Pescadillo Is Essential for Nucleolar Assembly, Ribosome Biogenesis, and Mammalian Cell Proliferation*

Mutation of the zebrafish pescadillo gene blocks expansion of a number of tissues in the developing embryo, suggesting roles for its gene product in controlling cell proliferation. We report that levels of the pescadillo protein increase in rodent hepatocytes as they enter the cell cycle. Pescadillo protein localizes to distinct substructures of the interphase nucleus including nucleoli, the site of ribosome biogenesis. During mitosis pescadillo closely associates with the periphery of metaphase chromosomes and by late anaphase is associated with nucleolus-derived foci and prenucleolar bodies. Blastomeres in mouse embryos lacking pescadillo arrest at morula stages of development, the nucleoli fail to differentiate and accumulation of ribosomes is inhibited. We propose that in mammalian cells pescadillo is essential for ribosome biogenesis and nucleologenesis and that disruption to its function results in cell cycle arrest.

[1]  Z. Strezoska,et al.  Functional Inactivation of the Mouse Nucleolar Protein Bop1 Inhibits Multiple Steps in Pre-rRNA Processing and Blocks Cell Cycle Progression* , 2002, The Journal of Biological Chemistry.

[2]  Bruce Stillman,et al.  Yph1p, an ORC-Interacting Protein Potential Links between Cell Proliferation Control, DNA Replication, and Ribosome Biogenesis , 2002, Cell.

[3]  D. Tollervey,et al.  Yeast Pescadillo is required for multiple activities during 60S ribosomal subunit synthesis. , 2002, RNA.

[4]  J. Woolford,et al.  Saccharomyces cerevisiae nucleolar protein Nop7p is necessary for biogenesis of 60S ribosomal subunits. , 2002, RNA.

[5]  M. Mann,et al.  Directed Proteomic Analysis of the Human Nucleolus , 2002, Current Biology.

[6]  D. Leary,et al.  Regulation of ribosome biogenesis within the nucleolus , 2001, FEBS letters.

[7]  P. Grandi,et al.  Identification of a 60S preribosomal particle that is closely linked to nuclear export. , 2001, Molecular cell.

[8]  Lester F. Lau,et al.  Evidence of p53-Dependent Cross-Talk between Ribosome Biogenesis and the Cell Cycle: Effects of Nucleolar Protein Bop1 on G1/S Transition , 2001, Molecular and Cellular Biology.

[9]  J. Laurinčík,et al.  Nucleolar Proteins and Ultrastructure in Preimplantation Porcine Embryos Developed In Vivo1 , 2000, Biology of reproduction.

[10]  S. Duncan,et al.  The murine Pes1 gene encodes a nuclear protein containing a BRCT domain. , 2000, Genomics.

[11]  E. Sandgren,et al.  Timing of hepatocyte entry into DNA synthesis after partial hepatectomy is cell autonomous. , 2000, Proceedings of the National Academy of Sciences of the United States of America.

[12]  Tom Misteli,et al.  The Dynamics of Postmitotic Reassembly of the Nucleolus , 2000, The Journal of cell biology.

[13]  Z. Strezoska,et al.  Bop1 Is a Mouse WD40 Repeat Nucleolar Protein Involved in 28S and 5.8S rRNA Processing and 60S Ribosome Biogenesis , 2000, Molecular and Cellular Biology.

[14]  N. Daigle,et al.  Hepatocyte Nuclear Factor 3β (Foxa2) Is Dispensable for Maintaining the Differentiated State of the Adult Hepatocyte , 2000, Molecular and Cellular Biology.

[15]  L. Terracciano,et al.  Proliferation, but not growth, blocked by conditional deletion of 40S ribosomal protein S6. , 2000, Science.

[16]  M. Dundr,et al.  The nucleolus: an old factory with unexpected capabilities. , 2000, Trends in cell biology.

[17]  J. Laurinčík,et al.  Nucleolar Proteins and Nuclear Ultrastructure in Preimplantation Bovine Embryos Produced In Vitro1 , 2000, Biology of reproduction.

[18]  M. Olson,et al.  Nucleolar protein B23 has molecular chaperone activities , 2008, Protein science : a publication of the Protein Society.

[19]  R. Costa,et al.  Premature Expression of the Winged Helix Transcription Factor HFH-11B in Regenerating Mouse Liver Accelerates Hepatocyte Entry into S Phase , 1999, Molecular and Cellular Biology.

[20]  X. Darzacq,et al.  Nucleolar Factors Direct the 2′-O-Ribose Methylation and Pseudouridylation of U6 Spliceosomal RNA , 1999, Molecular and Cellular Biology.

[21]  J. Steitz,et al.  Guided tours: from precursor snoRNA to functional snoRNP. , 1999, Current opinion in cell biology.

[22]  S. Piñol-Roma Association of nonribosomal nucleolar proteins in ribonucleoprotein complexes during interphase and mitosis. , 1999, Molecular biology of the cell.

[23]  L. Lau,et al.  Isolation of growth suppressors from a cDNA expression library , 1998, Oncogene.

[24]  R. Savkur,et al.  Preferential cleavage in pre-ribosomal RNA byprotein B23 endoribonuclease. , 1998, Nucleic acids research.

[25]  M. Dundr,et al.  Partially processed pre-rRNA is preserved in association with processing components in nucleolus-derived foci during mitosis. , 1998, Molecular biology of the cell.

[26]  T. Pederson,et al.  The plurifunctional nucleolus. , 1998, Nucleic acids research.

[27]  T. Pederson,et al.  Localization of signal recognition particle RNA in the nucleolus of mammalian cells. , 1998, Proceedings of the National Academy of Sciences of the United States of America.

[28]  D. Tollervey,et al.  Function and synthesis of small nucleolar RNAs. , 1997, Current opinion in cell biology.

[29]  J. Mornon,et al.  From BRCA1 to RAP1: a widespread BRCT module closely associated with DNA repair , 1997, FEBS letters.

[30]  Peer Bork,et al.  A superfamily of conserved domains in DNA damage‐ responsive cell cycle checkpoint proteins , 1997, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.

[31]  A. Amsterdam,et al.  Insertional mutagenesis in zebrafish identifies two novel genes, pescadillo and dead eye, essential for embryonic development. , 1996, Genes & development.

[32]  A. Amsterdam,et al.  Highly efficient germ-line transmission of proviral insertions in zebrafish. , 1996, Proceedings of the National Academy of Sciences of the United States of America.

[33]  Eugene V. Koonin,et al.  …Functional motifs… , 1996, Nature Genetics.

[34]  J. Herrera,et al.  The ribonuclease activity of nucleolar protein B23. , 1995, Nucleic acids research.

[35]  T. Cech,et al.  Telomerase RNA localized in the replication band and spherical subnuclear organelles in hypotrichous ciliates , 1995, The Journal of cell biology.

[36]  J. Fléchon,et al.  Localization of fibrillarin and nucleolin in nucleoli of mouse preimplantation embryos , 1995, Molecular reproduction and development.

[37]  Z. Xue,et al.  The nucleolus: an organelle formed by the act of building a ribosome. , 1995, Current opinion in cell biology.

[38]  D. Hernandez-Verdun,et al.  The chromosome periphery during mitosis , 1994, BioEssays : news and reviews in molecular, cellular and developmental biology.

[39]  T. Gautier,et al.  Fate of specific nucleolar perichromosomal proteins during mitosis: Cellular distribution and association with U3 snoRNA , 1994, Biology of the cell.

[40]  B. Wold,et al.  Nucleolar localization of myc transcripts , 1993, Molecular and cellular biology.

[41]  D. Hernandez-Verdun,et al.  Identification and characterization of a new set of nucleolar ribonucleoproteins which line the chromosomes during mitosis. , 1992, Experimental cell research.

[42]  R. Bronson,et al.  Neonatal lethality and lymphopenia in mice with a homozygous disruption of the c-abl proto-oncogene , 1991, Cell.

[43]  J. Fléchon,et al.  Nucleologenesis and the onset of transcription in the eight‐cell bovine embryo: Fine‐structural autoradiographic study , 1989, Molecular reproduction and development.

[44]  H. Alexandre,et al.  Ultrastructural and autoradiographic studies of nucleolar development and rDNA transcription in preimplantation mouse embryos. , 1984, Cell differentiation.

[45]  L. Pikó,et al.  Quantitative changes in total RNA, total poly(A), and ribosomes in early mouse embryos. , 1982, Developmental biology.

[46]  C. Torre,et al.  Rate of nucleologenesis as a measure of gene activity , 1975, Nature.

[47]  N. Hillman,et al.  Ultrastructural and autoradiographic studies of mouse cleavage stages. , 1969, The American journal of anatomy.

[48]  G. Higgins,et al.  Experimental pathology of the liver , 1931 .