Coexpression of cytokeratin and vimentin in Rathke's cysts of the human pituitary gland

Summary Immunohistochemistry with monoclonal and polyclonal antibodies revealed the presence of cytokeratins in epithelial cells of Rathke's cysts in the pars intermedia of the human pituitary gland. With monoclonal antibodies specific for individual cytokeratins, the expression of CK 18, CK 8, CK 7, and CK 19 could be shown in these cells. Within the hypophysis, CK 19 and CK 7 were restricted to Rathke's cysts and a few epithelial cell clusters in the pars tuberalis, whereas other cytokeratins were also present in endocrine cells of the pars distalis. Furthermore, vimentin and, focally, glial fibrillary acidic protein (GFAP) were detected in the cystic epithelia. By double labelling, coexpression of cytokeratin and vimentin, GFAP and cytokeratin, and GFAP and vimentin could be demonstrated. Compiled data of all known cases of coexpression of cytokeratin and vimentin in normal cells reveal physiological correlations and suggest a functional significance of this rare type of coexpression of intermediate filament proteins.     

Cell type heterogeneity of intermediate filament expression in epithelia of the human pituitary gland

In the present study we have localized immunohistochemically the intermediate filament proteins of the human pituitary gland (adenohypophysis, pars intermedia and pars tuberalis) by an indirect immunoperoxidase technique or by double immunofluorescence methods and analysed the individual cytokeratin polypeptides using two-dimensional gel electrophoresis. We found that the expression of cytokeratins in different epithelial cells of the human anterior pituitary gland was heterogeneous. Whereas the endocrine cells only expressed cytokeratins 8 and 18, the folliculo-stellate cells exhibited a reactivity for cytokeratins 7, 8, 18 and 19 as well as for GFAP and vimentin. The squamous epithelial cells of the pars tuberalis and the Ratke's cysts showed a more complex cytokeratin pattern of both squamous and simple type. Whereas in may cystic epithelial cells including the "pseudo-follicles" a triple expression of cytokeratin, vimentin and GFAP could be observed, only some basal cells of squamous epithelial nests coexpressed cytokeratin and vimentin. The differences in the intermediate filament protein distribution are discussed in the light of embryological relationships of the different parts of the human pituitary gland.     

Cell type heterogeneity of intermediate filament expression in epithelia of the human pituitary gland

Summary In the present study we have localized immunohistochemically the intermediate filament proteins of the human pituitary gland (adenohypophysis, pars intermedia and pars tuberalis) by an indirect immunoperoxidase technique or by double immunofluorescence methods and analysed the individual cytokeratin polypeptides using two-dimensional gel electrophoresis. We found that the expression of cytokeratins in different epithelial cells of the human anterior pituitary gland was heterogeneous. Whereas the endocrine cells only expressed cytokeratins 8 and 18, the folliculo-stellate cells exhibited a reactivity for cytokeratins 7, 8, 18 and 19 as well as for GFAP and vimentin. The squamous epithelial cells of the pars tuberalis and the Ratke's cysts showed a more complex cytokeratin pattern of both squamous and simple type. Whereas in many cystic epithelial cells including the pseudo-follicles a triple expression of cytokeratin, vimentin and GFAP could be observed, only some basal cells of squamous epithelial nests coexpressed cytokeratin and vimentin. The differences in the intermediate filament protein distribution are discussed in the light of embryological relationships of the different parts of the human pituitary gland.     

Cytokeratin filament modulation in pulmonary microvessel endothelial cells by vasoactive agents and culture confluency.

Recently, bovine pulmonary microvascular endothelial cells (PMV) were shown to contain cytokeratin 8 and 19 intermediate filaments (Patton et al., 1990). In this study, we examine the effect of culture contiguity and vasoactive agents on the content and assembly of cytokeratins in PMV. Immunofluorescent staining of PMV cultures show a progressive increase in cytokeratin filament assembly. In freshly plated PMV, keratin appears as hazy staining (less than 4 hr) and later organizes into keratin 'plaques' (4 days) associated with cell-cell contacts; post confluent (greater than 7 days) PMV cultures contain fully assembled cytokeratin filaments which extend to the cell periphery and approach filaments in apposed cells. Vimentin filaments are also present in freshly plated PMV cultures but unlike cytokeratins, become less filamentous at confluency. This cell density-dependent modulation of cytokeratins is also demonstrated by densitometric analysis of autoradiographs of 35S-methionine labeled keratins in which PMV keratin content is elevated at high cell densities, while vimentin content remains constant. Desmoplakins I and II, components of desmosomes, could not be demonstrated in PMV by immunoblotting. PMV treated with permeability modulating agents (4 x 10(-3) M EGTA, 1 microM cytochalasin B, 1 microM bradykinin, 1 microM A23187, and 1 microM PMA) exhibit border retraction and altered keratin filament staining. From these studies we conclude: 1) cytokeratin 8 and 19 containing intermediate filaments are present in confluent PMV cultures with vimentin but without desmosomes, 2) the state of assembly of PMV cytokeratin and vimentin filaments appears to be oppositely affected by culture contiguity, and 3) treatment of monolayers with vasoactive agents alters the state of assembly of cytokeratin filaments. We speculate that modulation of cytokeratin assembly in PMV may be involved in regulation of pulmonary microvascular structure and function.     

Expression of intermediate filament proteins in fetal and adult human lung tissues

The expression patterns of intermediate filament proteins in fetal and normal or nonpathological adult human lung tissues are described using (chain-specific) monoclonal antibodies. In early stages of development (9-10 weeks and 25 weeks of gestation) only so-called simple cytokeratins such as cytokeratins 7 (minor amounts). 8, 18 and 19 are detected in bronchial epithelial cells. At later stages of development, the cytokeratin expression patterns become more complex. The number of bronchial cells positive for cytokeratin 7 increases, but basal cells in the bronchial epithelium remain negative. These latter cells show, however, expression of cytokeratin 14 in the third trimester of gestation. Developing alveolar epithelial cells express cytokeratins 7, 8, 18 and 19. In adult human bronchial epithelium cytokeratins 4 (varying amounts), 7, 8, 13 (minor amounts), 14, 18 and 19 can be detected, with the main expression of cytokeratins 7, 8, and 18 in columnar cells and the main expression of cytokeratin 14 in basal cells. Vimentin is detected in all mesenchymal tissues. In addition, fetal lung expresses vimentin in bronchial epithelium, however, to a lesser extent with increasing age, resulting in the expression of vimentin in only few scattered bronchial cells at birth. Also in adult bronchial epithelium the expression of vimentin is noticed in part of the basal and columnar epithelial cells. Desmin filaments, present in smooth muscle cells of the lung, appear to alter their protein structure with age. In early stages of development smooth muscle cells surrounding blood vessels are partly reactive with some cytokeratin antibodies and with a polyclonal desmin antibody. At week 9-10 and week 25 of gestation a monoclonal antibody to desmin, however, is not reactive with blood vessel smooth muscle cells but is only reactive with smooth muscle cells surrounding bronchi. With increasing age the reactivity of cytokeratin antibodies with smooth muscle cells in blood vessels decreases, while the reactivity with the monoclonal desmin antibody increases. Our results show that during differentiation profound changes in the intermediate filament expression patterns occur in the different cell types of the developing lung.     

Intermediate filament proteins in nonfilamentous structures: Transient disintegration and inclusion of subunit proteins in granular aggregates

The intermediate filament cytoskeleton of cultured bovine kidney epithelial cells and human HeLa cells changes dramatically during mitosis. The bundles of cytokeratin and vimentin filaments progressively unravel into protofilament-like threads of 2–4 nm diameter, and intermediate filament protein is included in numerous, variously sized (2–15 μm) spheroidal aggregates containing densely stained granular particles of 5–16 nm diameter. We describe these mitotic bodies in intact cells and in isolated cytoskeletons. In metaphase to anaphase of normal mitosis and after colcemid arrest of mitotic stages, many cells contain all their detectable cytokeratin and vimentin material in the form of such spheroidal aggregate bodies, whereas in other mitotic cells such bodies occur simultaneously with bundles of residual intermediate filaments. In telophase, the extended normal arrays of intermediate filament bundles are gradually reestablished. We find that vimentin and cytokeratins can be organized in structures other than intermediate filaments. Thus, at least during mitosis of some cell types, factors occur that promote unraveling of intermediate filaments into protofilament-like threads and organization of intermediate filament proteins into distinct granules that form large aggregate bodies. Some cells, at least certain epithelial and carcinoma cells, may contain factors effective in structural modulation and reorganization of intermediate filaments.     

Aggregation and loss of cytokeratin filament networks inhibit golgi organization in liver-derived epithelial cell lines

Intermediate filaments are one of the three major cytoskeletons. Some roles of intermediate filaments in cellular functions have emerged based on various diseases associated with mutations of cytokeratins. However, the precise functions of intermediate filament are still unclear. To resolve this, we manipulated intermediate filaments of cultured cells by expressing a mutant cytokeratin. Arginine 89 of cytokeratin18 plays an important role in intermediate filament assembly. The expression of green fluorescent protein-tagged cytokeratin18 arg89cys induced aggregations and loss of the intermediate filament network composed of cytokeratins in liver-derived epithelial cells, Huh7 and OUMS29, but only induced the formation of cytokeratin aggregates and did not affect the intermediate filament network of endogenous vimentin in HEK293. The expression of this mutant affected the distribution of Golgi apparatus and the reassembly of Golgi apparatus after perturbations by nocodazole or brefeldin A in both Huh7 and OUMS29, but not in HEK293. Our data show that loss of the original intermediate filament network, but not the existence of cytokeratin aggregates, induces redistribution of the Golgi apparatus. The original intact intermediate filament network is necessary for the organization of Golgi apparatus.     

Patterns of expression of cytoskeletal proteins in human thyroid gland and thyroid carcinomas

By two-dimensional gel electrophoresis of proteins insoluble in detergents and high-salt buffer and immunofluorescence microscopy with a panel of polypeptide-specific antibodies to proteins of intermediate filaments (IF) and desmosomes, we have characterized the cytoskeletons of normal human thyroid gland, several kinds of benign lesion (goiter, Hashimoto's and Graves' diseases, adenomas), and the major thyroid carcinomas (follicular, papillary, medullary, and anaplastic). In all these tissues, desmoplakins and cytokeratins 7, 8, 18, and 19 were identified. While cytokeratins 8 and 18 occurred in all epithelial cells and cytokeratin 7 was also rather widespread, cytokeratin 19 occurred in amounts variable between the different types of tissues and in normal thyroid gland was restricted to certain clusters of follicular epithelial cells. Of all samples studied, in none did we detect cytokeratins commonly associated with stratified epithelia such as cytokeratins 4-6, 10, and 13-17, indicating that these are infrequent, if at all present, in such tissues. Coexpression of cytokeratins with vimentin appears to occur constitutively in follicular epithelial cells of normal thyroid gland and is also frequent in the diverse carcinomas, though to various degrees. Medullary carcinomas are exceptional, not only because they express neuroendocrine markers, but also because they coexpress combinations of cytokeratin IFs with neurofilaments and/or vimentin IFs in some cases, but not all. The results are discussed in relation to states of cell differentiation in normal and diseased thyroid gland and with respect to their value in tumor diagnosis.     

Tissue type-specific expression of intermediate filament proteins in a cultured epithelial cell line from bovine mammary gland

Different clonal cell lines have been isolated from cultures of mammary gland epithelium of lactating cow’s udder and have been grown in culture media containing high concentrations of hydrocortisone, insulin, and prolactin. These cell (BMGE+H), which grow in monolayers of typical epithelial appearance, are not tightly packed, but leave intercellular spaces spanned by desmosomal bridges. The cells contain extended arrays of cytokeratin fibrils, arranged in bundles attached to desmosomes. Gel electophoresis show that they synthesize cytokeratins similar, if not identical, to those found in bovine epidermis and udder, including two large (mol wt 58,500 and 59,000) and basic (pH range: 7-8) and two small (mol wt 45,500 and 50,000) and acidic (pH 5.32 and 5.36) components that also occur in phosphorylated forms. Two further cytokeratins of mol wts 44,000 (approximately pH 5.7) and 53,000 (pH 6.3) are detected as minor cytokeratins in some cell clones. BMGE+H cells do not produce vimentin filaments as determined by immunofluorescence microscopy and gel electrophoresis. By contrast, BMGE-H cells, which have emerged from the same original culture but have been grown without hormones added, are not only morphologically different, but also contain vimentin filaments and a different set of cytokeratins, the most striking difference being the absence of the two acidic cytokeratins of mol wt 50,000 and 45,500. Cells of the BMGE+H line are characterized by an unusual epithelial morphology and represent the first example of a nonmalignant permanent cell line in vitro that produces cytokeratin but not vimentin filaments. The results show that (a) tissue-specific patterns of intermediate filament expression can be maintained in permanent epithelial cell lines in culture, at least under certain growth conditions; (b) loss of expression of relatively large, basic cytokeratins is not an inevitable consequence of growth of epithelial cells in vitro. Our results further show that, during culturing, different cell clones with different cytoskeletal composition can emerge from the same cell population and suggest that the presence of certain hormones may have an influence on the expression of intermediate filament proteins.     

Intermediate filament protein expression in early developmental stages of the mouse

Expression patterns of intermediate filament proteins have been studied during early mouse embryo development. For this purpose, pre-implantation embryos at different stages of development after in vitro fertilization were studied using antibodies to cytokeratins, vimentin and lamins, using the indirect immunofluorescence assay. The levels of expression were quantitated and localization of the protein constituents was assessed by means of confocal scanning laser microscopy. Our studies showed that, although the embryos grew in culture, vimentin could not be detected in a filamentous organization. Immunofluorescence for cytokeratins was only positive from the 8-cell stage onwards. In the morula stage an increased level of cytokeratin expression was observed with a transitional staining pattern, combining a filamentous and a diffuse occurrence. In the blastocyst stages profound cytokeratin filaments were seen in trophoblast cells but not in the inner cell mass. When the cytokeratin subtypes were analysed separately, it became apparent that expression levels of cytokeratins 8 and 18 increased gradually up to a filamentous pattern in the blastocyst stage. Cytokeratins 7 and 19, although elevated in the latter stage and showing a filamentous distribution, were not found as prominently as cytokeratins 8 and 18. A-type as well as B-type lamins could be detected in all developmental stages examined, as a faintly reactive nuclear lamina. In blastocysts both lamin types were detected in trophoblast as well as in inner cell mass.     

Cytoskeletal proteins as tissue-specific markers in cytopathology

Antibodies to intermediate filament proteins react in a tissue-specific manner and can be used to characterize tumor cells present in thin-needle aspirates from solid tumors, from palpable lymph nodes and cells present in samples from peritoneal and pleural effusions. From our studies so far the following conclusions can be drawn: Polyclonal antisera to cytokeratins can identify carcinoma metastases in thin-needle aspirates from palpable lymph nodes and distinguish them from malignant lymphomas and nonmalignant lesions such as chronic lymphadenitis, which show only vimentin-positive cells. Monoclonal antibodies to specific cytokeratin polypeptides are able to distinguish between different types of epithelial tumor metastases, i.e. metastases from adenocarcinomas and metastases from squamous cell carcinomas. Cells present in peritoneal and pleural effusions can be partly characterized using intermediate filament antisera. We have found that metastatic adenocarcinoma cells from breast, ovary, endometrium, cervix, colon and stomach, as well as squamous cell carcinomas and malignant mesothelioma stain specifically with antibodies to cytokeratin while mesenchymally derived tumors such as malignant lymphomas, malignant melanomas, and fibrosarcomas, are positive for vimentin only. Metastatic tumor cells of epithelial origin present in aspirates from human serous body cavity fluids may coexpress vimentin next to their original cytokeratin intermediate filaments. Benign mesothelial cells present in body cavity fluids frequently coexpress cytokeratins and vimentin. Tumor cells present in thin-needle aspirates from solid tumors such as pleomorphic adenomas of the parotid gland can be identified as such because of their typical patterns of intermediate filament (co-)expression.(ABSTRACT TRUNCATED AT 250 WORDS)     

Expression of intermediate-sized filaments in developing and adult human kidney and in renal cell carcinoma.

We studied the distribution of intermediate-sized filaments in developing and adult kidneys and renal cell carcinoma (RCC) by indirect immunohistochemistry, using a pan-cytokeratin mouse monoclonal antibody (MAb), chain-specific anti-cytokeratin MAb, and anti-vimentin and anti-desmin MAb, to resolve controversy concerning intermediate-sized filament expression in the kidney. With the pan-cytokeratin MAb, cytokeratin expression was detectable in all stages of nephron development, starting with expression in the renal vesicles, the progenitors of the glomeruli, proximal tubules, Henle's loop, and part of the distal tubules. Using chain-specific anti-cytokeratin MAb, cytokeratin 8 and 18 expression was demonstrated in all developmental structures of the nephron, whereas cytokeratin 19 expression was more complex. None of the nephrogenic blastema cells from which the renal vesicles arise expressed cytokeratins. Transient expression of vimentin and cytokeratin 19 was observed in differentiating collecting ducts and proximal tubule cells at the S-shaped stage of nephron development, respectively. In RCC, cytokeratin expression closely resembled that of the mature proximal tubule, i.e., RCC cells expressed cytokeratins 8 and 18. However, in a subset of RCC additional cytokeratin 19 expression was noted. In addition, all except one RCC showed co-expression of cytokeratins and vimentin.     

Intermediate filaments of the vimentin-type and the cytokeratin-type are distributed differently during mitosis

Immunofluorescence microscopy has been used to follow the rearrangement of intermediate-sized filaments during mitosis in rat kangaroo PtK2 cells. These epithelial cells express two different intermediate filament systems: the keratin-related tonofilament-like arrays typical of epithelial cells, and the vimentin-type filaments characteristic of mesenchymal cells in vivo, and of many established cell lines. The two filament systems do not appear to depolymerize extensively during mitosis, but show differences in their organization and display which may indicate different functions. The most striking rearrangements have been seen with the vimentin filaments, and in particular in prometaphase a transient cage-like structure of vimentin fibers surrounding the developing spindle is formed. In metaphase, this cage disappears, and vimentin fibers are found in an elliptical band surrounding the chromosomes and the interzone. In telophase, these bands separate, usually breaking first on the side closest to where the cleavage furrow has started to form. Double label experiments with tubulin and vimentin antibodies have indicated that the microtubules and the chromosomes are contained within the thick crescents of vimentin filaments and suggest that the vimentin intermediate filaments may be involved in the orientation of the spindle and/or the chromosomes during mitosis. In contrast, extensive arrays of cytokeratin filaments are present throughout mitosis on the substrate-attached side of the cell and also in other cellular areas, although they are usually not present in the spindle region. Thus the cytokeratin filaments probably continue to play a cytoskeletal role during mitosis and may be responsible for the flat shape that certain epithelial cells such as PtK2 cells continue to maintain during mitosis.     

Immuno-electron microscopical identification of the two types of intermediate filaments in established epithelial cells

The intermediate filament systems of the established epithelial cell lines HeLa and PtK₂ have been characterized by electron microscopy using indirect immunoferritin labelling. The results provide a direct ultrastructural confirmation of the proposal based on indirect immunofluorescence microscopy, that vimentin and cytokeratin fibrils constitute two distinct 10 nm filament systems in much of the cell body. In agreement both with classical histology and with the finding that cytokeratins are typically present in many epithelial tissues, demosome-attached 10 nm filaments (tonofilaments) were found to be of the cytokeratin type. Vimentin, but not cytokeratin filaments were translocated into juxtanuclear caps after exposure of the cells to colcemid. Regions of the cytoplasm where the two distinct systems form mixed bundles were identified and both side-by-side arrangements and the occurrence of vimentin fibers in a sheath-like structure around a cytokeratin filament core are described. Our results emphasize that the two systems interact but differ in their organization and control.     

Cell density and cell shape-related regulation of vimentin and cytokeratin synthesis : Inhibition of vimentin synthesis and appearance of a new 45 kD cytokeratin in dense epithelial cell cultures

The pattern of the intermediate type filament protein synthesis was examined in cultured bovine mammary gland epithelial (BMGE) cells under conditions of varied cell shape and cell-cell contact. In dense monolayer and suspension cultures BMGE cells expressed a new cytokeratin of 45 kD identified as a member of the acidic subfamily of cytokeratins. This polypeptide has a phosphorylated component and is dissociated from the cytokeratins complex in the presence of 6.5 M urea. The mRNA of the new cytokeratin accumulated in dense cell cultures, as revealed by in vitro translation in a cell-free system. In BMGE-H cells that express also vimentin, the synthesis of vimentin decreased dramatically in dense cell cultures, while the synthesis of the 45 kD cytokeratin was maximal under these conditions. The results suggest that the expression of certain cytokeratins and that of vimentin can be coordinately regulated by factors in the cellular environment that effect cell shape and cell surface contacts.     

Intermediate filament protein partnership in astrocytes.

Intermediate filaments are general constituents of the cytoskeleton. The function of these structures and the requirement for different types of intermediate filament proteins by individual cells are only partly understood. Here we have addressed the role of specific intermediate filament protein partnerships in the formation of intermediate filaments in astrocytes. Astrocytes may express three types of intermediate filament proteins: glial fibrillary acidic protein (GFAP), vimentin, and nestin. We used mice with targeted mutations in the GFAP or vimentin genes, or both, to study the impact of loss of either or both of these proteins on intermediate filament formation in cultured astrocytes and in normal or reactive astrocytes in vivo. We report that nestin cannot form intermediate filaments on its own, that vimentin may form intermediate filaments with either nestin or GFAP as obligatory partners, and that GFAP is the only intermediate filament protein of the three that may form filaments on its own. However, such filaments show abnormal organization. Aberrant intermediate filament formation is linked to diseases affecting epithelial, neuronal, and muscle cells. Here we present models by which the normal and pathogenic functions of intermediate filaments may be elucidated in astrocytes.     

Involvement of pro-apoptotic and anti-apoptotic factors in the early development of the human pituitary gland

The spatial and temporal pattern of appearance of pro-apoptotic caspase-3 and p53 proteins, and anti-apoptotic bcl-2 protein was investigated in the developing pituitary gland of 6 human embryos 5-8-weeks old, using morphological and immunohistochemical techniques. Their dynamic appearance was analyzed in the Rathke's pouch (future adenohypophysis), mesenchyme, and in the developing neurohypophysis. In the 5th and 6th week, caspase-3 positive cells appeared in the Rathke's pouch (5%) and stalk (11%), in the mesenchyme, but not in the neurohypophysis. In the 6th and 7th week, apoptotic cells were more numerous in the caudal part of the Rathke's pouch due to its separation from the oral epithelium. Pro-apoptotic p53 protein was detected in all parts of the pituitary gland throughout the investigated period. Nuclear condensations characterized cells positive to caspase-3 and p53 proteins. Apoptotic cells displayed condensations of nuclear chromatin on an ultrastructural level as well. While caspase-3 dependent pathway of cell death participated in morphogenesis of the adenohypophysis and associated connective tissue, p53-mediated apoptosis most likely participates in morphogenesis of all parts of the gland, including neurohypophysis. The anti-apoptotic bcl-2 protein was also detected in all parts of the developing gland. With advancing development, the positivity to bcl-2 protein increased in the cells of the adenohypophysis, while it decreased in the neurohypophysis. Bcl-2 protein probably prevented cell death in all parts of the gland and enhanced cell differentiation. The described pattern of appearance of the investigated pro-apoptotic and anti-apoptotic factors might be important for normal morphogenesis and function of the pituitary gland.     

Microinjection of intermediate filament proteins into living cells with and without preexisting intermediate filament network

Human cells grown in monolayer culture were microinjected with intermediate filament subunit proteins. In fibroblasts with a preexisting vimentin network, injected porcine glial fibrillary acidic protein (GFAP) co-localized with the vimentin network within 24 hours. Phosphorylated GFAP variants were found to become dephosphorylated concomitantly with their incorporation into filamentous structures. After microinjection of either porcine GFAP or murine vimentin into human carcinoma cells lacking cytoplasmic intermediate filaments, we observed that different types of filament networks developed. Whereas vimentin was incorporated into short filaments immediately after injection, GFAP was found to aggregate into rodlike structures. This may indicate a differential filament forming ability of these intermediate filament proteins in vivo.     

Semiquantitative Postembedding Characterization of Intermediate Filaments in Central Nervous System Lesions Using Immunoelectron Microscopy

Standardized postembedding immunoelectron microscopy was performed to demonstrate glial fibrillary acidic protein (GFAP) and vimentin in individual intermediate filaments to determine the diagnostic value of demonstrating ultrastructural and immunophenotypic characteristics of intermediate filaments in routine brain biopsy specimens. Dual expression of GFAP and vimentin was observed in the astroblastoma and astrocytes of Alexander's disease. The antigen availability for vimentin, however, was too low to allow reliable assessment of the GFAP:vimentin ratio in individual intermediate filaments and/or filament bundles. In meningioma, only vimentin positive intermediate filaments were found. GFAP positive intermediate filaments were present in all other specimens except the oligodendroglial components of the mixed glioma, which were devoid of intermediate filaments. GFAP positivity in the filamentous periphery and electron-dense core of Rosenthal fibers was demonstrated. Technical and tissue processing factors had a significant effect on particle density values obtained for individual specimens. Although the number, distribution, and density of glial intermediate filaments varies in different astroglial entities, correlation of particle density values determined by immunoelectron microscopy with relative GFAP concentrations in different lesions requires utmost caution. Nevertheless, application of the postembedding approach to routinely fixed biopsy specimens indicated an association of different entities with the exclusive presence of GFAP and/or vimentin in individual intermediate filaments, thus emphasizing the diagnostic value of intermediate filament typing for pathological characterization.