Showing papers on "Nucleolus published in 1996"

Visualization of glucocorticoid receptor translocation and intranuclear organization in living cells with a green fluorescent protein chimera

Abstract: A highly fluorescent mutant form of the green fluorescent protein (GFP) has been fused to the rat glucocorticoid receptor (GR). When GFP-GR is expressed in living mouse cells, it is competent for normal transactivation of the GR-responsive mouse mammary tumor virus promoter. The unliganded GFP-GR resides in the cytoplasm and translocates to the nucleus in a hormone-dependent manner with ligand specificity similar to that of the native GR receptor. Due to the resistance of the mutant GFP to photobleaching, the translocation process can be studied by time-lapse video microscopy. Confocal laser scanning microscopy showed nuclear accumulation in a discrete series of foci, excluding nucleoli. Complete receptor translocation is induced with RU486 (a ligand with little agonist activity), although concentration into nuclear foci is not observed. This reproducible pattern of transactivation-competent GR reveals a previously undescribed intranuclear architecture of GR target sites.

Accurate Processing of a Eukaryotic Precursor Ribosomal RNA by Ribonuclease MRP in Vitro

Abstract: Very few of the enzymes required for eukaryotic precursor ribosomal RNA (pre-rRNA) processing have been identified. Ribonuclease (RNase) MRP was characterized as a nuclease that cleaves mitochondrial replication primers, but it is predominantly nucleolar. Previous genetic evidence revealed that this ribonucleoprotein is required, directly or indirectly, for cleavage of the yeast pre-rRNA in vivo at site A3. Here, an in vitro processing system that accurately reproduces this cleavage is described. Biochemical purification and the use of extracts depleted of the MRP RNA demonstrate that endonucleolytic cleavage of the pre-rRNA is directly mediated by RNase MRP. This establishes a role for RNase MRP in the nucleolus.

The murine Ki-67 cell proliferation antigen accumulates in the nucleolar and heterochromatic regions of interphase cells and at the periphery of the mitotic chromosomes in a process essential for cell cycle progression

Abstract: We have isolated the murine homologue of the human Ki-67 antigen. The Ki-67 antigen is used as a marker to assess the proliferative capacity of tumour cells; however, its cellular function is not known. The murine Ki-67 cDNA sequence (TSG126) was found to contain 13 tandem repeats, making up more than half of the total protein size. A comparison of this repetitive sequence block to its human counterpart, which contains 16 consecutive repeat units, revealed several conserved sequence motifs, including one motif frequently observed in proteins interacting with DNA. An antiserum developed against the product of the TSG126 cDNA clone identified a protein with an apparent molecular mass of 360 kDa, mainly expressed in proliferating cells. The TSG126 protein begins to accumulate during the late G1 stage of the cell cycle and is first seen as numerous small granules evenly distributed throughout the nucleus. During the S and the G2 phases, larger foci that overlap with the nucleoli and the heterochromatic regions are formed. At the onset of mitosis the TSG126 protein undergoes a dramatic redistribution process and becomes associated with the surface of the condensed chromosomes. The relative absence of the TSG126 protein from G1 interphase cells strongly argues against a model where the association of the TSG126 protein with mitotic chromosomes merely reflects a mechanism for the symmetrical distribution of nucleolar proteins between daughter cells. Instead, the intracellular distribution of the TSG126 protein during the cell cycle suggests that it could have a chromatin-associated function in both interphase and mitotic cells. Microinjection of anti-TSG126 antibodies into proliferating Swiss-3T3 fibroblasts was found to delay cell cycle progression, indicating that the TSG126 protein has an essential nuclear function.

Localisation of the Ki-67 antigen within the nucleolus. Evidence for a fibrillarin-deficient region of the dense fibrillar component

Abstract: The Ki-67 antigen is detected in proliferating cells in all phases of the cell division cycle. Throughout most of interphase, the Ki-67 antigen is localised within the nucleous. To learn more about the relationship between the Ki-67 antigen and the nucleolus, we have compared the distribution of Ki-67 antibodies with that of a panel of antibodies reacting with nucleolar components by confocal laser scanning microscopy of normal human dermal fibroblasts in interphase stained in a double indirect immunofluorescence assay. During early G1, the Ki-67 antigen is detected at a large number of discrete foci throughout the nucleoplasm, extending to the nuclear envelope. During S-phase and G2, the antigen is located in the nucleolus. Double indirect immunofluorescence studies have revealed that during early to mid G1 the Ki-67 antigen is associated with reforming nucleoli within discrete domains which are distinct from domains containing two of the major nucleolar antigens fibrillarin and RNA polymerase I. Within mature nucleoli the Ki-67 antigen is absent from regions containing RNA polymerase I and displays only partial co-localisation within domains containing either fibrillarin or B23/nucleophosmin. Following disruption of nucleolar structure, induced by treatment of cells with the drug 5,6-dichloro-1-beta-D-ribofuranosylbenzimidazole or with actinomycin D, the Ki-67 antigen translocates to nucleoplasmic foci which are associated with neither fibrillarin nor RNA polymerase I. However, in treated cells the Ki-67 Ag remains associated with, but not co-localised to, regions containing B23/nucleophosmin. Our observations suggest that the Ki-67 antigen associates with a fibrillarin-deficient region of the dense fibrillar component of the nucleolus. Integrity of this region is lost following either nucleolar dispersal or nucleolar segregation.

RRP5 is required for formation of both 18S and 5.8S rRNA in yeast.

Abstract: Three of the four eukaryotic ribosomal RNA molecules (18S, 5.8S and 25-28S) are synthesized as a single precursor which is subsequently processed into the mature rRNAs by a complex series of cleavage and modification reactions. In the yeast Saccharomyces cerevisiae, the early pre-rRNA cleavages at sites A0, A1 and A2, required for the synthesis of 18S rRNA, are inhibited in strains lacking RNA or protein components of the U3, U14, snR10 and snR30 small nucleolar ribonucleoproteins (snoRNPs). The subsequent cleavage at site A3, required for formation of the major, short form of 5.8S rRNA, is carried out by another ribonucleoprotein, RNase MRP. A screen for mutations showing synthetic lethality with deletion of the non-essential snoRNA, snR10, identified a novel gene, RRP5, which is essential for viability and encodes a 193 kDa nucleolar protein. Genetic depletion of Rrp5p inhibits the synthesis of 18S rRNA and, unexpectedly, also of the major short form of 5.8S rRNA. Pre-rRNA processing is concomitantly impaired at sites A0, A1, A2 and A3. This distinctive phenotype makes Rrp5p the first cellular component simultaneously required for the snoRNP-dependent cleavage at sites A0, A1 and A2 and the RNase MRP-dependent cleavage at A3 and provides evidence for a close interconnection between these processing events. Putative RRP5 homologues from Caenorhabditis elegans and humans were also identified, suggesting that the critical function of Rrp5p is evolutionarily conserved.

In vivo evidence that TATA-binding protein/SL1 colocalizes with UBF and RNA polymerase I when rRNA synthesis is either active or inactive.

Abstract: Here we show that the TATA-binding protein (TBP) is localized in the nucleoplasm and in the nucleolus of mammalian cells, consistent with its known involvement in transcription by RNA polymerase I, II, and III. In the nucleolus of actively growing cells, TBP colocalizes with upstream binding factor (UBF) and RNA polymerase I at the sites of rRNA transcription. During mitosis, when rRNA synthesis is down-regulated, TBP colocalizes with TBP-associated factors for RNA polymerase I (TAF(I)s), UBF, and RNA polymerase I on the chromosomal regions containing the rRNA genes. Treatment of cells with a low concentration of actinomycin D inhibits rRNA synthesis and causes a redistribution of the rRNA genes that become concentrated in clusters at the periphery of the nucleolus. A similar redistribution was observed for the major components of the rRNA transcription machinery (i.e., TBP, TAF(I)s, UBF, and RNA polymerase I), which still colocalized with each other. Furthermore, anti-TBP antibodies are shown to coimmunoprecipitate TBP and TAF(I)63 in extracts prepared from untreated and actinomycin D-treated cells. Collectively, the data indicate that in vivo TBP/promoter selectivity factor, UBF, and RNA polymerase I remain associated with both active and inactive rRNA genes.

The Epstein-Barr virus-encoded nuclear antigen EBNA-5 accumulates in PML-containing bodies.

Abstract: EBNA-5 is one of the Epstein-Barr virus (EBV)-encoded nuclear proteins required for immortalization of human B lymphocytes. In the nuclei of EBV-transformed lymphoblastoid cell lines EBNA-5 is preferentially targetted to distinct nuclear foci. Previously we have shown (W.Q. Jiang, L. Szekely, V. Wendel-Hansen, N. Ringertz, G. Klein, and A. Rosen, Exp. Cell Res. 197:314-318, 1991) that the same foci also contained the retinoblastoma (Rb) protein. Using a similar double immunofluorescence technique, we now show that these foci colocalize with nuclear bodies positive for PML, the promyelocytic leukemia-associated protein. Artificial spreading of the chromatin by exposure to the forces of fluid surface tension disrupts this colocalization gradually, suggesting that the bodies consist of at least two subcomponents. Heat shock or metabolic stress induced by high cell density leads to the release of EBNA-5 from the PML-positive nuclear bodies and induces it to translocate to the nucleoli. In addition to their presence in nuclear bodies, both proteins are occasionally present in nuclear aggregates and doughnut-like structures in which PML is concentrated in an outer shell. Nuclear bodies with prominent PML staining are seen in resting B lymphocytes. This staining pattern does not change upon EBV infection. In freshly infected cells EBNA-5 antigens are first distributed throughout the nucleoplasm. After a few days intensely staining foci develop. These foci coincide with PML-positive nuclear bodies. At a later stage and in established lymphoblastoid cell lines EBNA-5 is almost exclusively present in the PML-positive nuclear foci. The colocalization is restricted to EBV-infected human lymphoblasts. The data presented indicate that the distinct EBNA-5 foci are not newly formed structures but the result of translocation of the viral protein to a specialized domain present already in the nuclei of uninfected cells.

Properties of the adenovirus IVa2 gene product, an effector of late-phase-dependent activation of the major late promoter.

Abstract: The adenovirus major late promoter is strongly activated after the onset of viral DNA replication. Sequence elements located downstream of the major later promoter start site have previously been shown to be essential for this activation. Two proteins (DEF-A and DEF-B) bind to these elements in a late-phase-dependent manner. DEF-B has been identified as the product of adenovirus intermediate gene IVa2 (pIVa2) (C. Tribouley, P. Lutz, A. Staub, and C. Kedinger, J. Virol. 68:4450-4457, 1994). Here we show that pIVa2, while monomeric in solution, binds to its recognition sequence as a dimer and that two 20-residue amphipathic alpha helices play an essential role in this DNA-binding activity. Attempts to purify DEF-A have failed, but its chromatographic behavior, together with its immunological properties, established that pIVa2 is also a component of this heteromeric protein. In addition, the time course of pIVa2 synthesis during infection correlated with simultaneous detection of the binding of both DEF-A and DEF-B complexes to the downstream elements. Finally, as revealed by immunomicroscopy, pIVa2 is targeted to the nucleus, where it distributes to restricted locations in the nucleoplasm, as well as to the nucleoli. Altogether, these results demonstrate that pIVa2 plays a critical role in the transition from the early to the late phase of the lytic cycle. Furthermore, pIVa2 may serve additional functions yet to be uncovered, as suggested by its presence within the cell nucleolus.

Nucleus structure and transcriptional activity in relation to oocyte diameter in cattle.

Abstract: Bovine abattoir ovaries were sliced, and recovered oocytes were washed and incubated in medium enriched with 3H-uridine for 30 min. Uridine incorporation was stopped by washing at 4°C in PBS supplemented with cold uridine. The oocytes were grouped according to their inside diameter—<100, 100-<110, 110-<120, and ≥120 μm—and processed for autoradiography and transmission electron microscopy. Oocytes 110 μm displayed electron-dense fibrillar nucleoli and lacked transcriptional activity, as measured by the present means. Based on morphological and transcriptional information, a dynamic model of nucleolus inactivation is proposed. The degree of chromatin condensation varied among oocytes. Fibrillogranular nucleoli were most frequently accompanied by lightly condensed chromatin. The dense fibrillar nucleoli were usually encapsulated by heavily condensed chromatin. The oocyte nuclei underwent a peripheral translocation as the oocyte diameter increased from <100 to 110 μm. In conclusion, RNA synthesis appeared to cease as the oocyte diamter exceeded 110 μm, and concomitantly the nucleoli restructured from fibrillogranular to dense fibrillar. © 1996 Wiley-Liss, Inc.

The organization of ribosomal RNA processing correlates with the distribution of nucleolar snRNAs.

Abstract: We have analyzed the organization of pre-rRNA processing by confocal microscopy in pea root cell nucleoli using a variety of probes for fluorescence in situ hybridization and immunofluorescence. Our results show that transcript processing within the nucleolus is spatially highly organized. Probes to the 5' external transcribed spacer (ETS) and first internal transcribed spacer (ITS1) showed that the excision of the ETS occurred in a sub-region of the dense fibrillar component (DFC), whereas the excision of ITS1 occurred in the surrounding region, broadly corresponding to the granular component. In situ labelling with probes to the snoRNAs U3 and U14, and immunofluorescence labelling with antibodies to fibrillarin and SSB1 showed a high degree of coincidence with the ETS pattern, confirming that ETS cleavage and 18 S rRNA production occur in the DFC. ETS, U14, fibrillarin and SSB1 showed a fine substructure within the DFC comprising closely packed small foci, whereas U3 appeared more diffuse throughout the DFC. A third snoRNA, 7-2/MRP, was localised to the region surrounding the ETS, in agreement with its suggested role in ITS1 cleavage. All three snoRNAs were also frequently observed in numerous small foci in the nucleolar vacuoles, but none was detectable in coiled bodies. Antibodies to fibrillarin and SSB1 labelled coiled bodies strongly, though neither protein was detected in the nucleolar vacuoles. During mitosis, all the components analyzed, including pre-rRNA, were dispersed through the cell at metaphase, then became concentrated around the periphery of all the chromosomes at anaphase, before being localized to the developing nucleoli at late telophase. Pre-rRNA (ETS and ITS1 probes), U3 and U14 were also concentrated into small bodies, presumed to be pre-nucleolar bodies at anaphase.

Tau as a nucleolar protein in human nonneural cells in vitro and in vivo.

Abstract: The Tau-1 monoclonal antibody was localized to the nucleolus of interphase cells and the nucleolar organizing regions (NORs) of acrocentric chromosomes in cultured human cells. Putative nucleolar and NOR tau was found in HeLa cells and lymphoblasts as well as in nontransformed fibroblasts and lymphocytes. To confirm the presence of tau in the nuclei of these nonneural cells, immunoblotting analysis was performed on isolated nuclei from lymphoblasts. Several tau bands were noted on the blot of the nuclear extract suggesting the presence of multiple tau isoforms. Tau-1 immunostaining demonstrated variable staining intensities between individual acrocentric chromosomes in all cells tested. In cultured peripheral lymphocytes, these staining patterns were the same from one chromosome spread to the next within an individual. This consistency of Tau-1 staining and its variability among NORs was reminiscent of staining patterns obtained using the silver-NOR procedure. Comparisons of Tau-1 immunostaining with silver staining of chromosome spreads from human lymphocytes demonstrated that Tau-1 did not immunostain all of the NORs that were silver stained. The intensity of Tau-1 fluorescence in nucleoli was further shown to be increased in phytohemagglutinin-stimulated lymphocytes, indicating an upregulation of nuclear tau when cells reentered the cell cycle. These results contribute to a growing body of evidence defining tau as a multifunctional protein that may be involved in ribosomal biogenesis and/or rRNA transcription in the nucleus of all cells as well as microtubule-stabilizing functions in the neuronal cytoplasm.

5'ETS rRNA processing facilitated by four small RNAs: U14, E3, U17, and U3.

Abstract: The nucleolus, the compartment in which the large ribosomal RNA precursor (pre-rRNA) is synthesized, processed through a series of nucleolytic cleavages and modifications into the mature 18S, 5.8S, and 28S rRNAs, and assembled with proteins to form ribosomal subunits, also contains many small nucleolar RNAs (snoRNAs). We present evidence that the first processing event in mouse rRNA maturation, cleavage within the 5' external transcribed spacer, is facilitated by at least four snoRNAs: U14, U17(E1), and E3, as well as U3. These snoRNAs do not augment this processing by directing 2'-O-methylation of the pre-rRNA. A macromolecular complex in which this 5'ETS processing occurs may then function in the processing of 18S rRNA.

RNA Synthesis Inhibitors Alter the Subnuclear Distribution of DNA Topoisomerase I

Abstract: The acute effect of RNA and DNA synthesis inhibitors on DNA topoisomerase (topo) I localization within cells was examined. Indirect immunofluorescence revealed that topo I was distributed throughout the nuclei but was concentrated in nucleoli of untreated K562 leukemia cells and A549 non-small cell lung cancer cells. Treatment with the DNA polymerase inhibitor aphidicolin did not alter this distribution. In contrast, 30–60 min after addition of the RNA synthesis inhibitor 5,6-dichloro-1-β-d-ribofuranosylbenzimidazole (DRB) at concentrations that inhibited [3H]uridine incorporation into RNA by ≥50%, topo I was visible throughout the nuclei without nucleolar accentuation. Western blotting and activity assays confirmed that the amount of topo I polypeptide and topo I activity were unaltered by the brief DRB treatment. Within 30 min of DRB removal, topo I relocalized to the nucleoli in the absence or presence of the protein synthesis inhibitor cycloheximide. Collectively, these results suggest a reversible translocation of topo I out of the nucleoli when RNA synthesis is inhibited. Treatment with the topo I poisons topotecan or camptothecin, agents that also inhibit RNA synthesis, likewise caused redistribution of topo I to nonnucleolar regions of the nucleus in a variety of cell types. In DC3F hamster lung fibroblasts, 2.5 µm topotecan or 1.25 µm camptothecin was sufficient to cause this topo I redistribution. In DC3F/C-10 cells that contain a mutant camptothecin-resistant topo I, topo I relocalization required 50-fold higher concentrations of topotecan or camptothecin but not DRB. These observations not only suggest that accumulation of topo I in the nucleolus is related to ongoing RNA synthesis but also raise the possibility of screening for some types of camptothecin resistance at the single-cell level using a rapid immunofluorescence-based assay.

Pleiotropic nuclear defects associated with a conditional allele of the novel nucleoporin Rat9p/Nup85p.

Abstract: In a screen for mutants defective in nucleocytoplasmic export of mRNA, we have identified a new component of the Saccharomyces cerevisiae nuclear pore complex (NPC). The RAT9/NUP85 (ribonucleic acid trafficking) gene encodes an 84.9-kDa protein that we have localized to NPCs by tagging the RAT9/NUP85 gene with the in vivo molecular marker Green Fluorescent Protein. In cells containing either the rat9-1 allele or a complete deletion of the RAT9/NUP85 gene, poly(A)+ RNA accumulates rapidly in nuclei after a shift from 23 degrees C to 37 degrees C. Under these same conditions, rapid fragmentation of the nucleolus was also observed. At the permissive growth temperature in rat9-1 or RAT9 deletion strains, the nuclear envelope (NE) becomes detached from the main body of the nucleus, forming long thin double sheets of NE. NPCs within these sheets are clustered and some appear to be locked together between opposing sheets of NE such that their nucleoplasmic faces are in contact. The Rat9/Nup85 protein could not be detected in cells carrying a mutation of RAT2/NUP120, suggesting that Rat9p/Nup85p cannot be assembled into NPCs in the absence of Rat2p/Nup120p. In contrast,Rat9/ Nup85 protein was readily incorporated into NPCs in strains carrying mutant alleles of other nucleoporin genes. The possible role of Rat9p/Nup85p in NE integrity and the loss of nucleoporins when another nucleoporin is mutant or absent are discussed.

Apoptosis during diploid parthenogenesis and early somatic embryogenesis of norway spruce

Abstract: In diploid parthenogenesis of Norway spruce, specific nuclei were ontogenetically eliminated in cells programmed for cell death or apoptosis. Nuclear elimination was defined morphologically and biochemically for the degenerating ventral canal nucleus of egg-equivalents, and in differentiating suspensors of the axial tier of early embryos. Nuclei became pycnotic and disintegrated with the release of nucleoli and nuclear fragments into the cytoplasm. Enucleation in tubular cells of the axial tier was preceded by a reduction in the number of interphase nucleoli. Apoptosis was biochemically characterized by the activation of endonuclease activity that contributed to massive morphological changes in nuclei and ultimately to cell death. Endonuclease activity in individual nuclei was determined by a terminal deoxynucleotidyl transferase (TdT). This enzyme labeled the 3'OH ends of DNA, generated by DNA nicking with biotin-conjugated dUTP, for visualization with a secondary detection system using a colorimetric su...

A nucleolar RNA helicase recognized by autoimmune antibodies from a patient with watermelon stomach disease.

Abstract: Watermelon stomach is characterized by prominent stripes of ectatic vascular tissue in the stomach similar to stripes on a watermelon; in patients with this disorder chronic gastrointestinal bleeding occurs and approximately half of these patients have associated autoimmune disorders. In the serum of one patient, an antinucleolar antibody titer of 1:25 600 was found; the antibodies specifically recognized an approximately 100 kDa nucleolar protein, which we referred to as the 'Gu' protein. Its cDNA was cloned and sequenced. The Gu protein is a member of a new subgroup of RNA helicases, the DEXD box family. Gu protein fused with glutathione S-transferase contains ATP-dependent RNA helicase activity which preferably translocates in the 5'-->3' direction. Its RNA folding activity, RNA-dependent ATPase and dATPase activities, and its translocation direction are similar to those of RNA helicase II [Flores-Rozas, H. and Hurwitz, J. (1993) J. Biol. Chem. 268, 21372-21383]. Sequencing of 209 amino acids of RNA helicase II peptides showed 96.7% identity with the cDNA-derived amino acid sequence of the Gu protein. The precise biological roles of this RNA helicase in the biogenesis of ribosomal RNA and the pathogenesis of watermelon disease and autoimmune disorder require further study.

The Nucleolus During the Cell Cycle

Abstract: There is growing evidence that the cell nucleus like the cytoplasm is organized into different functional domains. The best-characterized intranuclear domain is the Nucleolus. This review presents and discusses recent progress in the understanding of nucleolar architecture and its relationship to nucleolar functions. Both the morphology and the composition of the various nucleolar components are analysed during the cell cycle in different eucaryotic organisms. Since controversy is still present in this field, the authors critically evaluate the data and propose a new model of structure-function relationships within the Nucleolus. This review is designed for researchers who need general information on the morphology and functions of the Nucleolus.

Heat shock disassembles the nucleolus and inhibits nuclear protein import and poly(A)+ RNA export.

Abstract: Heat shock causes major positive and negative changes in gene expression, drastically alters the appearance of the nucleolus and inhibits rRNA synthesis. We here show that it causes many yeast nucleolar proteins, including the fibrillarin homolog Nop1p, to relocate to the cytoplasm. Relocation depends on several proteins implicated in mRNA transport (Mtrps) and is reversible. Two observations indicate, surprisingly, that disassembly results from a reduction in Ssa protein (Hsp70) levels: (i) selective depletion of Ssa1p leads to disassembly of the nucleolus; (ii) preincubation at 37 degrees C protects the nucleolus against disassembly by heat shock, unless expression of Ssa proteins is specifically inhibited. We observed that heat shock or reduction of Ssa1p levels inhibits protein import into the nucleus and therefore we propose that inhibition of import leads to disassembly of the nucleolus. These observations provide a simple explanation of the effects of heat shock on the anatomy of the nucleolus and rRNA transcription. They also extend understanding of the path of nuclear export. Since a number of nucleoplasmic proteins also relocate upon heat shock, these observations can provide a general mechanism for regulation of gene expression. Relocation of the hnRNP-like protein Mtr13p (= Npl3p, Nop3p), explains the heat shock sensitivity of export of average poly(A)+ RNA. Strikingly, Hsp mRNA export appears not to be affected.

cDNA cloning and characterization of a novel nucleolar protein.

Abstract: In an initial study of anti-nuclear antibodies in the chronic inflammatory bladder disease interstitial cystitis, we reported that 7% of interstitial cystitis patients studied had autoantibodies to the nucleolus We now report that, using an autoimmune serum from a patient with interstitial cystitis, we have identified and partially characterized a novel protein with an M(r) of approximately 55 kDa (hereafter referred to as No55) localized to the granular component of the nucleolus No55 was initially characterized by diffuse nucleolar immunofluorescence staining in interphase cells and by Western blotting as a 55-kDa doublet on whole-cell extracts During mitosis, No55 was associated with chromosomes and appeared in prenucleolar bodies during telophase, but it did not colocalize with p80-coilin in coiled bodies Immunoelectron microscopy revealed that No55 was localized uniformly throughout the granular component of the nucleolus compared with a more peripheral localization of nucleolar granular component protein B23 On segregation of the nucleolus with actinomycin D, No55 remained with the granular component of the segregated nucleolus, whereas protein B23 was found predominantly in the nucleoplasm Finally, a cDNA expression library was screened with the human autoantibody against No55, and a 24-kb insert was isolated, subcloned to homogeneity, and then sequenced Analysis of this sequence showed an open reading frame of approximately 13 kb coding for 437 amino acids with a predicted molecular weight of 50 kDa A search of the gene sequence database indicated homology with SC65, a rat synaptonemal complex protein Therefore, on the basis of molecular weight, nucleolar sublocalization, response to actinomycin D, and cDNA sequence determination, No55 is a novel protein of the interphase nucleolus

Transcriptional activity and nucleolar ultrastructure of embryonic rabbit nuclei after transplantation to enucleated oocytes.

Abstract: Changes in the level of transcriptional activity in 32-cell stage morula nuclei were studied after blastomere electrofusion to enucleated oocytes. Nuclear transplant recipients were pulse labelled with 3 H-uridine during cultivation in vitro, embryos were then fixed and processed for autoradiography and electron microscopy. Transcriptional activity substantially decreased after 4.5 hr and was completely inhibited at last 15 hr after fusion. Transcription resumed thereafter in two-cell stage embryos and could be detected in both nuclei from 70% of the embryos analyzed. Transcription activity rapidly increased at the eight 16-cell stages, reaching the level typical for 32-cell stage nuclei used for the transfer. Changes in nucleolar ultrastructure after the nuclear transfer reflected the inhibition and subsequent reactivation of rRNA transcription. Nucleoli of 32-cell embryos had a typical structure of active nucleoli ; many fibrillar centers surrounded and interconnected by threads of the dense fibrillar component and embedded in the granular component. Six hours following nuclear transplantation, these nucleoli underwent drastic changes including loss of granular material, collapse of nucleolar structure, and segregation of nucleolar components. Following the first cleavage, segregated fibrillar components of nucleoli manifested a complete inhibition of nucleolar transcription. Ribosomal RNA transcription was restored at the eight-cell stage and the sequence of ultrastructural changes was similar to that of the normal development. However, at the 32-cell stage, excessive extrusion of pre-ribosomal particles in the cytoplasm occurred, suggesting a possible alteration in regulating mechanisms of ribosome delivery. These results show that after fusion with enucleated metaphase II cytoplasm and subsequent activation, transcription is inhibited in donor embryonic nuclei and progressively increases again during cleavage ; almost as in normal embryos. Migration of ribosomes into cytoplasm appears more intense in 32-cell stage reconstituted embryos but this does not seem to inhibit blastocyst building.

Nucleoplasmic and nucleolar distribution of the adenovirus IVa2 gene product.

Abstract: Sequence elements (DE) located downstream of the adenovirus major late promoter start site have previously been shown to be essential for the activation of this promoter after the onset of viral DNA replication. Two proteins (DEF-A and DEF-B) bind to these elements in a late-phase-dependent manner and contribute to this activation. DEF-B corresponds to a dimer of the adenovirus IVa2 gene product (pIVa2, 449 residues), while DEF-A is a heteromeric protein also comprising pIVa2. As revealed by specific immunofluorescence staining of infected cells, pIVa2 is targeted to the nucleus, where it distributes to both nucleoplasmic and nucleolar structures. We have identified the pIVa2 nuclear localization signal (NLS) as a basic peptide element at the C terminus of the protein (residues 432 to 449). An element essential for nucleolar localization (NuLS) has been mapped in the N-terminal part of pIVa2 (between residues 50 and 136). While NuLS activity is dependent upon an intact NLS, we show that both NLS and NuLS functions are independent of specific DNA-binding activity. As visualized by immunoelectron microscopy, pIVa2 is detected in the nucleoplasm at the level of the fibrillogranular network which is active in viral transcription. More surprisingly, pIVa2 accumulates within electron-dense amorphous inclusions found both in the nucleoplasm and in the nucleolus. Altogether, these results suggest that, besides controlling major late promoter transcription, pIVa2 serves additional, as yet unknown functions.

Redistribution of the delta antigens in cells replicating the genome of hepatitis delta virus.

Abstract: When the small form of the delta antigen (deltaAg-S) was expressed from a cDNA expression plasmid and subsequently detected by immunofluorescence, it was found localized to the nucleoli. However, if the cDNA was cotransfected with a cDNA expressing a mutated hepatitis delta virus (HDV) genome that could only replicate by using the deltaAg-S provided by the first plasmid, then most of the deltaAg-S was redistributed to the nucleoplasm, largely to specific discrete nucleoplasmic sites or speckles; this pattern was stable for at least 50 days after transfection. These speckles coincided with those detected with an antibody to SC35, an essential non-small nuclear ribonucleoprotein splicing factor. Others have shown that SC35 speckles correspond to active sites of DNA-directed transcription by RNA polymerase II and also of RNA processing. We also found, in contrast to the cotransfections with the mutant HDV and the deltaAg-S provided in trans, that cells transfected with wild-type HDV showed a variable pattern of staining. The SC35-like speckle pattern of accumulation of delta antigen deltaAg was maintained for only 6 days, after which the pattern began to change. By 18 days posttransfection, a variety of different deltaAg staining patterns were observed. This pattern of change occurs at a time when the large form of the delta antigen deltaAg-L appears and HDV RNA synthesis begins to shut down. Our studies therefore support the interpretation that HDV RNA and deltaAg-S accumulate at SC35 speckle sites in the nucleoplasm. We speculate that these may be the sites at which HDV RNA is transcribed by RNA polymerase II and/or sites of HDV RNA processing. Furthermore, when deltaAg-L, as well as other mutant deltaAg accumulate, the speckle association is disrupted, thereby stopping HDV RNA replication.

Fine structural cytochemical and immunocytochemical analysis of nucleic acids and ribonucleoprotein distribution in nuclei of pig oocytes and early preimplantation embryos.

Abstract: The fine structure of pig oocytes at the germinal vesicle (GV) stage and early preimplantation embryos (one to four blastomeres) isolated at slaughter was investigated by cytochemical and immunocytochemical methods. The distribution of nucleic acids and ribonucleoproteins (RNPs) in “compact nucleoli” [denominated nucleolus-like bodies (NLB) in oocytes and nucleolus precursor bodies (NPB) in early embryos] and in intranuclear bodies or granules was investigated by staining methods preferential for nuclear RNPs or using the osmium ammine or ethidium bromide-phosphotungstic acid (EB-PTA) reactions for nucleic acids. The distributions of the Sm antigen of nucleoplasmic small nuclear RNPs (snRNPs), the methyl-3 guanosine (m3G) cap of snRNAs and the splicing factor SC-35 were detected by immunoelectron microscopy using specific antibodies. The RNP nature of both NLBs and NPBs, and of nuclear granules in oocytes and embryos, and of fibrillar strands radially projecting from NLBs was revealed. Cytochemical evidence for RNA as a component of NLBs was further provided by EB-PTA staining in combination with the enzymatic removal of RNA, or by osmium-ammine staining without previous acid hydrolysis, while the absence of DNA in NLBs was established by Feulgen-like osmium-ammine staining. In addition, autoradiography demonstrated the absence of [6-3H]thymidine incorporation into NPBs. Other autoradiographic evidence attested the accumulation of RNA in NLBs of oocytes after a 60 min in vitro pulse of [5-3H]uridine. Immunoelectron microscopy using specific antibodies revealed the occurrence of nucleoplasmic snRNPs in both NLBs and NPBs. The presence of snRNA in NLB was confirmed by means of an antibody recognizing the m3G-cap structure. Another spliceosomal component, the protein SC-35 was also detected in NLBs. Among the numerous and variable intranuclear granules occurring mostly in aggregates, the Sm antigen was clearly detected only in the interchromatin granule-type component. Some Sm labeling was occasionally seen in other categories of larger granules. No reaction was detected over any granules when using the anti-m3G-cap antibody. The aggregates consisting of large granules and a finely fibrillar component were intensely immunolabeled by the anti-SC-35 splicing factor probe. Our observations suggest that the compact nucleoli, known to be present before and after fertilization in mammals (NLBs of oocytes and NPBs of early embryos), represent nuclear structural elements containing nonnucleolar, spliceosomal components.