastructural and immunocytochemical studies. Application to oviduct cells of laying quail.

Cryomethods occupy a privileged position among the procedures used for the preparation of biological samples for the various studies that may be performed in electron microscopy (ultrastructural, immunocytochemical and microanalysis in situ). In general, cryomethods are specific to one, or a maximum of 2 types of application. The (3-Cryo) methods (cryofixation, cryosubstitution without fixatives and cryoembedding in the new Lowicryl resins (K11M or HM23) are a set of methods for correlating new structural information with analytical and biochemical data. However, these 3-Cryomethods are delicate, complicated and expensive. To demonstrate that they can be performed, at least in part, with home-made systems at a reasonable cost, we have carried out a structural and immunocytochemical study on the oviduct of the laying quail. We studied the localization of 2 proteins, one cytoplasmic (ovalbumin) and the other nucleolar (B-36). The results provided by the 3-Cryomethods are compared with those obtained with other immunocytochemical methods, including tissue processed by conventional chemical fixation and high or low temperature embedding, or by 2-Cryomethods (cryofixation and cryosubstitution).     

An Improved Immunolabeling Method for Microtubular Cytoskeleton in Poplar (Populus nigra L) Free Nuclear Endosperm

We investigated immunocytochemical staining of microtubular cytoskeleton of free nuclear endosperm, a tissue which is particularly difficult to fix. This tissue requires fixation for 45 hr to preserve the integrity of the microtubular network after paraformaldehyde based fixation. Low glutaraldehyde concentration in the fixative and the ethanol dehydration retains β-tubulin antigenicity and the former improves preservation of tissue structure. An ethanol-free embedding method is recommended for immunocytochemical studies of ethanol sensitive target proteins.     

Effects of fixatives on the antigenicity ofBrassica S-locus specific glycoproteins and rapid immunolocalization by using the tissue print technique

Summary The tissue print technique has been used in this study rapidly localize in stigma papillae the S-locus specific glycoproteins (SLSG) which are involved in the self-incompatibility response. The immunolabelling of SLSG was confirmed at the tissue level by the use of cryosections adhered on nitrocellulose. Pretreatment of both stigma prints or cryosections with buffers and fixatives used in conventional immunocytochemistry influenced immunolabelling of SLSG. The labelling was maintained following incubation in buffer alone or in buffered paraformaldehyde but was strongly decreased by addition of glutaraldehyde even at low concentrations. This experimental approach was useful to test the influence of parameters of chemical fixation on antigenic preservation of SLSG and may be applied to other plant antigens to facilitate or improve their immunocytochemical detection.     

Ultrastructural identification of argyrophil and argentaffin cells of the gastric mucosa in the rat

Ultrastructure of endocrine cells impregnated in the rat gastric mucosa by Grimelius method (identification of argyrophilia) and by Masson--Hamperl method (identification of argentaffinity) and influence of various fixatives on the structure and properties of the secretory granules in these cells have been studied. Fixation of the material in paraformaldehyde or glutaraldehyde varies in its effect on the granule structure of EC-, D1- and ECL-cells, while its influence on the granule structure of G-, D- and AL-cells is identical. The granules of EC-, ECL- and G-cells are argyrophil, and only those of EC-cells are argentaffin. Weak argyrophilia, which is evidently not appearant at the light-optical level, is specific for granules of D1- and AL-cells. Fixation in paraformaldehyde and especially the subsequent treatment in osmium tetroxide results in increasing argyrophilia of the endocrine cells, as compared to fixation in glutaraldehyde. Varieties in the effect of the fixatives do not prevent ultrastructural and histochemical identification of the endocrine cell types.     

Ultrastructural localization of immunoreactive neurophysins using monoclonal antibodies and protein A-gold

Using three different monoclonal antibodies against rat neurophysins (5), with protein A-gold as immunocytochemical marker (27), the murid hypothalamoneurohy-pophysial system was studied at the ultrastructural level. Postembedding staining was done on epoxy-embedded sections of supraoptic nuclei and posterior pituitaries. Specific immunolabeling of vasopressinergic and oxytocinergic neurosecretory granules was observed in tissues fixed with glutaraldehyde or glutaraldehyde mixtures (containing paraformaldehyde and picric acid), with or without osmium tetroxide postfixation and with or without sodium metaperiodate oxidation. Some autophagic vacuoles containing lysed neurosecretory granules were also neurophysin immunoreactive. Nonspecific background staining was extremely low. An attempt was made to appraise labeling intensities semiquantitatively by counting gold particles in relation to number of secretory granules per axonal varicosity. Immunoreactivity was measurably influenced by the mode of fixation, sodium metaperiodate oxidation, and titer and affinity of the antibody. The protein A-gold technique using monoclonal antibodies against neurophysins provides a superior means of ultrastructural analysis of the hypothalamoneurohypophysial system, both visually and morphometrically.     

Unconventional application of standard light and electron immunocytochemical analysis to aldehyde-fixed, araldite-embedded tissues

A simple procedure for the immunocytochemical analysis of glutaraldehyde/formaldehyde-fixed, Araldite- or Epon-embedded tissues by either light or electron microscopy is presented. Retention of immunoreactive antigen in deplasticized sections was achieved by use of a low concentration of glutaraldehyde in the fixative in combination with a seldom-used plastic solvent. This protocol produced good ultrastructural preservation in tissues and large, high-quality, 2-micrometers thick, plastic-free sections. These semithin sections provided a level of structural and antigenic preservation, image resolution, and labeling intensity that surpassed all other conventional sectioning methods used for immunocytochemistry. The capacity to use a single tissue sample in studies designed for light and electron immunocytochemistry, in conjunction with existing autoradiographic and cytochemical techniques, makes this a very desirable method for routine tissue preparation in research and clinical applications.     

The influence of fixation and tissue preparation on the immunohistochemical demonstration of fibronectin in human tissue

The influence of fixation and tissue preparation on the immunohistochemical localization of human fibronectin in gastrointestinal tract tissue has been examined using indirect immunoperoxidase technique. The most optimal staining result with strong intensity and well defined localization was obtained on frozen sections of unfixed material. Nearly identical results with improved morphology were obtained when staining paraffin sections of tissue fixed in 96% ethanol, 96% + 1% acetic acid and absolute acetone. All other fixatives tested, 10% neutral buffered formalin. Lillie's AAF, Bouin's fixative, Clarke's fixative, 4% formaldehyde, 4% formaldehyde + 0.5% cetylpyridiniumchloride (F-CPC), 4% formaldehyde +0.1% glutaraldehyde gave unsatisfactory results. However, proteolytic digestion with pepsin of paraffin sections prior to staining of buffered formalin and F-CPCfixed material gave results comparable with those obtained on unfixed frozen sections are regards definition of the staining whereas staining intensity was decreased in some degree. No improvement was observed when using proteolytic digestion of tissue fixed in other fixatives.     

A new antigen retrieval technique for human brain tissue

Immunohistochemical staining of tissues is a powerful tool used to delineate the presence or absence of an antigen. During the last 30 years, antigen visualization in human brain tissue has been significantly limited by the masking effect of fixatives. In the present study, we have used a new method for antigen retrieval in formalin-fixed human brain tissue and examined the effectiveness of this protocol to reveal masked antigens in tissues with both short and long formalin fixation times. This new method, which is based on the use of citraconic acid, has not been previously utilized in brain tissue although it has been employed in various other tissues such as tonsil, ovary, skin, lymph node, stomach, breast, colon, lung and thymus. Thus, we reported here a novel method to carry out immunohistochemical studies in free-floating human brain sections. Since fixation of brain tissue specimens in formaldehyde is a commonly method used in brain banks, this new antigen retrieval method could facilitate immunohistochemical studies of brains with prolonged formalin fixation times.     

The impact of different fixation procedures on staining of macromolecules in a microtiter system

Summary The effects of formaldehyde, glutaraldehyde, methanol, Clarke's fixative and microwave irradiation on the quantitative staining of proteins (Naphthol Yellow S) and nucleic acids (Ethyl Green—Pyronin) in a cell culture system have been investigated. Overall, glutaraldehyde rapidly yielded the highest and most consistent levels of staining when compared to all other chemical fixatives. Although microwave irradiation was found to be uneven, 4 min exposure to 700W was found to give higher levels of protein staining than those achieveable with glutaraldehyde. Time-dependent processes were observed with all procedures. In addition, dissociations in the trends of protein and nucleic acid staining were observed. It is suggested that these results domonstrate fixation events that have not previously been resolved from the effects of reagent penetration into tissue blocks.