Fibrillarin: a new protein of the nucleolus identified by autoimmune sera

Autoimmune serum from a patient with scleroderma was shown by indirect immunofluorescence to label nucleoli in a variety of cells tested including: rat kangaroo PtK2, Xenopus A6, 3T3, HeLa, and human peripheral blood lymphocytes. Immunoblot analysis of nucleolar proteins with the scleroderma antibody resulted in the labeling of a single protein band of 34 kD molecular weight with a pI of 8.5. Electron microscopic immunocytochemistry demonstrated that the protein recognized by the scleroderma antiserum was localized exclusively in the fibrillar region of the nucleolus which included both dense fibrillar and fibrillar center regions. Therefore, we have named this protein "fibrillarin". Fibrillarin was found on putative chromosomal nucleolar organizer regions (NORs) in metaphase and anaphase, and during telophase fibrillarin was found to be an early marker for the site of formation of the newly forming nucleolus. Double label indirect immunofluorescence and immunoelectron microscopy on normal, actinomycin D-segregated, and DRB-treated nucleoli showed that fibrillarin and nucleolar protein B23 were predominantly localized to the fibrillar and granular regions of the nucleolus, respectively. RNase A and DNase I digestion of cells in situ demonstrated that fibrillarin was partially removed by RNase and completely removed by DNase. These results suggest that fibrillarin is a widely occurring basic nonhistone nucleolar protein whose location and nuclease sensitivity may indicate some structural and/or functional role in the rDNA-containing dense fibrillar and fibrillar center regions of the nucleolus.     

Detection by bismuth staining of highly phosphorylated nucleo-proteins in plants. Determination of its specificity by X-ray microanalysis,SDS-PAGE and immunological analysis

Summary— Staining with bismuth salts after glutaraldehyde fixation is a very useful technique for preferential detection of phosphorylated nucleoproteins in mammalians and insects. In the present work we report an adaptation of this method for plant nuclei: staining with bismuth salts either in tissue blocks before embedding, or on thin sections of acrylic resin. Both procedures are highly reproducible and give the same pattern of staining in the nuclei in situ or isolated at the electron microscope. The specificity of bismuth binding to the dense nucleolar fibrillar component and interchromatin granules is proven by X-ray microanalysis. The nuclear proteins which bind bismuth have been identified by bismuth and immunostains of blots from total nuclear proteins. This technique is a very useful and specific cytochemical tool for studying nuclear organization and functions in plants.     

Procedures for specific detection of silver-stained nucleolar proteins on western blots.

Nucleolar organizer region (NOR)-silver staining of the chromosomes and nucleoli is a method that enables the detection of proteins associated with the ribosomal genes. We adapted the most commonly used cytochemical NOR-silver staining techniques to Western-blotted proteins of HeLa cells, mimicking the silver staining of cells in situ, and testing several parameters that may influence the in situ reaction. Two of these techniques, both one-step methods with colloidal developers, were standardized to obtain reproducible results. The specificity of NOR staining is documented by: (a) only a few bands are revealed among the many proteins detected by total proteins staining on gels or blots; two major groups of bands are found around 100 KD and 40 KD that could correspond at least in part to nucleolin and B23 nucleolar proteins; (b) the silver staining of bands was not the result of the high relative protein concentrations; and (c) the same number of NOR-silver-stained bands was observed across a large range of protein concentrations. The reaction appeared to be specific for a subset of nucleolar proteins, because the same bands were observed with the use of nucleolar, nuclear, or total cell protein extracts, and the silver grains observed in electron microscopy were clearly confined to the nucleolar fibrillar centers and dense fibrillar component. The efficiency of the reaction was not modified by any of the tested fixative pre-treatments except that involving methanol. The presented standardization of NOR-silver staining on Western blots allows the characterization of the Ag-NOR proteins and their specific regions responsible for silver staining of the nucleolus.     

Immunoelectron microscopic localization of the nucleolar protein B-36 (fibrillarin) during the cell cycle of Physarum polycephalum

Monoclonal antibodies raised against the 34-kD nucleolar protein, B-36, from the slime mold Physarum polycephalum have been used to examine the electron microscopic localization of B-36 during the cell cycle in Physarum. During interphase, B-36 is found primarily in regions corresponding to the dense fibrillar component. This is similar to what has been observed for the putative mammalian homologue of B-36, fibrillarin. During mitosis, B-36 remains associated with perichromosomal nucleolar remnants. With the Gautier DNA-specific staining procedure, the same nucleolar remnants are shown to contain short DNA segments, presumably rDNA molecules. These findings suggest that in Physarum, where the nucleolus is composed of several hundred extrachromosomal rDNA molecules, the dense fibrillar component and the "NOR" equivalents do not separate during mitosis as in mammalian cells. In addition, the B-36-enriched nucleolar remnants appear to be recycled from one cell cycle to the next.     

Simultaneous immunoelectron microscopic visualization of protein B23 and C23 distribution in the HeLa cell nucleolus

The intranucleolar distribution of phosphoproteins B23 and C23 was visualized simultaneously by post-embedding immunoelectron microscopy in HeLa cell nucleoli, using specific antibodies. The data show that proteins B23 and C23 co-localize to the same nucleolar compartments, i.e., the dense fibrillar component and the granular component. Neither of the two antibodies is significantly associated with the fibrillar centers in these cells, although the fibrillar centers appear positive after silver staining. These findings suggest that other unidentified components must be responsible for the silver staining observed in the fibrillar centers of interphase nucleoli. The results are discussed in the light of previously reported data obtained by preembedding immunolabeling techniques and by silver staining, which both suggested a localization of protein C23 inside the fibrillar centers.     

Ultrastructural,cytochemical and immunocytochemical investigation of the interphase nucleus in the unicellular green alga Chlamydomonas reinhardtii

Summary— The ultrastructural organization of the interphase nucleus of the green alga Chlamydomonas reinhardtii was investigated and found to be largely dependent on the fixation conditions. In specimens stained with bismuth, densely contrasted granules ranging from 25 to 45 nm in diameter were localized throughout the interchromatin space and often formed clusters. These granules were labeled by RNase A-gold complexes and may represent the counterparts of animal and higher plant cll interchromatin granules. Within the nucleolus the Ag-NOR and pyroantimonate stains and, to a lesser extent, the bismuth stain reacted with the nucleolar dense fibrillar component (DFC). When cells were subjected to a heat shock at 42°C, the nucleolar DFC was found to progressively separate from the nucleolus and, after 3 h, appeared as a continuous meandering thread about 0.1 μm in width. Within the nucleolus, labeling on conventional preparations occurred as small clusters with antibodies to H3 histones or to DNA whereas RNase A-gold complexes labeled most of it including fibrillar centers. Improved ultrastructural preservation in cryofixed, cryosubstituted specimens gently fixed in glutaraldehyde permitted to localize nucleolar DNA predominantly at the outer edge of fibrillar centers and to a lesser extent within the neighbouring DFC. Our results indicate that the structure and composition of Chlamydomonas interphase nuclei are comparable, despite particularities, to those of animal and higher plant nuclei.     

Inhibition of nucleolar protein nucleolin by electroporation with anti-nucleolin antibodies results in an increase of the nucleolar size

Electroporation of exponentially growing human larynx epidermoid carcinoma cells (HEp-2) with a serum against nucleolin, one of the most abundant non-histone nuclear proteins, has shown, 24 h after electroporation, a significant increase in the size of the nucleolus of these cells compared with normal HEp-2 cells (non-electroporated) and electroporated HEp-2 cells in the absence of antinucleolin serum (P < 0.01). Image analysis evaluation of the different nucleolar components proved a major contribution of the dense fibrillar component to the total nucleolar size in cells electroporated with anti-nucleolin antibodies, more than that corresponding to the dense fibrillar component in cells from any of the control groups (P < 0.01), indicating that the reported increase in nucleolar size was due to a marked enlargement of the dense fibrillar regions. These results, in agreement with previous biochemical and molecular biology studies, suggest a pivotal role for nucleolin in pre-rRNA processing and constitute morphological evidence supporting this role. Following nucleolin inhibition, impaired pre-rRNA processing might result in an accumulation of this molecular species in the dense fibrillar component of the nucleolus, where pre-rRNA is first present.     

The three-dimensional ultrastructure of interphasic and metaphasic nucleolar argyrophilic components studied with high-voltage electron microscopy in thick sections

The three-dimensional structure of the nucleolar argyrophilic components was studied by recording stereo-pairs of tilted thick sections--0.5-2 microns thick--observed with 200 and 300 kV high-voltage electron microscopy (HVEM). Using a very specific silver staining method, the argyrophilic components were stained with a high contrast relatively to the unstained background, thus allowing their study with a high resolution within thick sections. This study was performed on compact nucleoli (of HL60 and K562 cells), on reticulated nucleoli (of human breast cancerous cells) and on metaphasic nucleolar organizer regions (NORs). In compact nucleoli argyrophilic components show a 'knotted rope-like' structure in which knots are constituted of one central fibrillar centre surrounded at some distance by loops of the dense fibrillar component and in which the rope is constituted of dense fibrillar component. In reticulated nucleoli silver deposits are confined to the surface of the nucleolonema as several strands twisted at the periphery of the fibrillar component. During metaphase some NORs get a characteristic crescent-shaped structure disposed at the periphery of some chromosomes.     

Inhibition of nucleolar reformation after microinjection of antibodies to RNA polymerase I into mitotic cells

The formation of daughter nuclei and the reformation of nucleolar structures was studied after microinjection of antibodies to RNA polymerase I into dividing cultured cells (PtK2). The fate of several nucleolar proteins representing the three main structural subcomponents of the nucleolus was examined by immunofluorescence and electron microscopy. The results show that the RNA polymerase I antibodies do not interfere with normal mitotic progression or the early steps of nucleologenesis, i.e., the aggregation of nucleolar material into prenucleolar bodies. However, they inhibit the telophasic coalescence of the prenucleolar bodies into the chromosomal nucleolar organizer regions, thus preventing the formation of new nucleoli. These prenucleolar bodies show a fibrillar organization that also compositionally resembles the dense fibrillar component of interphase nucleoli. We conclude that during normal nucleologenesis the dense fibrillar component forms from preformed entities around nucleolar organizer regions, and that this association seems to be dependent on the presence of an active form of RNA polymerase I.     

Nucleolar activity after 3-methylcholanthrene treatment of rat liver cells studied by silver staining procedure

The influence of a single dose of 3-methylcholanthrene (3-MC) was studied in nucleoli of young rat liver cells by means of conventional and ultracytochemical methods. The nucleolar activity was stimulated in our experimental conditions: the appearance of the fibrillar centres in the liver cell nucleoli as well as the silver staining protein content of the fibrillar centres and the dense fibrillar component were increased by 3-MC. The results suggest that the activity of ribosomal genes was increased following 3-MC treatment.     

The Structural Transformation of Nucleolar DNA and Its Arrangement in Nucleolus of Allium cepa Cells

By using the DNA specific cytochemical staining method (NAMA-Ur) and conventional electron microscopic technique, the authors examined the configuration of intranucleolar DNA in Allium cepa L. cells and found that nucleolar DNA within the fibrillar center (FC) underwent a structural transformation process from condensed to extended state. The authors' observations also displayed a continuous arrangement process of nucleolar DNA, i.e., the extranucleolar DNA entered FC through the nucleolar organizer region (NOR) channel, then extended to the periphery of FC or to the border between FC and dense fibrillar component (DFC), and distributed along the periphery of FC. Thence, by passing through the NOR channel between FCs, the nucleolar DNA continued to transfer to other FCs and arranged in the same above-mentioned forms.