Effects of fixation and processing on the immunohistochemical visualization of type-I, -III and -IV collagen in paraffin-embedded liver tissue

Summary We compared the effects of different fixatives and enzymatic-digestion procedures on the immunohistochemical visualization of type-I,-III and-IV collagen in paraffin-embedded normal human liver sections. None of the fixatives tested allowed the staining of these antigens without prior enzymatic digestion. The best results i.e. strong staining intensity and well-defined localization, were obtained when liver tissue was fixed in Bouin's fluid or in other solutions containing picric acid. Several other fixatives, including Carnoy's fluid, Lillie's AAF, 10% neutral formalin and 96% ethanol, gave unsatisfactory results. Pepsin was ineffective for unmasking type-I and-III collagen antigens, and was only partially effective for visualizing the type-IV collagen antigen. The best results were obtained when material fixed in Bouin's fluid was embedded in paraftin and digested with trypsin. Using this procedure, the results were comparable to those obtained in unfixed frozen sections with respect to the staining intensity, specificity and non-specific staining.     

Effects of fixation and processing on the immunohistochemical visualization of type-I, -III and -IV collagen in paraffin-embedded liver tissue

We compared the effects of different fixatives and enzymatic-digestion procedures on the immunohistochemical visualization of type-I, -III and -IV collagen in paraffin-embedded normal human liver sections. None of the fixatives tested allowed the staining of these antigens without prior enzymatic digestion. The best results i.e. strong staining intensity and well-defined localization, were obtained when liver tissue was fixed in Bouin's fluid or in other solutions containing picric acid. Several other fixatives, including Carnoy's fluid, Lillie's AAF, 10% neutral formalin and 96% ethanol, gave unsatisfactory results. Pepsin was ineffective for unmasking type-I and -III collagen antigens, and was only partially effective for visualizing the type-IV collagen antigen. The best results were obtained when material fixed in Bouin's fluid was embedded in paraffin and digested with trypsin. Using this procedure, the results were comparable to those obtained in unfixed frozen sections with respect to the staining intensity, specificity and non-specific staining.     

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.     

In situ localization of amylase mRNA and protein. An investigation of amylase gene activity in normal human parotid gland

The distribution of human salivary amylase mRNA was studied by in situ hybridization to a [32P]-labeled amylase cDNA probe. Amylase mRNA was localized to the apical portion of acinar cells in frozen sections of human parotid salivary gland. No hybridization was noted in ductal cells, skeletal muscle, or in connective tissue. These results were consistent with immunohistochemical localization of amylase. The technique of in situ hybridization was modified to permit localization of amylase mRNA in variously fixed, paraffin-embedded parotid glands. Although the hybridization signal decreased with all fixatives, the pattern of localization paralleled that obtained with frozen sections. No advantage was noted in fixation with ethanol-acetic acid or Bouin solution over routine fixation with formalin. These results have important implications for researchers interested in studies of gene expression. We have demonstrated that routinely fixed paraffin blocks of human tissue can be used for cellular localization of specific mRNA. In coordination with immunocytochemistry, in situ hybridization offers a powerful tool for studies of mRNA and protein expression in individual cells.     

Modified silver staining of nucleolar organizer regions to improve the accuracy of image analysis

Silver staining of nucleolar organizer regions (NORs) and their subsequent quantification by image analysis are used increasingly in human pathological specimens and experimental models. Because certain conditions determined by the type of tissue and/or its fixation render AgNOR segmentation for image analysis difficult due to insufficient contrast or nonspecific silver precipitation, we propose three improvements to the original technique to overcome these difficulties. Pretreatment with 7% nitric acid produced very distinct dark brown images of AgNORs on a yellow background. The gradient of background colors allowed easy discrimination of nucleolar, nuclear and cytoplasmic structures. Seven morphometric parameters related to number, size and shape of AgNORs were evaluated quantitatively by image analysis on sections pretreated with nitric acid and on adjacent sections treated with citrate buffer in a wet autoclave according to the most widely accepted method for image analysis of AgNOR. Both methods yielded similar results. A second improvement was achieved by coating the slides with 7% celloidin solution in ethyl alcohol-ether prior to AgNOR staining and acid pretreatment. This coating prevented nonspecific silver deposition on argyrophilic bacteria and other tissue debris in human vaginal smears that could make visualizing AgNOR sites difficult. Finally, placing sections face down on the staining solution prevents the formation of nonspecific silver precipitates. These procedures can be applied together or separately according to the requirements of the material to be evaluated.     

激光微切割与定量PCR技术分析肾脏病理切片RNA

采用激光微切割与定量PCR技术,分析使用不同提取方法从不同固定方法固定的病理切片中提取的RNA.用70%乙醇、丙酮、甲醇、4%多聚甲醛固定肾脏冰冻切片,使用激光微切割技术切取肾小球,用硫氰酸胍方法(guanidinethiocyanatemethods,GTC)和Trizol试剂方法提取RNA,使用Taqman定量PCR方法分析比较各组RNA的量;选取丙酮固定的石蜡切片,使用激光微切割技术切取肾小球,采用RNA裂解液提取RNA,使用Taqman定量PCR方法,比较石蜡切片和冰冻切片中RNA含量.结果显示:提取沉淀性固定剂如乙醇、丙酮、甲醇固定的冰冻切片的RNA时,2种提取方法和3种固定方法对RNA含量的影响都无明显差异;但在提取4%多聚甲醛固定冰冻切片时,使用Trizol提取RNA含量明显高于使用GTC方法,且其含量与沉淀性固定剂固定的切片RNA含量无明显差异.石蜡切片中经激光微切割肾小球的RNA含量与冰冻切片经激光微切割肾小球的RNA含量无明显差异.结果提示:切片的固定方法和RNA的提取方法是影响切片RNA提取量的主要原因.     

The influence of fixatives and other variations in tissue processing on nuclear morphometric features

The influence on the area and numerical density of nuclei was investigated in 5-mm-thick slices of guinea pig liver for different fixatives and variations in tissue processing: delay in fixation, air drying, degree of acidity of 10% formalin (= 4% formaldehyde), Bouin and mercury-formalin fixatives, acetone and ethanol dehydration and understretching and overstretching of the paraffin-embedded sections. Air drying (either forced or as a result of delayed fixation), the type of fixative and the degree of acidity affected the nuclear area. Regarding the latter, nuclear area was approximately 25% lower for pH less than or equal to 3 as compared with pH greater than 5. In comparison with the standard tissue processing used, the nuclear density was higher after all of the variations studied (air drying, acetone dehydration and fixation). These findings indicate that nuclear area, in contrast to other tissue components, is relatively insensitive to variations in tissue processing. However, it is essential to regularly measure the pH of the fixative: deviations from pH = 7 should be carefully avoided in order to keep nuclear area variations as a result of tissue processing within acceptable limits.     

Modified silver staining of nucleolar organizer regions to improve the accuracy of image analysis

Silver staining of nucleolar organizer regions (NORs) and their subsequent quantification by image analysis are used increasingly in human pathological specimens and experimental models. Because certain conditions determined by the type of tissue and/or its fixation render AgNOR segmentation for image analysis difficult due to insufficient contrast or nonspecific silver precipitation, we propose three improvements to the original technique to overcome these difficulties. Pretreatment with 7% nitric acid produced very distinct dark brown images of AgNORs on a yellow background. The gradient of background colors allowed easy discrimination of nucleolar, nuclear and cytoplasmic structures. Seven morphometric parameters related to number, size and shape of AgNORs were evaluated quantitatively by image analysis on sections pretreated with nitric acid and on adjacent sections treated with citrate buffer in a wet autoclave according to the most widely accepted method for image analysis of AgNOR. Both methods yielded similar results. A second improvement was achieved by coating the slides with 7% celloidin solution in ethyl alcohol-ether prior to AgNOR staining and acid pretreatment. This coating prevented nonspecific silver deposition on argyrophilic bacteria and other tissue debris in human vaginal smears that could make visualizing AgNOR sites difficult. Finally, placing sections face down on the staining solution prevents the formation of nonspecific silver precipitates. These procedures can be applied together or separately according to the requirements of the material to be evaluated.     

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.     

The effects of various fixatives on subsequent lectin binding to tissue sections

Summary The effects of ten fixation protocols on the subsequent binding of eight lectins to various mouse tissue sites have been systematically evaluated. The fixatives used were neutral and buffered formalin—saline, Bouin's fluid, 95% ethanol, Carnoy's fluid, calcium acetate—paraformaldehyde, and mercuric chloride both before and after removal of mercury pigment. These were compared with frozen sections of unfixed tissue and frozen sections post fixed in paraformaldehyde. Lectins used were PNA, DBA, SBA, BPA, UEA 1, GS I, GS II and MPA. Ethanol was found to be the superior fixative, closely followed by mercuric chloride. Paraformaldehyde was a poor fixative of both paraffin and frozen sections. It is recommended that, where a choice is possible, the fixation protocol appropriate to the particular lectin and tissue binding site is selected. Within certain limitations, formalin—saline proved an adequate fixative for the study of routine paraffin-processed tissue sections.     

Special symposium: fixation and tissue processing models

Abstract

Fixation and processing of tissue to paraffin blocks permit thin (4-5 µm) sections of tissues to be cut. Tissues and their subcellular components and surrounding stroma are visualized by cutting thin sections and staining them histochemically or immunohistochemically and viewing the sections using a bright field microscope. During the last century, anatomists and pathologists have used fixation with 10% neutral buffered formalin (10% NBF) as the fixative of choice. Also, both human and veterinary pathologists have trained to use fixation with 10% NBF, so these professionals are reluctant to change the familiar microscopic appearance of diagnostic tissues by using different fixatives. In addition, the effects of tissue processing on the microscopic appearance of tissue essentially has been ignored in most studies. Archives of paraffin blocks of pathological tissue contain essentially paraffin blocks fixed in 10% NBF. Therefore, if retrospective studies use archival paraffin blocks to correlate the molecular features of diseases with their outcomes, the studies must be based on tissue fixed in 10% NBF. Studies of how fixation in 10% NBF interacts with histochemical and immunohistochemical staining are limited in number and most are based on relatively long fixation times (≥36 h). Currently, fixation times in 10% NBF have been reduced to <24 h. Little is known about fixation in 10% NBF and its interaction with tissue processing for any period of fixation, especially short times. Less is known about how fixation of tissues with 10% NBF interacts with more modern assays using immunohistochemistry, real time quantitative polymerise chain reaction (PCR), and techniques that depend on analysis of proteins extracted from paraffin blocks including multiplex immunoassays or mass spectrometry. In general, multiple antibody–antigen combinations are reported not to work in tissues fixed in 10% NBF, i.e., loss of immunorecognition is nearly complete for such antibody–antigen combinations as Ki67/MIB, estrogen receptor alpha (ERα) and Progesterone receptor (PR), and partial for Bcl-2. Several models have been developed to study the interactions of tissue fixation and immunorecognition, but most have viewed the problem with immunorecognition as completely caused by fixation. Also, some of the models discussed in this special symposium do not predict the effects of fixation on frozen tissues fixed in 10% NBF and not processed to paraffin blocks. This article is a brief review of issues attending the use of 10% NBF combined with tissue processing as an interrelated process to study biomarkers identified by immunohistochemistry.     

Analysis of proliferative activity in colorectal mucosa by immunohistochemical detection of proliferating cell nuclear antigen (PCNA)

Immunohistochemical detection of proliferating cell nuclear antigen (PCNA) has been suggested as a new approach for determinating proliferative activity in paraffin-embedded tissue. In a prospective study PCNA immunostaining was performed in 284 colorectal biopsies using monoclonal antibodies 19F4 (Ogata et al. 1987) and PC10 (Waseem and Lane 1990) and compared with the Ki67 method. From each site three biopsies were taken and a variety of fixation regimens for frozen and paraffin-embedded samples tested. For frozen biopsies methanol fixation at −20° C proved best. In paraffin sections PCNA could be detected after methacarn fixation as well as after controled fixation at 4° C in 4% paraformaldehyde for 1 h and in most biopsies routinely fixed with 10% formalin. However, the latter fixation regimens revealed additional PCNA-positive cells in the normal superficial colonic mucosal epithelium. Although the percentage of cells positive for PCNA was generally lower than for Ki67, the rates correlated in a highly significant fashion, both in frozen methanolfixed biopsies, and in paraformaldehyde-fixed paraffinembedded samples. PCNA immunohistochemistry revealed a similar proliferative activity in different parts of the large bowel. A higher proliferative activity was found in inflamed mucosa, adenomas, carcinomas and even in normal mucosa from patients with colorectal neoplasms. In routinely fixed biopies, the monoclonal antibody PC10 was superior to 19F4 because of considerably less background staining. However, in the routine material only a rough estimate of the proliferative activity was possible by PCNA immunohistochemistry using these antibodies, because unpredictable numbers of non-S-phase cells were also stained. Thus, it was concluded that reliable results are only obtainable after careful control of the fixation conditions. Taking this reservation into account, PCNA immunohistochemistry still represents a convenient method for measurements of proliferative activity in paraffin-embedded colorectal mucosa and can be applied using methanol-containing fixatives as well as after 4% paraformaldehyde fixation. Supported by a grant of the Werner and Klara Kreitz-Stiftung, Kiel to J.D.     

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

Summary 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 as 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.     

Comparative usefulness of tissue fixatives for in situ viral nucleic acid hybridization

Traditionally tissues for in situ hybridization of viral nucleic acid have been small pieces obtained from laboratory rodents, and fixatives that are designed for electron microscopy, such as periodate-lysine-paraformaldehyde (PLP) can handle them adequately. However, these fixatives have limited penetrating ability and may produce no appreciable hardening, so alternative fixation methods were evaluated. The intention was to determine whether fixatives adequate for bulky tissues such as whole or halved pig and cow brains would also be compatible with in situ hybridization. Various fixatives were evaluated using a system of intracranial inoculation of BALB/c mice with pseudorabies virus (PRV) followed by in situ hybridization of brain tissue sections with a 35S-labeled PRV DNA probe. Loss of tissue sections was a major problem, particularly with PLP and formalin, but positive results were obtained with five fixatives tested. Cellular morphology was especially good with PLP and with a modification of Carnoy's fluid, MOCA fixative. An incidental but important observation was that formalin is compatible with in situ hybridization. Retroactive studies of viral diseases using routinely processed blocks of tissue (formalin-fixed, paraffin-embedded) are therefore conceivable.     

Effect of fixation on the antigenicity of human lactoferrin in paraffin-embedded tissues and cytocentrifuged cell smears.

Immunoperoxidase techniques were used to study the preservation of the antigenicity of human lactoferrin (LF) of polymorphonuclear neutrophils (PMN) and various exocrine glandular cells in paraffin-embedded tissue blocks and cytocentrifuged cell smears. Tissues fixed in Carnoy's fluid in contrast to other fixatives used, showed good preservation of LF antigenicity irrespective of the fixation time. Cell smears fixed in Carnoy's fluid showed diffuse nuclear and cytoplasmic staining for LF, although morphologic integrity was poorly preserved. Granular cytoplasmic staining for LF with no staining of nuclei was seen in cell smears fixed in buffered formol acetone for 2--10 min. The nature of nuclear LF staining and future applications of the present methods are discussed.     

Immunoreactivity to MIB-1 in breast cancer: methodological assessment and comparison with other proliferation indices

The recent availability of the monoclonal antibody MIB-1 (which is able to detect the human nuclear cell proliferation-associated antigen Ki-67 even on formalin-fixed, paraffin-embedded sections, microwave-treated and routinely processed for immunohistochemistry) could open new avenues for validation of the clinical role of tumour cell proliferation on large, consecutive and unselected series of human tumours. However, the routine use of such a marker requires a methodological standardization as well as the comparative assessment of some technical and biological aspects. The MIB-1 index was determined in parallel samples from 50 consecutive invasive breast carcinomas processed with different fixatives for different times. The median values of MIB-1 indices following 2, 6 and 24 h of formalin fixation were similar (29.4%, 30.6% and 29.7%, respectively) and consistent with those reported in the literature; squared linear regression coefficients were 0.99. The median values of MIB-1 indices were markedly lower in Bouin-fixed, paraffin-embedded, and in frozen samples (20.0% and 19.8%, respectively), with a poor correlation coefficient with the values detected following formalin fixation ( R ²=0.456). Moderate and poor correlations were observed between Ki-67 index and MIB-1 detected on frozen ( r _s, 0.78) or formalin-fixed, paraffin-embedded samples ( r _s, 0.47) and a minimal concordance was observed between TLI and MIB-1 or Ki-67 ( r _s, 0.25 and 0.22, respectively). Our results indicate interference of the fixative type on immunoreactivity to MIB-1 and also suggest that Ki-67 and MIB-1 reacted with different epitopes of the same antigen.     

Expression of argyrophilic nucleolar organizer regions (AgNORs) can be used to assess cellular proliferation as shown in rat thymic sections

Summary Silver-stained nucleolar organizer regions (AgNORs) were studied in thymic sections from 4- and 30-day-old rats. By direct examination under the light microscope cells with a low or high content of AgNORs (type I and type II cells, respectively) were identified and their relative numbers calculated. The mean area of AgNORs per cell was calculated for each type of cell and age group. Additionally, the proportion of cells labelled with bromodeoxyuridine was calculated in sections from the same animals. Visual identification of type I and type II cells was confirmed by a significant (p < 0.01) difference in the mean AgNOR area in both types of cell. Both the proportion of cells with a high expression of AgNORs (type II cells) and that of bromodeoxyuridine-labelled cells were significantly greater (p < 0.01) in 4-day-old rats than in 30-day-old rats. A significant correlation was found between both variables (R² = 0.45;p = 0.002), the relation being best between both variables and age (R² = 0.91;p = < 0.001). These data offer support for an easy interpretation of the AgNOR reaction in which the proportion of cells with a high expression of AgNORs can be used as an index of proliferative activity in a tissue sample.     

Effect of fixation on the antigenicity of human lactoferrin in paraffin-embedded tissues and cytocentrifuged cell smears

Summary Immunoperoxidase techniques were used to study the preservation of the antigenicity of human lactoferrin (LF) of polymorphonuclear neutrophils (PMN) and various exocrine glandular cells in paraffin-embedded tissue blocks and cytocentrifuged cell smears. Tissues fixed in Carnoy's fluid in contrast to other fixatives used, showed good preservation of LF antigenicity irrespective of the fixation time. Cell smears fixed in Carnoy's fluid showed diffuse nuclear and cytoplasmic staining for LF, although morphologic intergrity was poorly preserved. Granular cytoplasmic staining for LF with no staining of nuclei was seen in cell smears fixed in buffered formol acetone for 2–10 min. The nature of nuclear LF staining and future applications of the present methods are discussed.     

Optimizing collagen antigen unmasking in paraffin-embedded tissues

In order to optimize collagen antigen unmasking in paraffin-embedded tissue sections, the effects of various fixatives and duration of fixation in relation to enzyme pretreatment and microwave irradiation for collagen antigen unmasking were studied. A streptavidin--biotin-- peroxidase complex method was used for the immunolocalization of type III and IV collagen antigens. Fixatives and fixation time had significant adverse effects on the immunoreactivity of the antigens. Enzyme pretreatment was found to be superior to microwave irradiation for collagen antigen unmasking. Fixation with paraformaldehyde required shorter enzyme pretreatment and yielded a more enhanced reaction than treatment with formalin and Bouin's fluid. The optimum conditions for type III and IV collagen unmasking were found to be fixation with 4% paraformaldehyde in 0.01 m phosphate-buffered saline, pH 7.4, for up to 3 weeks followed by enzyme pretreatment with 1 mg ml−1 pepsin in 0.01 n hydrochloric acid, pH 2.0, for 30 min (human tissues) or 60 min (rat tissues) at 37°C. It is concluded that collagen antigen unmasking by enzyme pretreatment in tissue sections fixed for a long period of time can be successful if appropriate enzyme(s) and incubation time(s) are employed with regard to the antigen under study and fixative and fixation time used for tissue preparation     

Optimizing collagen antigen unmasking in paraffin-embedded tissues

In order to optimize collagen antigen unmasking in paraffin-embedded tissue sections, the effects of various fixatives and duration of fixation in relation to enzyme pretreatment and microwave irradiation for collagen antigen unmasking were studied. A streptavidin--biotin-- peroxidase complex method was used for the immunolocalization of type III and IV collagen antigens. Fixatives and fixation time had significant adverse effects on the immunoreactivity of the antigens. Enzyme pretreatment was found to be superior to microwave irradiation for collagen antigen unmasking. Fixation with paraformaldehyde required shorter enzyme pretreatment and yielded a more enhanced reaction than treatment with formalin and Bouin's fluid. The optimum conditions for type III and IV collagen unmasking were found to be fixation with 4% paraformaldehyde in 0.01 m phosphate-buffered saline, pH 7.4, for up to 3 weeks followed by enzyme pretreatment with 1 mg ml−1 pepsin in 0.01 n hydrochloric acid, pH 2.0, for 30 min (human tissues) or 60 min (rat tissues) at 37°C. It is concluded that collagen antigen unmasking by enzyme pretreatment in tissue sections fixed for a long period of time can be successful if appropriate enzyme(s) and incubation time(s) are employed with regard to the antigen under study and fixative and fixation time used for tissue preparation