Ontogenesis of the murine hepatic extracellular matrix: an immunohistochemical study

To define the role of the extracellular matrix (ECM) in hepatogenesis, we examined the temporal and spatial deposition of fibronectin, laminin and collagen types I and IV in 12.5-21.5 day fetal and 1, 7 and 14 day postnatal rat livers. In early fetal liver, discontinuous deposits of the four ECM components studied were present in the perisinusoidal space, with laminin being the most prevalent. All basement membrane zones contained collagen type IV and laminin, including those of the capsule (mesothelial), portal vein radicles and bile ductules. Fibronectin had a distribution similar to that of collagen type IV early in gestation. However, at later gestational dates, fibronectin distribution in the portal triads approached that of collagen type I, being present in the interstitial connective tissues; whereas, collagen type IV and laminin were restricted to vascular and biliary basement membrane zones in those regions. The cytoplasm of some sinusoidal lining cells and hepatocytes reacted with antibodies to extracellular matrix components. By electron microscopy the immunoreactive material was localized in the endoplasmic reticulum, indicating the ability of these cells to synthesize these ECM proteins. Biliary ductular cells had prominent intracytoplasmic staining for laminin and collagen type IV from day 19.5 gestation until 7 days of postnatal life, but lacked demonstrable fibronectin or collagen type I. These results demonstrate that by 12.5 days of gestation the rat liver anlage has deposited a complex extracellular matrix in the perisinusoidal space. The prevalence of laminin in the developing hepatic lobules suggests a possible role for this glycoprotein in hepatic morphogenesis. In view of the intimate association of the hepatic lobular extracellular matrix with the developing vasculature, we hypothesize that laminin provides a scaffold of the developing liver, but once the ontogenesis is complete, intrahepatic perisinusoidal laminin expression is suppressed.     

An immunohistochemical study of human endometrial extracellular matrix during the menstrual cycle and first trimester of pregnancy

Summary Changes in the organisation and composition of extracellular matrix in human endometrium during the menstrual cycle and early pregnancy have been assessed by immunofluorescence. Amongst interstitial components, type-III and type V-collagens and fibronectin are present in endometrial stroma throughout the menstrual cycle as well as in first trimester decidua. Type V-collagen epitopes are masked early in the cycle, but become accessible in first trimester decidua. Type VI-collagen is abundant in endometrium in the proliferative phase, but is progressively lost in the secretory phase and decidua, in which it is retained only in blood vessel walls. Vitronectin is present in some blood vessels in decidua. Decidualising stromal cells also produce basement membrane components (type IV-collagen, laminin, heparan sulphate proteoglycan and a glycoprotein family recognised by monoclonal antibody G71) and these become organised into a pericellular aura.     

Endocrine cells in gastric carcinoma and adjacent mucosa. An immunohistochemical and ultrastructural study

Endocrine cells are often found in human gastric carcinoma and may be recognized by the immunoreactivity of their chromogranin A, peptides and biogenic amines content. Anti-chromogranin A was used to investigate the morphology of endocrine cells using light and electron microscope immunohistochemical techniques. The hormone content of endocrine cells was examined in both tumour tissue and tumour-adjacent mucosa. It was found that the endocrine cells in tumour tissue were malignant, often had amphocrine differentiation and did not resemble a normal cell type. The hormone content of endocrine cells in tumour tissue seldom corresponded to the hormonal content of endocrine cells in tumour-adjacent mucosa. In intestinal-type carcinoma and in some parts of diffuse-type gastric carcinomas, endocrine cell hyperplasia and an alteration of the differentiation in the tumour-adjacent mucosa were discovered. The distribution of endocrine cells in the tumour tissue was different in both types of gastric carcinoma. The results reported here suggest that endocrine cell differentiation of malignant endocrine cells in human gastric carcinoma develops in a different way from that of endocrine cells in tumour-adjacent mucosa, and as a result, diverse hormonal products may appear in tumour tissue.     

An ultrastructural study of the role of an extracellular matrix during normal cleavage in a marsupial,the brushtail possum

In marsupials, the mechanisms of lineage allocation into pluriblast and trophoblast are related to conceptus polarity and polarized discharge of extracellular matrix (ECM). The brushtail possum, Trichosurus vulpecula, a major pest species in New Zealand, is being intensively studied to develop an immunocontraceptive control method. Of 23 specimens examined, 11 were examined by electron microscopy to study the presence and role of the ECM in lineage allocation in the possum. A number of polarized features in the zygote identified the future embryonic and abembryonic poles. Pronuclei, in a broad band of mitochondrion-rich cortical cytoplasm, lay in the embryonic hemisphere, and numerous electron-lucent vesicles characterized the abembryonic cytoplasm. These vesicles seemed to contribute to the ECM. During cleavage, cells lay near the zona in the embryonic hemisphere, and ECM accumulated chiefly in the abembryonic hemisphere. Cell-zona adhesion facilitated by microvillous and club processes occurred at the early 4-cell stage, and cell-cell adhesion commenced at the late 4-cell stage. The first two cleavages were meridional, equal, and accompanied by elimination into the cleavage cavity of much of the electron-lucent vesicular material in the form of several membrane-bound yolk masses. The third cleavage was unequal, with both meridional and latitudinal planes. The first differences between trophoblast and pluriblast lineages appeared at the 8-cell stage. Later cleavage planes were latitudinal or oblique. Conceptus polarity, polarized discharge of ECM, and localized cell-zona adhesion were related to the first lineage allocation in the possum. Mol. Reprod. Dev. 50:420–433, 1998. © 1998 Wiley-Liss, Inc.     

Biochemical, histochemical and immunohistochemical study of glycosaminoglycans in human meningiomas

The localization and quantitation of glycosaminoglycans classes (GAGs) were studied in human meningiomas. Meningiomas presented high amounts of these compounds and electrophoretic separation revealed that they were 90% sulphated. The Alcian method and a polyclonal antiserum against chondroitin sulphate were used to localize the different GAGs in tissue sections. Quantitative and qualitative differences and different tissue distributions of GAGs were observed among transitional, syncytial and fibroblastic meningiomas. Syncytial meningiomas presented the lowest amount of GAGs and the immuno- and histochemical studies showed that they were located only in vessels and connectival trabeculae. Transitional meningiomas contained the highest concentration of GAGs; the percentage of the different GAG classes was similar to that observed in the syncytial oncotype indicating a quantitative but not qualitative difference between the two oncotypes. The high amount of GAGs in transitional meningiomas was attribute to the whorls, the structures stained by the histochemical and immunohistochemical techniques. The tumoral parenchyma of these two oncotypes was negative. On the contrary, fibroblastic meningiomas showed a fine meshwork among tumoral cells containing chondroitin sulphate and heparan sulphate. Biochemical data were consistent with the histochemical and immunohistochemical findings revealing a high percentage of chondroitin sulphate and heparan sulphate in fibroblastic meningiomas. This study suggests that the three meningioma types have different abilities to produce extracellular matrix components.     

The extracellular space and blood-eye barrier in an insect retina: An ultrastructural study

Summary (1) The distribution of the extracellular space (ECS) in the outer part of the locust compound eye has been mapped with lanthanum and ruthenium red, applied to the retina. (2) In the photoreceptor zone, about 2.4% of the volume is ECS, in agreement with radiotracer and electrical estimates. Of this ECS, about 70% lies in lacunae between ommatidia, but only 1–2% adjacent to the photosensitive rhabdom. The lacunae are filled with material which binds applied tracers, and are thought to be structural spaces. (3) It has been suggested several times that such a small cation pool is insufficient to sustain more than a few large photoresponses, but this is shown to be incorrect. Enough Na⁺ lies within the rhabdomal ECS and within rapid diffusional access to it, to impose no immediate limitation. (4) The palisade vacuoles surrounding the rhabdom are intracellular, and are typical of light as well as dark-adapted eyes. (5) Tracers fail to penetrate more than about 30 m into the axon zone, in agreement with electrical, dye and radiotracer indications of a blood-eye barrier near this point. Septate and gap junctions between glial membranes proliferate at this level, the lacunae disappear, and the axonal clefts narrow, but no tight junctions were seen. Comparison is made with the barrier around the nerve cord. (6) The secondary pigment cells in the retina may function as osmotic/ionic buffers, in conjunction with the blood-eye barrier.     

S-100 protein expression in satellite and Schwann cells in neuroblastoma. An immunohistochemical and ultrastructural study

Immunohistochemical evidence has recently been provided that in the normal adrenal medulla as well as in autonomic ganglia, satellite cells and Schwann cells react with S-100 protein antiserum. In the light of these data, we investigated primary peripheral neuroblastoma and ganglioneuroblastoma to determine firstly whether both cell populations actually exist in the malignancies, using the definite criteria of electron microscopy for their identification, and secondly whether they express S-100 protein using on immunohistochemical technique and light microscopy. The results indicate that in both neuroblastoma variants, satellite and Schwann cells are present and specifically express the S-100 antigen.     

Purification and immunohistochemical study of actin in mitochondrial matrix

Actin was purified to apparent homogeneity from the matrix of ultra-pure mitochondria of rat livers by DNase-I affinity chromatography and HPLC gel filtration. The mitochondrial actin was immunologically identified by an anti-actin antibody, and its apparent molecular weight was 43 KDa, as determined by SDS-polyacrylamide gel electrophoresis. The immunohistochemical study revealed the localization of the mitochondrial actin in the matrix space and on the internal surface of inner membrane. The actin fraction eluted from a DNase-I column by KCl-EGTA solution underwent polymerization and bundling in vitro.     

Deposition and ultrastructural organization of collagen and proteoglycans in the extracellular matrix of gel-cultured fibroblasts

Human skin fibroblasts were cultivated within the three-dimensional space of polymerized alginate and collagen, respectively. The in vitro synthesis of collagens and proteoglycans was measured during the first 3 days of culture, and the deposition as well as the ultrastructural organization of newly synthesized extracellular matrix components were examined by electron microscopy. The amount of collagens and proteoglycans synthesized by fibroblasts, embedded in calcium alginate gels as well as in collagen lattices, was lowered as compared to monolayer cultures. Furthermore, it was found that collagen synthesis was reduced to a greater extent in alginate gels than in collagen lattices. On the contrary, total proteoglycan biosynthesis was similarly reduced either in alginate gels or in collagen lattices. At the end of a 3-day-culture period, filamentous material as well as cross-striated banded structures were found extracellularly in the alginate gel. According to their periodicity, their banding pattern, their association with polyanionic matrix components and their sensitivity towards glycosaminoglycan-degrading enzymes we could distinguish (1) sheets of amorphous non-banded material consisting of irregularly arranged filaments and containing dermatan sulfate-rich proteoglycans (type I structures), (2) sheets of long-spacing fibrils consisting of parallel orientated filaments and containing chondroitin sulfate-rich proteoglycans (= zebra bodies; type II structures), and (3) fibrillar structures with a complex banding pattern different from that of native collagen fibrils (type III structures). In fibroblasts cultured in collagen lattices, we only sporadically found depositions which are identified as type I structures. Using indirect immunoelectron microscopy and monospecific polyclonal antibodies, we localized type VI collagen in type I structures and type II structures. Type III structures can be identified as type I collagen derived as becomes obvious by comparison with segment long spacing crystallites of type I collagen.     

An ultrastructural study of in-vitro interaction of guinea-pig and mouse blastocysts with extracellular matrices.

Guinea-pig (intrusive) and mouse (displacement) blastocysts display different cellular mechanisms of implantation. Blastocysts were placed in CMRL-1066 supplemented with either 10 or 20% fetal calf serum, 0.1M L-glutamine and antibiotics and then transferred to dishes previously coated with either Matrigel or type I collagen. After culture for 48 or 72 h, the dishes were processed for transmission electron microscopy. Blastocysts had attached to both extracellular matrices by 48 h. Matrigel elicited minimal trophoblast cell activity. Trophoblast cell projections were oriented parallel to the Matrigel and displayed little invasive activity, but trophoblast cells displayed active interaction with type I collagen. By 72 h, trophoblast cells exhibited slender, anastomosing projections which extended into the collagen matrix. Bundles of microfilaments running parallel with the long axis of the projections were observed. The morphology of type I collagen was altered in the immediate vicinity of the trophoblast projections. The projections interdigitated and desmosomes developed between processes. Projections appeared to meet, fuse and entrap matrix. These results suggest that trophoblast cells do not significantly interact with Matrigel, but penetrate into type I collagen.     

Optimization of immunohistochemical techniques to detect extracellular matrix proteins in fixed skin specimens

Complete antigen visualization in the context of well-preserved tissue architecture is the goal of all immunohistochemical techniques. Frozen tissue section techniques achieve optimal antigen visualization but preserve tissue architecture poorly. On the other hand, formalin-fixed tissue section techniques preserve tissue architecture very well but result in antigen masking. Enzymatic digestion or salt extraction of formalin-fixed sections has been used to reestablish antigen expression. Recently acid-alcohol-fixed tissue has been used as a successful compromise between tissue architecture preservation and the visualization of cytoskeletal antigens. In an attempt to find an improved immunohistochemical process for non-cytoskeletal antigens, we compared avidin-biotin immunofluorescence staining in frozen, formalin-fixed, and acid-alcohol-fixed tissues. The fixed tissues were either untreated or treated with enzyme digestion or salt extraction. For this study, we examined healing cutaneous wounds in Yorkshire pigs with antibodies to fibronectin, laminin, von Willebrand factor VIII, and keratin. Although tissue architecture was poor, frozen sections provided the best antigen visualization and were therefore used as the standard for complete antigen expression. Formalin-fixed tissues had excellent tissue architecture, but most antigens were completely masked. Pre-treatment technique only partially overcame the antigen masking caused by formalin. In contrast, acid-alcohol fixation preserved tissue architecture almost as well as formalin and sometimes allowed complete antigen visualization; however, laminin and fibronectin were partially masked. Total recovery of the expression of these antigens could be obtained by pre-treating the acid-alcohol-fixed tissue with either hyaluronidase or 1 M NaCl. Therefore, acid-alcohol-fixed tissue appears best for extracellular matrix (ECM) protein immunostaining as well as for cytoskeletal staining. However, certain ECM antigens require hyaluronidase or 1 M NaCl treatment for optimal visualization.     

Endocrine cells in human Bartholin's glands. An immunohistochemical and ultrastructural analysis

Endocrine cells were investigated in human Bartholin's glands by use of histochemical, immunohistochemical and ultrastructural methods. Endocrine cells represent normal constituents of these glands, being mainly distributed throughout the transitional epithelium of the major excretory duct; however, single elements are dispersed among the acinar lobules. Serotonin-, calcitonin-, katacalcin-, bombesin- and alpha-hCG-immunoreactive cells were recognized, with serotonin-immunoreactive cells predominating. Co-expression of calcitonin, katacalcin or alpha-hCG with serotonin was observed in single endocrine cells. At the ultrastructural level, these cells are richly granulated and show typical neuroendocrine features. Bartholin's glands display an endocrine profile quite similar to that of other cloacal-derived tissues.     

Secretion pattern, ultrastructural localization and function of extracellular matrix molecules involved in eggshell formation

The chicken eggshell is a composite bioceramic containing organic and inorganic phases. The organic phase contains, among other constituents, type X collagen and proteoglycans (mammillan, a keratan sulfate proteoglycan, and ovoglycan, a dermatan sulfate proteoglycan), whose localization depends on a topographically defined and temporally regulated deposition. Although the distribution of these macromolecules in the eggshell has been well established, little is known about their precise localization within eggshell substructures and oviduct cells or their pattern of production and function during eggshell formation. By using immunofluorescent and immuno-ultrastructural analyses, we examined the distribution of these macromolecules in oviduct cells at different post-oviposition times. To understand the role of proteoglycan sulfation on eggshell formation, we studied the effects of inhibition of proteoglycan sulfation by treatment with sodium chlorate. We showed that these macromolecules are produced by particular oviduct cell populations and at precise post-oviposition times. Based on the precise ultrastructural localization of these macromolecules in eggshell substructures, the timing of the secretion of these macromolecules by oviduct cells and the effects on eggshell formation caused by the inhibition of proteoglycan sulfation, the putative role of mammillan is in the nucleation of the first calcite crystals, while that of ovoglycan is to regulate the growth and orientation of the later forming crystals of the chicken eggshell.     

An ultrastructural study of iron and manganese deposition associated with extracellular polymers of pedomicrobium-like budding bacteria

Morphological characteristics of two Pedomicrobium-like budding bacteria are described. A structured surface layer was regularly observed on strain 868. Ruthenium red- and Alcian blue-staining polymers were found on both strains.When either strain was grown in the presence of iron or manganese, the corresponding oxides accumulated on their surfaces. In thin sections iron oxides appeared as fine threads, arrays of particles or dense coatings, depending on the source of iron. Manganese oxides appeared as branching filaments or convoluted ribbons. Both metal oxides stained with ruthenium red. Extraction of the oxides followed by ruthenium red staining revealed that polyanionic polymers previously deposited on the cells were associated with the metals.Treatment of cultures with glutaraldehyde, HgCl₂, or heat, inhibited manganese but not iron deposition, suggesting that iron oxides accumulated by passive, non-biological processes. Manganese oxides apparently accumulated under control of a biological manganese-oxidizing factor. Incomplete inhibition of manganese deposition observed in cell suspensions suggested that, if the oxidizing factor was an enzyme, it was unusually stable.Based on these results, possible mechanisms of iron and manganese deposition in association with extracellular polymers are suggested.     

Histochemical and ultrastructural changes in the extracellular matrix of the developing chick semilunar heart valves.

The present study analyzes the composition and organization of the extracellular matrix (ECM) and its changes in the course of development of the chick embryo semilunar heart valves. In the present work we have employed chick embryos from stage 29 until hatching, using silver and picrosirius red staining, lectin probes and light and transmission electron microscopy. Our results show that during semilunar valve development a series of elements arise and are organized in the ECM which seem to be more closely related to the maintenance of the structural and biomechanical properties of the valvular leaflets than with morphogenetic processes per se.     

An extracellular fibrillar matrix in gastrulating sea urchin embryos

Fine structural studies of fractured developing sea urchin embryos revealed the existence of a voluminous, fibrillar, extracellular matrix composed of fine filaments, twisting fibers and granules lining the blastocoel of midgastrula embryos. Glycine disaggregated embryos also exhibited this material. The fibrillar matrix is closely associated with the basal lamina of the ectodermal cells of the embryo and histochemical studies suggest it is composed mostly of sulfated glycosaminoglycans. The position of the matrix within the blastocoel as well as its organized association with embryonic cell surfaces is consistent with the hypothesis that it plays a major role in guiding the invaginating archenteron during gastrulation.     

Localization of proteoglycan monomer and link protein in the matrix of bovine articular cartilage: An immunohistochemical study

Using monospecific antisera and immunofluorescence microscopy, proteoglycan monomer (PG), and link proteins were demonstrated throughout the extracellular matrix of bovine articular cartilage. A narrow band of strong pericellular staining was usually observed for both molecules, indicating a pericellular concentration of proteoglycan monomer: this conclusion was supported by dye-binding studies. Whereas PG was evenly distributed throughout the remaining matrix, more link protein was detectable in interterritorial sites in middle and deep zones. Well-defined zones of weaker territorial staining for link protein stained strongest for chondroitin sulfate. Trypsin treatment of cartilage resulted in a loss of most of the PG staining, but some selective retention of link protein, particularly around chondrocytes in the superficial zone at and near the articular surface. This residual staining was largely removed if sections were fixed after chondroitinase treatment. After extraction of cartilage with 4M guanidine hydrochloride, only PG remained and this was concentrated in the superficial zone. These observations are shown to support the concept of aggregation of PG and link protein with hyaluronic acid (HA) in cartilage matrix, and the binding of PG and link protein to HA, which is attached to the chondrocyte surface. Culture of cartilage depleted of PG and link protein by trypsin demonstrated that individual chondrocytes can secrete both PG and link proteins and that the organization of cartilage matrix can be regenerated in part over a period of 4 days.