Showing papers in "Histochemistry and Cell Biology in 1997"

A- and B-type lamins are differentially expressed in normal human tissues.

Abstract: A selection of normal human tissues was investigated for the presence of lamins B1, B2, and A-type lamins, using a panel of antibodies specific for the individual lamin subtypes. By use of immunoprecipitation and two-dimensional immunoblotting techniques we demonstrated that these antibodies do not cross-react with other lamin subtypes and that a range of different phosphorylation isoforms is recognized by each antibody. The lamin B2 antibodies appeared to decorate the nuclear lamina in all tissues examined, except hepatocytes, in which very little lamin B2 expression was observed. In contrast to previous studies, which suggested the ubiquitous expression of lamin B1 in mammalian tissues, we show that lamin B1 is not as universally distributed throughout normal human tissues as was to be expected from previous studies. Muscle and connective tissues are negative, while in epithelial cells lamin B1 seemed to be preferentially detected in proliferating cells. These results correspond well with those obtained for lamin B1 in chicken tissues. The expression of A-type lamins is most prominent in well-differentiated epithelial cells. Relatively undifferentiated and proliferating cells in epithelia showed a clearly reduced expression of A-type lamins. Furthermore, most cells of neuroendocrine origin as well as most hematopoietic cells were negative for A-type lamin antibodies.

SDS-digested freeze-fracture replica labeling electron microscopy to study the two-dimensional distribution of integral membrane proteins and phospholipids in biomembranes: practical procedure, interpretation and application.

Abstract: Recently, we have developed a quick-freezing/freeze-fracture replica labeling technique, sodium dodecyl sulfate (SDS)-digested freeze-fracture replica labeling (SDS-FRL), to study the two-dimensional distribution of cytochemical labeling on the membrane surface and the relationship of this distribution to images of freeze-fracture replicas created by platinum shadowing In SDS-FRL, unfixed, quick-frozen cells, after freeze-fracture and platinum/carbon shadowing, are treated with SDS The detergent dissolves unfractured areas of the cell membranes, with the release of the cytoplasmic contents The cytoplasmic and exoplasmic membrane surfaces can be then labeled cytochemically Integral membrane proteins, revealed as intramembrane particles by freeze-fracture replication, which are indistinguishable on a purely morphological basis, can be selectively labeled by SDS-FRL with specific antibody In addition, this approach can be applied to examine the transmembrane phospholipid distribution in various cell and intracellular membranes In this review, we describe the practical procedure for SDS-FRL in detail, present its application to labeling of various membrane components, and briefly discuss the possibility of a combination of SDS-FRL with atomic force microscopy

Immunolocalization of tissue non-specific alkaline phosphatase in mice.

Abstract: Immunolocalization of tissue non-specific alkaline phosphatase (TNAP) was examined in murine tissues, employing a specific antiserum to TNAP on frozen sections, 50-μm tissue slices, and paraffin sections. TNAP was detected at high levels in hard tissues including bone, cartilage, and tooth. In bone tissue, the TNAP immunoreactivity was localized on the entire cell surface of preosteoblasts, as well as the basolateral cell membrane of osteoblasts. It was also localized on some resting chondrocytes and most of the proliferative and hypertrophic cells in cartilage. In the incisor, cells of the stratum intermedium, the subodontoblastic layer, the proximal portion of secretory ameloblasts, and the basolateral portion of odontoblasts showed particularly strong immunoreactivity. Immunoreactivity was observed in other soft tissues, such as the brush borders of proximal renal tubules in kidney, on cell membrane of the biliary canalicula in liver and in trophoblasts in the placenta. These immunolocalizations were quite similar to enzyme histochemical localizations. However, neither the submandibular gland nor the intestine, which both exhibited alkaline phosphatase activity by enzyme histochemistry, revealed immunoreactivity for TNAP. Therefore, immunocytohistochemical studies for TNAP enabled us to localize the TNAP isozyme, thus distinguishing it from other isozymes.

Histones: genetic diversity and tissue-specific gene expression.

Abstract: Histones are the major protein constituents of the chromatin of eukaryotic cell nuclei. This group of basic proteins is extremely conserved throughout evolution and includes five classes termed H1, H2A, H2B, H3and H4. In mammals, each of these classes except H4 is subdivided into several subtypes. The most divergent class of histones is the H1 protein family, which consists of seven different subtypes, termed H1.1–H1.5, H1°, and H1t. The subtypes H1.2 and H1.4 are found in most somatic cell nuclei, whereas H1° is found in several differentiated tissues, and H1t is restricted to mammalian testicular cells. Similarly, core histone subtypes replacing the major forms of H2A, H2B or H3 have been described. Biochemical analysis of protein and RNA from different tissues and cell lines demonstrates varied patterns of expression of individual histone subtype genes. Moreover, antibodies against specific histone subtypes and in situ hybridization with subtype-specific probes indicate that the expression of histone subtype genes is in several cases modulated in a tissue-specific manner. This is particularly evident at the different stages of spermatogenesis when chromatin undergoes substantial reorganization, which finally results in the highly condensed state of chromatin of the mature sperm head.

Loss of caveolin expression in type I pneumocytes as an indicator of subcellular alterations during lung fibrogenesis.

Abstract: Caveolin is a major structural protein of caveolae, also known as plasmalemmal vesicles, which are particularly abundant in type I pneumocytes and capillary endothelial cells of lung parenchyma. Here we demonstrate that caveolin expression in the alveolar epithelium of rats and mini pigs is strikingly downregulated after irradiation-induced lung injury. Indirect immunoperoxidase staining with polyclonal anti-caveolin antibodies, confirmed by double fluorescence studies with type I cell-specific monoclonal anti-cytokeratin antibodies or lectins, revealed a dramatic loss of caveolin immunoreactivity in type I pneumocytes. In contrast, caveolin expression increased in endothelial cells. Immunoblotting of lung homogenates from normal and irradiated rats using specific anti-caveolin antibodies confirmed the presence of caveolin in normal tissue and its marked decrease of expression in fibrotic tissue. The loss of caveolin as an important structural protein of caveolae in alveolar epithelial cells may be an early indicator of serious type I cell injury during fibrogenesis. The increase of caveolin immunoreactivity in endothelia of blood vessels may indicate that different types of caveolae and/or different regulatory mechanisms of caveolin expression exist.

Immunolocalization of type X collagen in human lumbar intervertebral discs during ageing and degeneration.

Abstract: Type X collagen has so far not been reported to occur in human intervertebral discs. The objective of this study was therefore to investigate the occurrence of type X collagen in human lumbar intervertebral discs during ageing and degeneration. Ninety intervertebral discs with adjacent endplates were excised in toto from individuals (0-86 years) without known spinal disease and were processed for routine decalcified histology. Appropriate slices of each disc were processed for immunohistochemistry using a type-specific, monoclonal antibody raised against human type X collagen. Each intervertebral disc was examined for macroscopic and histomorphological features of disc degeneration. Immunohistochemically, a positive specific type X staining was observed in the hypertrophic zone of the growth plate and only in the interstitial matrix of juvenile ( 70 years) discs with end stages of disc degeneration. This study provides the first evidence for the occurrence of type X collagen in human lumbar intervertebral discs and it appears that type X collagen is re-expressed in late stages of disc degeneration.

Immunoelectron microscopic study of the luminal release of serotonin from rat enterochromaffin cells induced by high intraluminal pressure.

Abstract: Since definitive morphological studies showing the luminal release of serotonin have not been reported, we used a perfused system which allows physiological monitoring and biochemical as well as morphological evidence indicating release of serotonin from enterochromaffin cells. Isolated vascularly and luminally perfused rat duodenums exposed to 5–35 cmH2O of luminal pressure were measured for release of serotonin into the blood vessels and intestinal lumen. Immediately after raising the luminal pressure, the duodenum was fixed for immunoelectron microscopic localization of serotonin. Peristaltic contraction and serotonin content of the perfusates were continuously measured. The luminal release of serotonin increased with elevated intraluminal pressure, but the vascular release of serotonin was not altered. Tetrodotoxin had no effect on the pressure-stimulated luminal serotonin release. Enterochromaffin cells in control animals without increased luminal pressure contained immunogold-labeled secretory granules in the apical and basal cytoplasm. After intraluminal pressure increased, many apical secretory granules were no longer dense and immunogold particles were localized over the cytoplasmic matrix and microvilli. These findings indicate that luminal serotonin release is increased after raising the intraluminal pressure and serotonin, normally stored in the secretory granules of enterochromaffin cells, appears to be released into the cytoplasmic matrix and then diffuses or is transported into the intestinal lumen.

The role of m cells in the protection of mucosal membranes

Abstract: The mucosa-associated lymphoid tissues continuously take up antigenic matter from the lumen to generate immune responses or to maintain immune tolerance. This antigen sampling is performed by highly specialised epithelial cells, the membranous (M) cells of the dome epithelia. M cells possess a unique ultrastructure and lie in close contact to lymphoid cells. They endocytose soluble and solid substances, including entire microorganisms, at their apical membrane, transport these in vesicles to their basolateral membrane and exocytose them to the intercellular space. This review summarises the structural and functional peculiarities of M cells in different species and at the different sites of lymphoid tissue along the digestive and respiratory tracts. Specialisations of M cells for antigen uptake and transport comprise the composition of their apical membrane and its glycocalyx, a modified cytoskeleton as compared to enterocytes and a pocket-like invagination of the basolateral membrane populated by lymphocytes and macrophages. Besides ultrastructural characteristics, histochemical markers are listed that are currently available for detecting M cells by light microscopy. The origin, differentiation and distribution of M cells and other epithelial cell types of the dome epithelium are outlined. As M cells are used as entry sites by various pathogens and, in the future, might be employed for the oral application of vaccines and drugs, the clinical relevance of M cells in health and disease is discussed.

Visualisation of capillaries in human skeletal muscle

Abstract: A double staining method combining Ulex europaeus agglutinin I lectin (UEA-I) and collagen type IV staining was used to determine the capillary density and the number of capillaries relative to different fibre types in human skeletal muscles. The result of this combined staining was compared with that of other staining methods including amylase-periodic acid Schiff (PAS), UEA-I, anti-collagen type IV and anti-von Willebrand factor. Muscle biopsy specimens, 12 from M. vastus lateralis and 6 from M. soleus, were obtained from 18 healthy young men. Compared with amylase-PAS staining, double staining showed a larger number of capillaries surrounding type I (+9.6%), type IIA (+8.6%) and type IIB (+11.6%) fibres in the M. vastus lateralis specimens (P < 0.001 for all differences). The capillary to fibre ratio (cap fibre-1) and the capillary density (cap.mm-2) were 8.3% (P < 0.002) and 7.9% (P < 0.001) larger, respectively. In the M. soleus specimens, cap.fibre-1 and cap.mm-2 were 7.4 and 9.9% larger, respectively, by double staining compared with PAS staining. Further comparisons showed that the cap.fibre-1 and cap.mm-2 obtained with double staining were similar to the values determined by the UEA-I staining, but greater than that measured by the collagen type IV method. The double staining gave a more marked stain of capillaries and revealed muscle fibre borders clearly, which is an advantage in studies that require comparisons between serial sections using computerised image analyses. It is concluded that the double staining method is superior to either the UEA-I, collagen type IV or the traditional amylase-PAS staining methods in analysing capillary density of normal human skeletal muscle.

Spectral karyotyping, a 24-colour FISH technique for the identification of chromosomal rearrangements.

Abstract: Spectral karyotyping (SKY) is a new fluorescence in situ hybridisation (FISH) technique that refers to the molecular cytogenetic analysis of metaphase preparations by means of spectral microscopy. For SKY of human metaphase chromosomes, 24 chromosome-specific painting probes are used in just one FISH experiment. The probes are labelled by degenerate oligonucleotide-primed PCR using three fluorochromes and two haptens. Each probe is differentially labelled with one, two, three or four fluorescent dyes, resulting in a unique spectral signature for every chromosome. After in situ hybridisation and immunodetection, a spectral image is acquired using a conventional fluorescence light microscope equipped with a custom-designed triple-bandpass filter and the SpectraCube, which is able to retrieve spectral information for every pixel in a digital CCD image. The 24-colour display and chromosome classification are based on the unique emission spectra of the chromosomes. Together with chromosome banding information from an inverted DAPI or a G-banded metaphase, a comprehensive overview of chromosomal aberrations is presented.

Selenoprotein P associates with endothelial cells in rat tissues

Abstract: Selenoprotein P is an extracellular heparin-binding protein that has been implicated in protecting the liver against oxidant injury. Its location in liver, kidney, and brain was determined by conventional immunohistochemistry and confocal microscopy using a polyclonal antiserum. Selenoprotein P is associated with endothelial cells in the liver and is more abundant in central regions than in portal regions. It is also present in kidney glomeruli associated with capillary endothelial cells. Staining of selenoprotein P in the brain is also confined to vascular endothelial cells. The heparin-binding properties of selenoprotein P could be the basis for its binding to tissue. Its localization to the vicinity of endothelial cells is potentially relevant to its oxidant defense function.

Lipid microdomains and membrane trafficking in mammalian cells

Abstract: This overview summarizes the data for how epithelial cells sort and deliver proteins and lipids to the apical and basolateral cell surface domains. The basolateral pathway uses a Rab-SNARE mechanism for docking and fusion, while the apical route employs a different machinery. This latter mechanism is based on lipid microdomains, composed of clusters of sphingolipids and cholesterol, which function as rafts for apical delivery. The sphingolipid-cholesterol raft mechanism seems to be employed generally by mammalian cells to transport raft-associated proteins to their post-Golgi destinations.

Cofilin undergoes rapid dephosphorylation in stimulated neutrophils and translocates to ruffled membranes enriched in products of the NADPH oxidase complex. Evidence for a novel cycle of phosphorylation and dephosphorylation

Abstract: Neutrophils contain a 21-kDa phosphoprotein that undergoes rapid dephosphorylation upon stimulation of these cells with the chemoattractant N-fMet-Leu-Phe (fMLP), activators of protein kinase C [e.g., 4 beta-phorbol 12-myristate 13-acetate (PMA)] or the calcium ionophore A23187. This phosphoprotein was identified as the non-muscle form of cofilin by peptide sequencing and immunoblotting with specific antibodies. Evidence is presented that in neutrophils cofilin is regulated by a continual cycle of phosphorylation and dephosphorylation, and that the phosphatase undergoes activation during cell stimulation. Experiments with a wide variety of antagonists further suggested that the protein kinase that participates in these reactions may be a novel enzyme. The kinetics of cofilin dephosphorylation in neutrophils stimulated with fMLP or PMA were very similar to those observed for superoxide (O2-) release. Immunofluorescent studies revealed that cofilin was present throughout the cytosol of resting neutrophils and underwent rapid translocation to the F-actin-rich, ruffled membranes of stimulated cells. Cytochemical analysis further revealed that the ruffled membranes also contained large amounts of hydrogen peroxide (H2O2), a product of the O2-/H2O2-generating activity of stimulated neutrophils (NADPH oxidase). Cofilin is therefore well placed to participate in the continual polymerization and depolymerization of F-actin that is thought to give rise to the oscillatory pattern of H2O2 production observed under certain conditions.

The multidrug-resistance P-glycoprotein (Pgp, MDR1) is an early marker of blood-brain barrier development in the microvessels of the developing human brain.

Abstract: The multidrug-resistance P-glycoprotein (Pgp) was initially identified as an energy-dependent proton pump, which transports a variety of non-related compounds out of chemotherapy-resistant cancer cells. Molecular biological investigations using knockout mice for the mouse homologue of the human Pgp showed that these mice partially lack a functioning blood-brain barrier, indicating that Pgp has an important role in the blood-brain barrier as its normal function. The presence of Pgp expression in formalin-fixed and wax-processed tissue sections can be assessed using the monoclonal antibody, JSB-1. Since no data on the developmental expression of Pgp are available, we stained a developmental series of human brain sections with JSB-1. Our results indicate that Pgp expression in endothelia of brain microvessels occurs regularly in embryos of about 30-mm crown-rump length (CRL). Strong reactivity is seen in blood vessels of fetuses from 123-mm CRL. There is also reactivity in pial blood vessels but not in choroid plexus blood vessels known to be without a blood-brain barrier. Pgp expression is therefore an early marker of the blood-brain barrier in the developing human brain.

Comparative genomic hybridisation for the analysis of chromosomal imbalances in solid tumours and haematological malignancies.

Abstract: Comparative genomic hybridisation (CGH) is based on a two-colour, competitive fluorescence in situ hybridisation of differentially labelled tumour and reference DNA to normal metaphase chromosomes. This new technology has made a great impact in molecular tumour pathology due to its possible application to archival specimens and the ability to create copy number karyotypes throughout the whole genome from very small amounts of DNA. If chromosomal imbalances can be correlated with a etiological and clinical features of tumours, CGH could be able to provide new prognostic and diagnostic criteria. CGH findings further provide starting points for the molecular genetic characterisation of altered chromosomal regions harbouring yet unidentified genes involved in tumorigenesis and tumour progression. An overview of the results of published CGH studies on solid tumours and haematological malignancies is presented. Methodological limitations of the CGH technology are reported, as well as future developments which will improve its use in routine analysis.

Hoxb-5 expression in the developing mouse lung suggests a role in branching morphogenesis and epithelial cell fate.

Abstract: Hoxb-5 is one of the few homeobox genes strongly expressed in the developing mouse lung. To explore the hypothesis that Hoxb-5 acts to regulate epithelial cell fate and branching morphogenesis in the developing lung, we studied the temporal, spatial, and cell-specific expression of Hoxb-5 from gestational day (d) 13.5 to postnatal day (P) 2. Immunocytochemistry demonstrated regional localization of Hoxb-5 protein to developing conducting airways and surrounding mesenchyme. The cellular expression pattern changed from diffusely positive nuclei of mesenchymal cells on d13.5 to become more localized to nuclei of subepithelial fibroblasts and some adjacent columnar and cuboidal epithelial cells on d14.5. After d14.5, Hoxb-5 protein expression continued to decrease in mesenchymal cells distal from developing airways, but persisted in fibroblasts underlying conducting airways. Hoxb-5 protein expression persisted in nuclei of columnar and cuboidal epithelial cells on d16.5 and d17.5, with expression in low cuboidal epithelial cells as well from d17.5 to P2. Western blot analysis showed temporal and quantitative changes in Hoxb-5 protein expression with peak expression on d14.5–15.5. We conclude that Hoxb-5 protein is developmentally regulated in a temporal, spatial, and cell-specific manner throughout the pseudoglandular, canalicular, and terminal saccular periods of lung development in the mouse. This localization and expression pattern suggests that Hoxb-5 may influence branching morphogenesis, cell–cell communication, cell fate, and differentiation of conducting airway epithelia.

Target and signal amplification: approaches to increase the sensitivity of in situ hybridization.

Abstract: In situ hybridization (ISH) has proven to be a very important molecular tool in research and diagnosis. However, its applicability can be limited by its restricted detection sensitivity. During the last few years, several strategies have been developed to improve the threshold levels for ISH detection by amplification of either target nucleic acid sequences prior to ISH or the detection signals after hybridization procedures. In this overview, we outline and analyze the principles, applications, and limitations of in situ polymerase chain reaction, in situ self-sustained sequence replication, primed in situ labeling (PRINS), and in situ transcription as examples of target amplification methods, and catalyzed reporter deposition using biotinylated tyramine as an approach to signal amplification in ISH. We also provide a detailed, 1-day protocol for non-radioactive oligonucleotide ISH including signal amplification, which is suitable for diagnostic purposes. Furthermore, future directions of ISH including combined strategies of target and signal amplification as well as automation are discussed.

Expression of connexin43 mRNA in adult rodent brain

Abstract: The expression of connexin43 mRNA was detected in adult rat brains by in situ hybridization methods. Specific digoxigenin riboprobes were generated by in vitro transcription of two PCR-amplified fragments of connexin43 cDNA which lack homology with any other published connexin. Following immunohistochemical detection, the digoxigenin cRNA was found to occur in various neuronal populations including Purkinje cells of the cerebellum, pyramidal cells of the neocortex and the hippocampal formation, as well as granule cells of the dentate gyrus and various neurons of diverse hindbrain nuclei. This ubiquituous expression of connexin43 mRNA in adult neurons, in particular in neocortical pyramidal cells, is surprising insofar as gap junction communication in adult bains has been considered to be confined to specific subpopulations of neurons revealing a high incidence of synchronized electrical activities in contrast to the postnatal brain where interneuronal coupling via gap junctions precedes the formation of chemical transmission. In addition, connexin43 is regarded as being preferentially expressed in astrocytes, although its presence in adult neurons has not definitely been excluded. We propose that adult neurons preserve their capability of expressing functional gap junctions more frequently than presently considered and that connexin43 is a most likely neuronal gap junction protein candidate.

The oval-shaped cell as a candidate for a liver stem cell in embryonic, neonatal and precancerous liver: identification based on morphology and immunohistochemical staining for albumin and pyruvate kinase isoenzyme expression.

Abstract: Oval cells observed in some experimental models of hepatocarcinogenesis can function as stem cells capable of differentiating into hepatocytes and bile ductular cells. Using markers which characterise embryonic hepatocytes, we showed that oval cells display different patterns of gene expression, suggesting some are more mature than others. In this study we looked for oval cells in developing liver, predicting that they are abundant in embryonic liver and decline in number during development. Albumin (ALB) serves as a liver-specific marker, and the isoenzymes of pyruvate kinase, M2-PK and L-PK, are used to identify immature and mature hepatocytes, respectively. Small oval-shaped cells expressing ALB, M2-PK and L-PK are found near the vascular spaces and portal areas in 20-day gestation (E20), E21, newborn, 3-day and 1-week-old rat liver. Similar cells expressing ALB and M2-PK, but not L-PK are seen only periportally in adult liver. These are abundant in early embryonic liver and decrease in number during development until only a few, located periportally, persist in the adult. Oval cells, located periportally a few days after commencing a choline-deficient, ethionine-supplemented diet, co-express ALB and M2-PK. Their similarity with respect to markers, morphology and location suggests that oval-shaped cells may be the progenitors of oval cells.

The nuclear matrix and apoptosis.

Abstract: Apoptosis is a form of active cell death, genetically encoded, that plays a key role during several physiological and pathological conditions. During the apoptotic process, striking morphological and biochemical changes take place in the cell nucleus. However, the molecular mechanisms underlying these changes have escaped clarification for many years. Recently, attention has been devoted to identifying the modifications that occur during apoptosis in the nuclear matrix, a mainly proteinaceous framework structure which is thought to play a fundamental role in organizing nuclear structure and function. In this review, we focus our attention on the biochemical and morphological changes detected in the nuclear matrix during the apoptotic process. Particular emphasis will be placed on the proteolysis that some nuclear matrix proteins undergo early during the apoptotic process, as well as on the detachment of DNA loops from the matrix by the action of endonuclease(s). Future research in this field may provide important information about the principal mechanisms that cause nuclear destruction in apoptotic cells.

Heterogeneity of liver cells expressing procollagen types I and IV in vivo.

Abstract: The extracellular matrix of fibrotic liver is predominantly produced by mesenchymal cells, the in vivo phenotype of which is poorly defined We report on the application of combined immunohistology and in situ hybridization with [35S]-labeled α1(I) and α1(IV) procollagen RNA probes In CCl4-treated rats, all α1(I) procollagen-producing cells were vimentin positive but cytokeratin negative; over 90% expressed desmin, a marker of rat liver stellate cells α1(I) Procollagen-expressing, desmin-negative cells were confined to portal tract and perivascular stroma Similarly, α1(I) procollagen gene transcripts were, in all instances, colocalized with vimentin in human liver In fibrotic specimens, over 70% of these cells expressed α-actin Antibodies against epithelial, endothelial, and Kupffer cells, granulocytes, and lymphocytes did not react with α1(I) procollagen RNA-expressing cells Localization, morphology, and immunophenotype of α1(I) procollagen-expressing cells indicated stellate cells and portal/vascular fibroblasts, but not epithelial cells, to be sources of hepatic interstitial collagen However, most α1(IV)-expressing human liver cells were identified as endothelial cells, the remaining cells were (myo-)fibroblastic and bile duct epithelial cells, but not hepatocytes This indicates synthesis of procollagen type IV from both sides of the basement membrane and suggests an active participation of endothelial cells in the process of sinusoidal capillarization

Relationships between NADPH diaphorase staining and neuronal, endothelial, and inducible nitric oxide synthase and cytochrome P450 reductase immunoreactivities in guinea-pig tissues

Abstract: The presence of NADPH diaphorase staining was compared with the immunohistochemical localization of four NADPH-dependent enzymes – neuronal (type I), inducible (type II), and endothelial (type III) nitric oxide synthase (NOS) and cytochrome P450 reductase. Cell types that were immunoreactive for the NADPH-dependent enzymes were also stained for NADPH diaphorase, suggesting that endothelial and neuronal NOS and cytochrome P450 reductase all show NADPH diaphorase activity in formaldehyde-fixed tissue. However, in some tissues, the presence of NADPH diaphorase staining did not coincide with the presence of any of the NADPH-dependent enzymes we examined. In vascular endothelial cells, the punctate pattern of staining observed with NADPH diaphorase histochemistry was identical to that seen following immunohistochemistry using antibodies to endothelial NOS. In enteric and pancreatic neurons and in skeletal muscle, the presence of NADPH diaphorase staining correlated with the presence of neuronal NOS. In the liver, sebaceous glands of the skin, ciliated epithelium, and a subpopulation of the cells in the subserosal glands of the trachea, zona glomerulosa of the adrenal cortex, and epithelial cells of the lacrimal and salivary glands, the presence of NADPH diaphorase staining coincided with the presence of cytochrome P450 reductase immunoreactivity. In epithelial cells of the renal tubules and zona fasciculata and zona reticularis of the adrenal cortex, NADPH diaphorase staining was observed that did not coincide with the presence of any of the enzymes. Inducible NOS was not observed in any tissue. Thus, while tissues that demonstrate immunoreactivity for neuronal and endothelial NOS also stain positively for NADPH diaphorase activity, the presence of NADPH diaphorase staining does not reliably or specifically indicate the presence of one or more NOS isoforms.

Localization of dystrophin and β-dystroglycan in bovine retinal photoreceptor processes extending into the postsynaptic dendritic complex

Abstract: Dystrophin is an actin-binding protein of the membrane cytoskeleton that binds to dystroglycan, an integral membrane protein of the plasma membrane that is posttranslationally cleaved into a transmembrane dystrophin-binding β-moiety and an extracellular laminin- and agrin-binding α-moiety. Mutations of dystrophin may not only cause Duchenne muscular dystrophy but may also be associated with abnormal electroretinograms assumed to result from disturbed neurotransmission between retinal photoreceptors and bipolar cells. Here we show by confocal laser microscopy and immunogold electron microscopy that dystrophin and β-dystroglycan are colocalized in bovine rod photoreceptor synaptic complexes distal from the ribbon-containing active synaptic zones. Both proteins are restricted to a microdomain of the photoreceptor plasma membrane that forms the lateral wall of the synaptic cavity and projects with finger-like extensions into the postsynaptic dendritic complex. Within the cavity these processes eventually come into close contact with bipolar cell dendritic endings. We speculate that the dystrophin-dystroglycan complex of the cavital plasma membrane stabilizes the elaborate synaptic morphology or plays a role in the immobilization of still unknown transporters and receptors involved in certain aspects of neurotransmission to bipolar cells. A further outcome of this study is that dystrophin and dystroglycan are located along the vitread membrane surface of Muller cell endfeet where this protein complex may be important for the attachment of the retina to the basal lamina and the vitreous.

Developmental expression of extracellular matrix components in intramuscular connective tissue of bovine semitendinosus muscle.

Abstract: We have investigated the expression patterns of extracellular matrix components in intramuscular connective tissue during the development of bovine semitendinosus muscle by means of indirect immunofluorescence techniques. Types I, III, V, and VI collagen and fibronectin were located in the endomysium and the perimysium. Type IV collagen, laminin, and heparan sulfate proteoglycans (PGs) were exclusively located in the endomysium, and dermatan sulfate PGs existed only in the perimysium. The localization of these components in the intramuscular connective tissue of semitendinosus muscle remained unchanged throughout prenatal and postnatal growth of cattle, suggesting that they are essential for forming and maintaining structures of the endomysium and perimysium in bovine semitendinosus muscle. On the other hand, decorin was undetectable in the endomysium of neonates, although other matrix components were already expressed. It was expressed slightly in the endomysium of 2-month-old calves, and clearly detectable in the endomysium of cattle more than 6 months old. Chondroitin sulfate PGs were barely detectable in the perimysium of fetuses and neonatal calves, and progressively appeared during postnatal development of the muscle. It seems likely that these PGs are closely related to the postnatal development of the endomysium and perimysium.

Immunochemical and immunohistochemical study of the 27- and 29-kDa calcium-binding proteins and related proteins in the porcine tooth germ

Abstract: Our previous report identified 27- and 29-kDa calcium-binding proteins in porcine immature dental enamel. In this study we revealed that the N-terminal amino acid sequences of the two proteins were identical: LLANPXGXIPNLARGPAGRSRGPPG. The sequence matches a portion of the amino acid sequence of the porcine sheath protein, sheathlin. Porcine tooth germs were investigated immunochemically and immunohistochemically using specific antibodies raised against synthetic peptide that included residues 13–25 of this sequence. The affinity-purified antibodies reacted with several proteins extracted from newly formed immature enamel in immunochemical analyses, especially protein bands migrating at 62, 35–45, 29, and 27 kDa in SDS-polyacrylamide gels. The largest protein detected was a weak band near 70 kDa. In immunochemical analyses of proteins extracted from the inner (old) immature enamel, the antibody reacted faintly with the 27- and 29-kDa proteins. In immunohistochemical preparations, the Golgi apparatus and secretory granules of the secretory ameloblast, and the surface layer of immature enamel showed immunoreactivity. The immunoreactivity of immature enamel just beneath the secretory face of the Tomes’ process was intense. No immunoreactivity was found in the Golgi apparatus of the maturation ameloblast. These results suggest that the 70-kDa protein, whose degradation might be very fast, is the parent protein of the 27- and 29-kDa proteins.

Non-radioactive in situ hybridization for mRNA with emphasis on the use of oligodeoxynucleotide probes.

Abstract: Synthetic oligodeoxynucleotides represent attractive tools for mRNA in situ hybridization In the present review, guidelines for the preparation, labeling and use of such probes is discussed Emphasis is placed on sensitivity and specificity issues

Laser-assisted preparation of single cells from stained histological slides for gene analysis.

Abstract: Individual cells are prepared from histological tissue sections of routinely formalin-fixed and paraffin-embedded tissues using an ultraviolet laser micromanipulator. This technology, in combination with polymerase chain reaction (PCR)-based gene analysis, will enable researchers to routinely detect a variety of nucleic acid abnormalities underlying cancer, infection, and genetic disease with previously unknown sensitivity: at the single cell level. The utility of this technique is demonstrated by PCR amplification and sequencing of the E-cadherin gene, which codes for a homophilic cell-to-cell adhesion molecule, in early gastric carcinomas of the diffuse type of Lauren's classification. The main characteristics of the laser-assisted microdissection technique are high precision without contamination and easy application. The assignment of individual gene sequences to single cells will now provide a direct link between molecular biology on the one hand and histology and pathology on the other.

Interphase cytogenetics in pathology : principles, methods, and applications of fluorescence in situ hybridization (fish)

Abstract: Characteristic chromosome aberrations have been identified in various tumors. Fluorescence in situ hybridization (FISH) using specific probes that are generated by vector cloning or in vitro amplification and labeled with fluorescent dyes allow for the detection of these genetic changes in interphase cells. This technique, that is also referred to as "interphase cytogenetics", can be performed in cytological preparations as well as in sections of routinely formaldehyde-fixed and paraffin-embedded tissue. In cancer research and diagnostics, interphase cytogenetics by FISH is used to detect numerical chromosome changes and structural aberrations, e.g., translocations, deletions, or amplifications. In this technical overview, we explain the principles of the FISH method and provide protocols for FISH in cytological preparations and paraffin sections. Moreover, possible applications of FISH are discussed.

Cell-, tissue-, and position-specific monoclonal antibodies against the planarian Dugesia (Girardia) tigrina

Abstract: To obtain specific immunological probes for studying molecular mechanisms involved in cell renewal, cell differentiation, and pattern formation in intact and regenerating planarians, we have produced a hybridoma library specific for the asexual race of the freshwater planarian Dugesia (Girardia) tigrina. Among the 276 monoclonal antibodies showing tissue-, cell-, cell subtype-, subcellular- and position-specific staining, we have found monoclonal antibodies against all tissues and cell types with the exception of neoblasts, the undifferentiated totipotent stem-cells in planarians. We have also detected position-specific antigens that label anterior, central, and posterior regions. Patterns of expression uncovered an unexpected heterogeneity among previously thought single cell types, as well as interesting cross-reactivities that deserve further study. Characterization of some of these monoclonal antibodies suggests they may be extremely useful as molecular markers for studying cell renewal and cell differentiation in the intact and regenerating organism, tracing the origin, lineage, and differentiation of blastema cells, and characterizing the stages and mechanisms of early pattern formation. Moreover, two position-specific monoclonals, the first ones isolated in planarians, will be instrumental in describing in molecular terms how the new pattern unfolds during regeneration and in devising the pattern formation model that best fits classical data on regeneration in planarians.

Self-sustained sequence replication (3sr) : an alternative to pcr

Abstract: The amplification of target nucleic acids before hybridization is one of the most powerful approaches for the detection of low copy number RNA and DNA. The best known amplification reaction is PCR which has many applications. However, certain drawbacks of the PCR reaction provide a role for alternative amplification methods. One of these methods is the self-sustained sequence replication (3SR) reaction, which is an isothermal method for RNA amplification depending on the action of three enzymes. 3SR has been used in several in vitro applications and has also been modified for in situ use (IS-3SR). We have studied IS-3SR with the measles virus as a model and have found that it can significantly amplify the amount of intracellular RNA. Such a level of amplification could raise the amount of single copy RNA to the level of detection by conventional in situ hybridization. Although careful controls to insure its specificity must be carried out, IS-3SR has several advantages, including ease of use, preserved cell morphology, and specificity for RNA amplification, which make it an attractive alternative to the in situ PCR method.