Phosphorylation of a nucleolus-specific phosphoprotein in vitro.

The cellular site and characteristics of the phosphorylation of a nucleolus-specific phosphoprotein (molecular weight, 120 000) in mouse ascites tumor cells were studied. The phosphoprotein was strongly labeled with ³²P when the isolated nucleoli were incubated with [γ-³²P]ATP in vitro. This phosphoprotein, and protein kinase for the protein phosphorylation were both purified from 0.3 M KCl soluble protein fraction of the nucleoli by hydroxylapatite and phosphocellulose column chromatographies. It was found that phosphorylation of the nucleolus-specific phosphoprotein was catalyzed selectively by a guanosine 3:5-monophosphate-dependent protein kinase in the nucleoli and the reaction product was the same phosphoprotein as the substrate used.     

A STUDY OF NUCLEOLAR VACUOLES IN CULTURED TOBACCO CELLS USING RADIOAUTOGRAPHY, ACTINOMYCIN D, AND ELECTRON MICROSCOPY

Previously it has been found that in tobacco callus cells nucleolar vacuoles repeatedly form and contract. In this study, nucleolar vacuoles were investigated by using radioautography, actinomycin D, and electron microscopy. It was found, from grain counts of nucleoli labeled with uridine-³H, that nucleoli containing vacuoles had more than three times as many grains/µ² of nucleolar substance as did nucleolei without vacuoles. Treatment of tobacco callus cells with various concentrations of actinomycin D caused the percentage of cells containing nucleolar vacuoles to decrease; with the highest concentration the percentage of these cells dropped from the normal level of about 70% to less than 10%. However, after removal of actinomycin D the cells regained nucleolar vacuoles up to the control level. When radioautography was used with actinomycin D, it was found that the actinomycin D inhibited the uptake of uridine-³H, i.e. inhibited RNA synthesis, in those nucleoli which lost their nucleolar vacuoles. In addition, after removal of the cells from actinomycin D, it was found that as the cells regained nucleolar vacuoles the nucleoli also began to incorporate uridine-³H. Electron micrographs showed the nucleoli to be composed of a compact, finely fibrous central portion surrounded by a layer of dense particles 100–150 A in diameter. Nucleolar vacuoles occurred in the fibrous central portion. Dense particles similar to those in the outer layer of the nucleoli were found scattered throughout the vacuoles and in a dense layer at their outer edge. These data suggest that in cultured tobacco callus cells the formation and contraction of nucleolar vacuoles is closely related to RNA synthesis in the nucleolus.     

PROTEIN SYNTHESIS BY ISOLATED PEA NUCLEOLI

A new method is described for the preparation of active, nucleus-free nucleoli and chromatin in relatively high purity and in sufficient quantities to permit biochemical and electron microscopic investigation. This method consists of disintegrating previously isolated nuclei by grinding with glass beads in an isotonic medium thus liberating structurally intact nucleoli and chromatin threads. Nucleoli and chromatin are then purified by differential centrifugation in Ficoll solutions. A study of the chemical composition, submicroscopic structure, and biological activity of the nucleolar preparation has been made. An equivalent study of the chromatin material has also been carried out in order to assess the significance of chromosomal contamination in nucleolar protein synthesis. The isolated nucleoli rapidly incorporate leucine-C¹⁴ into acid and base stable compounds in vitro. Such incorporation lasts for 20 minutes at 37°C and is enhanced by the addition of an energy-regenerating system and a complete amino acid mixture. It is independent of the nuclear Ph 5 enzymes. The bulk of the incorporated label is recovered in the residual, ribosome-like nucleolar protein fraction and a small percentage is found in the acid-extractable basic proteins. The rate of protein synthesis by isolated nucleoli is more rapid than that occurring in the chromatin fraction. This is taken as an additional proof that the nucleolus is the principal site of protein synthesis in the interphase pea nucleus.     

Comparison of Amino-acid Sequences of Hypothalamic Peptide,Brain-specific Histone and Myelin Basic Protein

SEVERAL studies have described the basic proteins of porcine central nervous tissue. Shome and Saffran¹ have isolated and purified a large peptide (or small protein) of molecular weight about 14,000 from acetone-dried hog hypothalamic powder. Sixteen of the approximately twenty-six tryptic digest fragments of this protein have been sequenced. The protein has no pressor or ACTH-releasing activity. Tomasi-and Kornguth² purified and partially characterized a basic protein from pig brain and, on the basis of fluorescent antibody studies, they concluded that this protein is a brain-specific histone, found in neurone nuclei (or nucleoli) of several animals^3–5.     

Labelling of oviduct nuclear and nucleolar proteins during estrogen induced differentiation

Summary The effect of secondary stimulation with estrogen on synthesis of nuclear and nucleolar proteins is studied in chick oviduct.Isolated nuclei and nucleoli have a protein/DNA ratio of 5.2 and 5.6, respectively. 35% of nuclear and nucleolar protein is recovered in the histone fraction after hydroxylapatite chromatography. Gel electrophoretic separations of nuclear and nucleolar nonhistones are largely similar as to visible bands and distribution of radioactivity. Nucleoli bind 1.4 times more [³H] estradiol as compared to whole nuclei.Nucleolar histones are labelled slightly more actively with [³H] leucine than nuclear histones; nucleolar nonhistones are labelled about 3 times more actively than nuclear nonhistones. An 18 hour secondary stimulation with estrogen increases the radioactivity of histones by 6-fold and that of nonhistones by 2.5-fold in whole nuclei as well as in nucleoli. Stimulation appears to increase preferentially radioactivity of nonhistones at 50 000 daltons. As this change is observed in whole nuclei and nucleoli and is not reduced with hydroxyurea, it is suggested that this may be related to a gross structural reorganisation of chromatin induced by the hormone.     

Stimulation of RNA synthesis in nucleoli by inorganic phosphate in vitro

The biological function of a phosphoprotein with a molecular weight of 120 000 daltons localized in the nucleoli of mouse ascites sarcoma cells was studied by examining the effect of the phosphoprotein on RNA synthesis in the nucleoli in vitro. The phosphoprotein did not stimulate ribosomal RNA synthesis in vitro. During this study, it was observed that inorganic phosphate enhanced RNA synthesis in the nucleoli in vitro in the presence of either Mn²⁺ or Mn²⁺ plus Mg²⁺ as divalent cations. Inorganic phosphate stimulated the rate of the chain elongation reaction in RNA synthesis.     

Monoclonal antibody to a protein of the nucleus and mitotic spindle of mammalian cells

We report here the isolation of a monoclonal antibody, J17, that reacts with a conserved vertebrate protein antigen that is present in the spindle apparatus during mitosis but found within the nucleus during interphase. Immunofluorescence microscopy demonstrates that the J17 antigen is found in numerous punctate regions that are distinct from nucleoli. Furthermore, this antigen is not directly associated with kinetochores, the nuclear envelope, or with metaphase chromosomes. — Antibody J17 immunoprecipitates a single polypeptide of very high molecular weight (over 250000) from K562 human erythroleukemia cells pulse-labeled with ¹⁴C-leucine. This polypeptide is converted quantitatively to a stable 220-kilodalton product within one cellular generation. We discuss the possible relevance of this processing event for transport into the nucleus. The J17 antigen is synthesized throughout the cell cycle in Chinese hamster ovary cells.     

Nucleolus-like bodies in micronuclei of cultured Xenopus cells

Two of the 36 chromosomes in Xenopus laevis are known to carry nucleolar organizer loci. Partitioning of the chromosomes of cultured, early-passage Xenopus cells among variable numbers of micronuclei could be induced by extended colcemid treatment. A large, obvious nucleolus occurred in a maximum of 4 micronuclei per colcemid-induced tetraploid cell. The large, deeply-stained nucleoli incorporated [³H]uridine and appeared by electron microscopy to have typical nucleolar morphology with fibrillar and granular areas disposed in nucleolonema. In situ hybridization to radioactive ribosomal RNA (rRNA) resulted in heavy labelling of nucleoli in no more than 4 micronuclei per cell. The other micronuclei generally contained small bodies (blobs) which stained for RNA and protein as well as with ammoniacal silver. In the electron microscope, these appeared as round, dense bodies resembling nucleoli segregated by actinomycin D treatment. Nucleoplasmic RNA synthesis occurred in all micronuclei regardless of whether they contained definitive nucleoli. These observations suggest that micronuclei which formed large, typical, RNA-synthesizing nucleoli contained nucleolar organizer chromosomes, while the other micronuclei, which contained nucleolus-like “blobs” probably lacked nucleolar organizer loci. It is possible that the nucleolus-like bodies may have been aggregates of previously synthesized nucleolar RNA and protein trapped in micronuclei after mitosis.     

Cytophotometric study of nuclear proteins during gametogenesis in Ascaris lumbricoides.

Reduction in the number of nucleoli/nucleus and increase in their size were usually observed in rat liver after partial hepatectomy. These changes of nucleoli were greatest 16–18 h after the operation, when RNA biosynthesis in the nucleoli is reported to be highest. Approx. 50% of the nuclei had one enlarged nucleolus at this time but after the increase in nuclear DNA synthesis less than 15% of the nuclei had one nucleolus, as in normal liver. Before the next peak of nuclear DNA synthesis, nucleolar changes appeared again, though less conspicuously.The enlarged nucleoli of regenerating liver were separated from smaller ones by discontinuous sucrose gradient centrifugation and the contents of nucleic acid and ribosomal cistrons in different-sized nucleoli were measured. The large nucleoli in regenerating liver were found to have increased DNA content, whereas smaller ones had the normal content. The total number of ribosomal cistrons in the enlarged nucleoli from regenerating liver was also increased roughly in proportion to the DNA content. No significant difference was found between the percentages of ribosomal cistrons in whole nuclear DNAs from regenerating and normal liver. Small but reproducible [³H]TdR incorporation into nucleolar DNA was observed and this was similar in normal liver and regenerating liver 12 h after partial hepatectomy. Therefore, the nucleolar changes in regenerating liver were not accompanied by any particular DNA synthesis in the nucleolus itself. These results suggest that in the nuclei of regenerating liver nucleolar chromatins may be redistributed and assembled into large nucleoli, rather than that any amplification of ribosomal cistrons occurs.     

Cytochemical and ultrastructural studies of ribonucleoprotein containing structures in oocytes of Acheta domesticus

Summary Two distinct types of ribonucleoprotein containing structures are found in oocytes of the house cricket, Acheta domesticus, a large secondary or accessory nucleolus and many small primary nucleoli. The secondary nucleolus increases in size during oocyte development and is similar in appearance to the nucleolus of somatic cells. The primary nucleoli are intimately associated with a large, extrachromosomal DNA containing body. The DNA body is no longer visible in nuclei of late diplotene stage cells when the primary nucleoli are dispersed within the nucleoplasm. Both types of nucleoli contain cytochemically detectable RNA and acid protein, little or no DNA and basic protein, and particulate structures similar to but smaller than cytoplasmic ribosomes.The authors acknowledge the technical assistance of Miss Celeste Malinoski and Mrs. Marcia Andrews. This work was supported by a U.S.P.H.S. grant, number GM-16440-01 and grants number L-16 and J-1 from the Health Research Services Foundation.     

Nucleolin, defective for MPF phosphorylation, localizes normally during mitosis and nucleologenesis

To determine what effect maturation promoting factor (MPF, p34 ^cdc2 kinase/cyclin B) phosphorylation has on nucleolin’s distribution during mitotic nucleolar disassembly and reassembly, we altered Chinese hamster ovary (CHO) nucleolin (the N protein) such that it cannot be phosphorylated by p34 ^cdc2 . As expected, the transiently expressed epitope-tagged N protein showed no apparent defect in nucleolar localization in interphase CHO cells, even after hypotonic shock and recovery to quickly disassemble and then reassemble interphase nucleoli. In mitotic CHO cells, the N protein localized to the perichromosomal sheath and the cytoplasm, as is typical for nucleolin. Similar to epitope-tagged wild-type nucleolin, the N protein also maintained its association with persistent nucleoli characteristic of mitotic Chinese hamster lung (Dede) cells. In synchronized HeLa cells, the N protein again localized to the perichromosomal sheath and the cytoplasm as nucleoli disassembled during prophase. In HeLa cell telophase, the N protein localized normally to nucleolus-derived foci within the cytoplasm and prenucleolar bodies within reforming nuclei. The observations indicate that MPF phosphorylation is not essential for nucleolin’s localizations to the perichromosomal sheath and the cytoplasm during prophase and metaphase, and that functional MPF phosphorylation sites are not essential for nucleolin’s localizations during nucleologenesis. Accepted: 15 April 1999     

Isolation and characterization of different-sized nucleoli from Ehrlich ascites tumor cells : Evidence of different nucleolar ribosomal cistrons

A procedure was developed for isolation of variously sized nucleoli in order to study the mechanism of nucleolar formation from multiple nucleolar organizers and to compare the compositions of different-sized nucleoli from Ehrlich ascites tumor cells. Relatively small nucleoli and large nucleoli from Ehrlich ascites tumor cells were separated by centrifugation at 400 g for 5 min in a layer of 0.34 M sucrose over 0.88 M sucrose. Small nucleoli remained in the 0.34 M sucrose layer while the large nucleoli accumulated in the 0.88 M sucrose.Three fractions, provisionally named small, intermediate and large nucleoli, containing 0.33, 0.41 and 0.84 pg DNA/nucleolus, respectively, were separated. Unfractionated nucleoli contained 0.59 pg DNA/nucleolus. The RNA content also increased with the size of the nucleolus and no significant difference was observed in the RNA/DNA ratios in the three fractions. Large nucleoli incorporated more [³H]uridine and [³²P]orthophosphate into RNA than did small nucleoli, but the base compositions of the RNAs extracted from the different-sized nucleoli were similar. No significant fragmentation occurred on sonication of large nucleoli for 3 min, so the observed difference in the DNA contents was not due to mechanical damage of the nucleoli.The DNAs of these different-sized nucleoli were analysed on CsCl gradients. The nucleoli contained similar percentages of satellite DNA (20–22%) which were also similar to those of total, unfractionated nucleoli. Approx. 10% of the extranucleolar DNA is satellite DNA—thus the nucleolar fractions were probably not appreciably contaminated with extranucleolar DNA. The DNA of small nucleoli contained a slightly lower percentage (0.058%) of ribosomal cistrons than large nucleoli (0.081%). This means that the higher content of DNA in the large nucleoli is not merely due to longer sized chromatin with extra regions of the vicinity of nucleolar organizers. Thus these results suggest that the total content of ribosomal cistrons/nucleolus is roughly proportional to the DNA content of the nucleoli, at least in Ehrlich ascites tumor cells. Namely, the number of ribosomal cistrons per nucleolus for small, intermediate and large nucleoli is 40, 60 and 130, respectively.     

Electron-microscopic study on liver cells of rats treated with actinomycin D

Summary Actinomycin D was administered to rats. The animals were also given either cytidine-³H or leucine-³H. Light microscopic radioautography revealed decreased labelling of nucleolar and cytoplasmic RNA and, after high doses, also of chromatin RNA. The protein labelling was not diminished, except perhaps in the nucleoli. Electron-microscopic investigations revealed pronounced changes in the nucleoli, which became compact. Discrete changes were sometimes seen in other parts of the nuclei.The investigation was supported by a research grant (project No. W 337) from the Swedish Medical Research Council.     

Alterations in immunolocalization of the phosphoprotein B23 in HeLa cells during serum starvation

Bright nucleolar immunofluorescence was observed in HeLa S3 cells by immunostaining with a monoclonal antibody to the nucleolar phosphoprotein B23 (MW 37 kD/pI 5.1). After 48 h of incubation in a serum-free medium, the nucleolar fluorescence was diminished and a general nuclear immunofluorescence was observed. This change in localization of fluorescence indicated that protein B23 had migrated out of the nucleoli. No gross morphological change in nucleoli was observed by light microscopy and the immunolocalization of another nucleolar phosphoprotein, C23, was unaffected by serum deprivation. Relocation of protein B23 in nucleoli was observed after refeeding with serum-containing medium. This re-entry process was not observed after treatment with actinomycin D (50 ng/ml-5 micrograms/ml), but the process was unaffected by cycloheximide (0.2 mM). Quantitation of protein B23 in the nucleoli of the control (fed) or starved HeLa cells was done by ELISA immunoassay. A marked decrease in the amount of protein B23 occurred in the nucleoli of the starved cells (11.8 micrograms B23/mgDNA) as compared with the control nucleoli (20.8 micrograms B23/mgDNA). The amount of protein B23 in the nucleoplasm (excluding nucleoli) was 70% higher in the starved cells. Protein B23 was analysed by one- and two-dimensional PAGE. Three components of protein B23 with slightly different molecular weights and pIs (37 kD/5.1, 35 kD/5.1 and 35 kD/5.3) were observed in nucleoli. The lower molecular weight components were predominantly found in the nucleoplasm.     

THE DISTRIBUTION OF THE WATER-SOLUBLE INORGANIC ORTHOPHOSPHATE IONS WITHIN THE CELL: ACCUMULATION IN THE NUCLEUS : Electron Probe Microanalysis

Lead acetate treatment of unfixed cells immobilizes the intracellular water-soluble, inorganic orthophosphate ions as microcrystalline lead hydroxyapatite precipitates (see reference 1). These precipitates have been analyzed with the electron microprobe. A much higher concentration of phosphorus has been found in the nucleoli of maize root tip cells fixed in lead acetate-glutaraldehyde (organic phosphorus plus inorganic orthophosphate), as compared to the nucleoli of roots fixed in glutaraldehyde alone (organic phosphorus). The concentration of the inorganic orthophosphate pool in these nucleoli is three to five times as high as the concentration of the macromolecular organic phosphate. Since nearly all of the latter is in RNA, the concentration of inorganic phosphate in the nucleolus is calculated to be roughly 0.5–0.8 M. About 30%—and up to 50%—of the total cellular inorganic phosphate is accumulated in the nucleolus since the mean concentration per cell is about 10^-2 M. In the extranucleolar part of the nucleus the mean concentration was estimated by densitometry to be roughly six times less than in the nucleolus (⩽ 0.1 M), and appears more concentrated in the nucleoplasm than in the condensed chromatin. While there is no direct evidence for the concentration in the cytoplasm, it certainly must be much lower than the mean cellular level (i.e., < 10^-2 M) since the nucleus is about 10% of the total cell volume. The implications of this compartmentation in the intact cell are discussed in connection with (A) the availability of orthophosphate ions for the cytoplasm in those processes in which these ions affect the rate of enzymatic reactions, and (B) protein nucleic acid interactions within the nucleus and nucleolus.     

Nucleolar DNA amplification inOrnithogalum endosperm

Summary ³H-thymidine autoradiography has revealed selective amplification of nucleolar DNA in the maturing endosperm ofOrnithogalum elatum Andr., a liliaceous plant. Apart from the unusually heavy³H-thymidine labelling in the nucleoli, there is recurrent production of labelled accessory nucleoli which migrate into the cytoplasm by dynamic blebbings of the nuclear envelope, presumably to boost protein biosynthesis in the endosperm cells which nourish the developing embryo.