Morphohistochemical changes in hepatocytes during the life cycle of the European eel

The comparative analysis of morphological, histochemical and cytochemical patterns of eel (Anguilla anguilla L.) hepatocytes reveals clear differences between two stages of its life cycle, i.e. the trophic stage (yellow eel) and reproductive stage (silver eel). The storage of glycogen prevails in the yellow eel, whilst lipids appear to be remarkably increased in the silver eel, in which some hepatocytes also show glycogen-rich areas. Generally, in the silver eel dehydrogenase and acid phosphatase activities seem greater and different distribution of the reaction products is present; on the contrary, a lower G6PDH activity is observed. The electron microscopy characteristics and distribution of both cellular organelles and reserve materials reflect the modifications found at light microscopy. The ultrastructural patterns provide further evidence for the heterogeneity of liver parenchyma in silver eel. In particular, the coexistence of nuclei showing a different degree of chromatin compactness is also accounted for by the quantitative cytochemical data on the nuclear DNA after Feulgen reaction and intercalation with propidium iodide at low and high concentrations. With regard to the DNA content, the hepatocytes in the silver eel as well as in the yellow eel are mainly 2c. However, some 4c values are also found, which according to the literature can be ascribed to cells in G2 phase. The present data may express the onset of different functional requirements during the reproductive stage in comparison with the trophic one. Moreover, our results are consistent with modifications found by other authors as a consequence of interruption of nourishment and during gonad maturation, i.e. two phenomena characterizing the transition from yellow to silver eel.     

Comparative aspects of cerebellar cytoarchitecture in the European eel life cycle

The major anatomical divisions of the cerebellum of the European eel, i.e., corpus cerebelli, lobus vestibulolateralis, and valvula, were studied morphologically and morphometrically. There were differences in cerebellar cytoarchitecture and gross morphology in two stages of the eel life cycle, the trophic stage (yellow eel), and the reproductive stage (silver eel), which are characterized by different degrees of swimming activity. The principal differences between silver and yellow eels in the cytoarchitecture of the corpus cerebelli and the lobus vestibulolateralis were in distribution of Purkinje or Purkinje-like cells in the molecular layer, which is wider in silver eels, in part because of a decreased thickness of the granular cell layer. In the silver eel, the scattering of Purkinje cells was more evident in the lobus vestibulolateralis where the molecular layer is also thicker. The data indicate the transition from the yellow eel to the silver eel is characterized by a migration of granule cells from the ganglionic cell layer to the internal granular layer and by a further development of molecular layer components, e.g., parallel fibers, Purkinje-cell dendrites, etc. In contrast, the thickness of the granular layer and of the Purkinje cell layer, limited to the lower part of the valvula, decreased. There is also a slight increase of cerebellar volume in the silver eel. The volume of the lobus vestibulolateralis was constant. Hypertrophy of the valvula and eminentiae granulares is observed and is due to the migration of cells from the granular layer of the corpus cerebelli whose volume slightly decreases. Perhaps the lobus vestibulolateralis also contributes to the increased volume of eminentiae granulares. Our findings suggest that the cerebellum continues to develop during the passage from the trophic to the reproductive stage of the eel. The appearance of new afferents from the lateral line which becomes more visible in the silver eel probably completes cerebellar ontogeny.     

Nucleoprotein changes during male pronuclear development as determined by the ammoniacal silver reaction

Sperm nucleoprotein changes during male pronuclear development in fertilized sea urchin (Arbacia punctulata) eggs have been examined utilizing the ammoniacal silver reaction (ASR) at the light and electronic microscopic levels of observation. Previous studies and control preparations indicated that the ASR has an affinity for basic proteins, staining intensely those rich in arginine residues. Differences in the affinity of the paternally derived chromatin to the ASR prior to, during, and following pronuclear development were observed. Relative to the female pronucleus the unincorporated sperm nucleus was densely stained. Upon its entry into the egg the sperm nucleus showed a two-fold increase in staining, indicating an augmentation in the availability of reactive sites already present in the paternally derived chromatin or an accumulation of “new” reactive sites from the egg cytoplasm. With the dispersion of the sperm nucleus there was a progressive decrease in staining intensity of the paternally derived chromatin. Subsequent to pronuclear fusion the paternally derived chromatin, recognized by its relatively dense staining, was seen at one pole of the zygote nucleus. With time there was a gradual regression in the size and staining intensity of the paternally derived chromatin within the zygote nucleus. Changes in reactivity of sperm-derived chromatin are discussed in reference to previous studies of chromatin transitions at fertilization.     

A flow cytometric study of DNA staining in situ in exponentially growing and stationary Euglena gracilis

DNA stainability by different fluorochromes has been compared in exponentially dividing and stationary Euglena cells. With the intercalating fluorochromes, ethidium bromide, acridine orange and DAPI, a decrease of fluorescence intensity of the G1 cells is observed when cells enter stationary stage. However this decrease of fluorescence is not obtained with the nonintercalating fluorochrome Hoechst 33258. If nuclear basic proteins are extracted, however, the intensity of staining by either Hoechst 33258 or ethidium-bromide is comparable in stationary and dividing cells. Therefore, the decrease of fluorescence intensity of the G1 cells observed during the transition from exponential to stationary phase is not due to a loss of DNA but is related to the exposure of chromatin binding sites for ethidium bromide. In Euglena cells, DNA accessibility for intercalating fluorochromes depends upon chromatin structure and consequently upon cell age.     

Localization of histones and their synthesis by ammoniacal silver reaction in meristematic root tip cells of Allium cepa

Summary The ammoniacal silver reaction was used for localization of histones in meristematic root tip cells of Allium cepa. Electron microscopic observations showed that yellow or brown colour of interphase and prophase nuclei and brown nucleolar colour produced in the reaction coincides with the appearance of silver grains, about 400 Å in diameter, in the interphase and prophase chromatin and nucleoli. This together with the complete absence of staining reaction and silver grains in the cytoplasm could mean quite a specific reaction with histones and might suggest also that in these cells the site of histone synthesis is in the nucleolus.     

Non-nucleosomal configuration of chromatin in nucleolar organizer regions of metaphase chromosomes in situ

The structure of metaphase chromatin in a human tumor cell line, TG cells, was investigated using thin sections selectively stained for DNA with the Feulgen-like osmium-ammine reaction. The bulk of metaphase chromatin was characterized by the nucleosomal configuration. Some specimens were pretreated by silver staining for selective visualization of acidic proteins of the nucleolar organizer regions. In these specimens, the osmium-amine DNA tracer revealed that the chromatin present at the sites of silver granule localization had a completely extended configuration, and never gave rise to nucleosomal structures.     

Standardization of the Feulgen reaction: the influence of chromatin condensation on the kinetics of acid hydrolysis.

The purpose of the present study was to investigate the influence of chromatin compactness on the kinetics of acid hydrolysis in the Feulgen reaction in cytology. Tissue imprints of rabbit liver, of human bronchial carcinoma and of human blood smears, fixed with alcohol, formaldehyde or with B?hm's solution with and without prior air drying, were stained with a standardized pararosanilin-Feulgen reagent. The time for hydrolysis varied between 7.5 and 120 min. The integrated optical density (IOD) of the cell nuclei was measured with an image analyzer (IBAS 2000). Cells with condensed chromatin (lymphocytes, small cell carcinoma, formaldehyde fixed cells) showed a slow increase of staining intensity and late plateau phase as compared with cells with decondensed chromatin. DNA in condensed nuclei was less susceptible to acid hydrolysis. The degree of chromatin compactness which determines the sensitivity of DNA to hydrolysis is influenced by the type of fixation, cell type and by the functional status of the cell. The conclusion is that Feulgen staining intensities of cells with different degrees of chromatin compactness cannot be compared unless measured in the respective plateau phases of the relevant hydrolysis curves which must be determined individually for each cell type.     

Transition of basic protein during spermatogenesis of <Emphasis Type="Italic">Fenneropenaeus chinensis</Emphasis> (Osbeck, 1765)

According to the ultrastructural characteristic observation of the developing male germ cells, spermatogenesis of the crustacean shrimp, Fenneropenaeus chinensis, is classified into spermatogonia, primary spermatocytes, secondary spermatocyte, four stages of spermatids, and mature sperm. The basic protein transition during its spermatogenesis is studied by transmission electron microscopy of ammoniacal silver reaction and immunoelectron microscopical distribution of acetylated histone H4. The results show that basic protein synthesized in cytoplasm of spermatogonia is transferred into the nucleus with deposition on new duplicated DNA. In the spermatocyte stage, some nuclear basic protein combined with RNP is transferred into the cytoplasm and is involved in forming the cytoplasmic vesicle clumps. In the early spermatid, most of the basic protein synthesized in the new spermatid cytoplasm is transferred into the nucleus, and the chromatin condensed gradually, and the rest is shifted into the pre-acrosomal vacuole. In the middle spermatid, the nuclear basic protein linked with DNA is acetylated and transferred into the proacrosomal vacuole and assembled into the acrosomal blastema. At the late spermatid, almost all of the basic protein in the nucleus has been removed into the acrosome. During the stage from late spermatid to mature sperm, some de novo basic proteins synthesized in the cytoplasm belt transfer into the nucleus without a membrane and almost all deposit in the periphery to form a supercoating. The remnant histone H4 accompanied by chromatin fibers is acetylated in the center of the nucleus, leading to relaxed DNA and activated genes making the nucleus non-condensed.     

Stage-Specific Expression and Localization of MENT, a Nuclear Protein Associated with Chromatin Condensation in Terminally Differentiating Avian Erythroid Cells

Polyclonal antibodies have been raised against a nonhistone protein (MENT) which has been previously shown to be associated with the repressed chromatin of mature chicken erythrocytes and to promote the in vitro condensation of chromatin of immature erythrocyte nuclei. Here we report that the expression pattern of MENT closely follows chromatin condensation in maturing arian erythrocytes of definitive and primary lineages. Accumulation of MENT correlates more strongly with chromatin condensation than does accumulation of histone H5. In addition to being present in erythrocytes, the protein was also found in neutrophil nuclei and an immunofluorescence reaction was observed with embryonic (nucleated) thrombocytes. MENT was not detected in other chicken tissues (brain, liver, testis). In intact erythrocytes, MENT immunofluorescence was found in foci close to the nuclear periphery, while in isolated, decondensed nuclei, the fluorescence signal was uniformly distributed. In neutrophil nuclei, containing approximately 10 times more MENT than adult erythrocytes, intense staining associated with the peripheral heterochromatin was observed. These findings are discussed in regard to a possible mechanism for chromatin condensation by MENT.     

Differential silver staining of chromatin in metaphase chromosomes

The silver techniques used to demonstrate nucleolar organizer regions and cores in chromosomes can also differentially stain chromatin within chromosomes. Direct silver staining of mouse and human chromosomes resulted in preferential staining of centromeric regions and non-nucleolar secondary constrictions, both of which are composed of constitutive heterochromatin. After C-banding, these regions were no longer silver-stainable, suggesting that the biochemical constituents (presumably non-histone proteins) which contain the reaction sites for silver are extracted during the banding treatment. Light and electron microscopy of chromosomes G-banded with trypsin and then silver-stained revealed heavier deposits of silver over the condensed aggregates of chromatin within the band regions than over the more dispersed interband chromatin. At the ultrastructural level, chromatin fibres were covered with silver grains, indicating that there are many reaction sites for this metal along the fibres. These results suggest that the degree of silver staining in any region of the chromosome may be contingent upon the concentration of chromatin in that region. This finding may have important implications concerning the nature of the silver-stained core-like structure in chromosomes. If a preferential dispersion of chromatin fibres occurs at the periphery of the chromosome during slide preparation, leaving the central region of each chromatid relatively undispersed, this difference in the concentration of chromatin may account for the differential silver staining of these regions and the consequent appearance of a core-like structure.     

Relationship between the Ag-NOR proteins and ribosomal chromatin in situ during drug-induced RNA synthesis inhibition

In human TG tumor cells, the role of silver-NOR proteins was investigated by examining their relationship with the chromatin structure during inhibition of RNA synthesis by actionomycin-D treatment. This induced segregation of the nucleoli into four distinct zones and weakened the silver reaction. The fibrillar components were found to constitute the site of silver-stained proteins segregation. Feulgen-like osmium-ammine staining revealed that the DNA disappeared from the segregated nucleoli except for a network of nonnucleosomal filaments. When Ag-NOR protein detection was combined with chromatin visualization, we found constant overlapping of the silver reaction sites with the nonnucleosomal DNA filaments. Our results indicate that certain Ag-NOR proteins are not directly linked to active rRNA synthesis, but might rather affect the structure of ribosomal genes.     

Endogenous polyamines are intimately associated with highly condensed chromatin in vivo. A fluorescence cytochemical and immunocytochemical study of spermine and spermidine during the cell cycle and in reactivated nuclei

Polyamines are low molecular weight aliphatic polycations essential for cell proliferation and differentiation. By immunocytochemistry, as well as by two independent fluorescence cytochemical methods, we show that polyamines are associated with highly condensed chromatin in nucleated erythrocytes and in metaphase and anaphase chromosomes. In other cells, polyamines mainly occur in cytoplasm. The association between polyamines and DNA in condensed chromatin is so close that DNase treatment is necessary for making polyamines available for reaction with antibodies. Studies of chick/HeLa cell heterokaryons reveal that polyamines disappear from the chick erythrocyte nuclei concomitantly with DNA decondensation and initiation of RNA synthesis. Our data strongly suggest that polyamines are important for chromatin condensation in vivo.     

Optical anisotropy of chromatin. Flow linear dichroism and electric dichroism studies

The optical anisotropy of chromatin with different length of the linker DNA isolated from a variety of sources (Frend erythroleukemia cells, calf thymus, hen erythrocytes and sea urchin sperm) has been studied in a large range of mono- and bivalent cations concentrations by the use of flow linear dichroism (LD) and electric dichroism. We have found that all chromatins studied displayed negative LD values in the range of 0.25 mM EDTA - 2 mM NaCl and close positive values in the range of 2-100 mM NaCl. Mg2+ cations, in contrast to Na+ cations, induce optically isotropic chromatin fibers. All chromatin samples exhibit positive form effect amounting to 5-10% of LD amplitude observed at 260 nm. This form effect is determined by the anisotropic scattering of polarized light by single chromatin fibers. The conformational transition at 2 mM NaCl leads to the distortion of chromatin filament structure. The reversibility of this distortion depends on the length of the linker DNA - for chromatins with the linker DNA of 10-30 b.p. it is parially reversible, while for preparations with longer linker DNA it is irreversible. Relatively low electric field does not affect chromatin structure, while higher electric field (more than 7 kV/cm) distorts the structure of chromatin. Presented results explain the contradictory data obtained by electrooptical and hydrooptical methods.     

Nucleolar silver-staining patterns related to cell cycle phase and cell generation of PHA-stimulated human lymphocytes

Silver staining (Ag-I) was used to investigate changes in the nucleolar structure of PHA-stimulated human lymphocytes through the phases of the cell cycle, G1, S and G2. Ag-I patterns and cell cycle phases of individual cells were assessed by sequential silver staining, Feulgen staining, DNA microdensitometry and 3H-thymidine autoradiography. The morphology and number of Ag-I nucleoli in a particular cell depended upon the phase of the cell cycle reached and on the number of generations the cell had passed through in culture. Resting, unstimulated cells usually had one small silver positive nucleolus. During blast transformation, the silver stained nucleoli increased in number and size, and then fused to form one very large, rounded or irregular-shaped nucleolus which was present through all cell cycle phases of the first reproductive cycle. Many lymphocytes developed a band-shaped nucleolus during their first S phase in culture. Lymphocytes at all cell cycle stages of the second and third generations after PHA-stimulation had multiple nucleoli whose combined areas approximated that of the single large nucleolus observed in first generation cells.     

The morphological relationship in electron microscopy between NOR-silver proteins and intranucleolar chromatin

The relative distribution of NOR proteins and chromatin fibers in the nucleoli was visualized in human cell line. The chromatin was revealed by a Feulgen-like procedure using osmium-ammine as DNA tracer. This selective staining was combined with NOR-silver staining. We provide morphological evidence for constant overlapping of the silver deposit sites with dispersed intranucleolar chromatin fibers. Silver stained proteins were sometimes observed in contact with the chromatin fibers, suggesting that at least some of the Ag-NOR proteins might be closely connected with the dispersed nucleolar DNA.     

Electrophoretic analysis of heterogeneous lipopolysaccharides from various strains ofVibrio vulnificus biotypes 1 and 2 by silver staining and immunoblotting

Lipopolysaccharides (LPS) of 11 strains of Vibrio vulnificus biotypes 1 and 2, isolated from an eel farm, and of 10 reference strains, were examined by SDS-polyacrylamide gel electrophoresis coupled with silver staining and immunoblotting. LPS samples were obtained from whole-cell lysates, outer membrane fragments, and extracellular products. By silver staining, only a diffuse band of low-molecular weight could be visualized in all cases except for a biotype 1 strain isolated from water. However, immunoblotting with antisera obtained against strains of biotypes 1 and 2 from eels allowed visualization of multiple O-polysaccharide chains. All biotype 2 strains, independently of their origins, belonged to the same serotype and presented the same LPS profile, whereas eel isolates of biotype 1 were serologically identical and different from the rest of tested strains of biotype 1. This is the first report of LPSs with a ladder-like structure in Vibrio vulnificus.     

The Histochemical Demonstration of Hemoglobin in Blood Cells and Tissue Smears

The demonstration of intracellular hemoglobin in permanent preparations has long been a problem. The affinity of hemoglobin for iron hematoxylin is well known but this stain also colors yolk, chromatin, and other structures and is therefore not a reliable criterion. The presence of hemoglobin has been associated with an acidophil cytoplasm which stains a characteristic color, but a careful inspection of living cells in early hematopoetic or embryological stages demonstrates that hemoglobin is present in the erythrocytes which are quite basophilic. In the course of some research on the blood of embryonic frogs it became desirable to demonstrate the presence of hemoglobin in cells by means of a specific staining reaction.     

Comparison between the toluidine blue stain and the Feulgen reaction for evaluation of rabbit sperm chromatin condensation and their relationship with sperm morphology

Sperm chromatin alteration is an important feature that can affect fertility of the male rabbit. This study compared toluidine blue staining with Feulgen reaction (as methods for evaluating chromatin alteration) and investigated the relationship between sperm morphology and chromatin alteration. Seven hundred rabbit ejaculates of animals with unknown fertility were used. Primary and secondary morphological sperm abnormalities were evaluated in semen smears with phase-contrast microscopy. Chromatin alterations were evaluated in semen smears stained with toluidine blue (pH 4.0 and 5.0) and with the Feulgen reaction. While the three methods were equally efficacious for identification of chromatin alterations, toluidine blue staining was more appropriate to characterize the intensity of chromatin alterations. The correlation between primary sperm defects and chromatin alteration was high and positive, suggesting that sperm chromatin structure affected sperm head morphology. The correlation between secondary sperm defects and chromatin alteration was also positive, but lower. The final chromatin compaction occurs in the epididymus, where secondary sperm defects originate. Therefore, the causes of secondary sperm defects could also intervene with final chromatin compaction. In summary, the toluidine blue stain was an effective means of evaluating the sperm chromatin alteration in rabbit spermatozoa.     

Silver and Cyanine Staining of Oligonucleotides in Polyacrylamide Gel

To explore why some oligonucleotides in denaturing polyacrylamide gel could not be silver-stained, 134 different oligonucleotides were analyzed using denaturing polyacrylamide gel electrophoresis stained with silver and asymmetric cyanine. As a result, we found that the sensitivity of oligos (dA), (dC), (dG) and (dT) to silver staining could be ranged as (dA) > (dG) > (dC) > (dT) from high to low. It was unexpected that oligo (dT) was hard to be silver-stained. Moreover, the silver staining of an oligonucleotide containing base T could be partially or completely inhibited by base T. The inhibition of silver staining by base T was a competitive inhibition which could be affected by the amounts of the argyrophil nucleobase and base T, the cis-distance between the argyrophil nucleobase and base T, and the gel concentration. The changes of the intensity of an oligonucleotide band caused by the changes of DNA base composition were diverse and interesting. The intensity of some oligonucleotide bands would significantly change when the changes of DNA base composition accumulated to a certain extent (usually ≥ 4 nt). The sensitivity of cyanine staining of ≤ 11-nt long oligonucleotides could be enhanced about 250-fold by fixing the gels with methanol fixing solution.     

Linear dichroism of chromatin fibers

The optical anisotropy of chromatin with different length of the linker DNA isolated from a variety of sources (Friend erythroleukemia cells, calf thymus, hen erythrocytes and sea urchin sperm) has been studied in a large range of mono- and bivalent cations by the use of flow linear dichroism and electric dichroism. We have found that all chromatins studied displayed negative LD values in the range of 0.25 mM EDTA--2 mM NaCl and close positive values in the range of 2-100 mM NaCl. Mg2+ cations, in contrast to Na+ cations, induce optically isotropic chromatin fibers. All chromatin samples exhibit positive form effect amounting to 5-10% of LD amplitude observed at 260 nm. This form effect is determined by the anisotropic scattering of polarized light by single chromatin fibers. The conformational transition at 2 mM NaCl leads to the distortion of chromatin filament structure. The reversibility of this distortion depends on the length of the linker DNA--for chromatins with linker DNA 10-30 b.p. it is partially reversible, while for preparations with longer linker DNA it is irreversible. Relatively low electric fields do not have an effect on chromatin structure, while higher electric fields (more than 7 kV/cm) distort the structure of chromatin.