Ribosomal Protein S6 Gene Haploinsufficiency Is Associated with Activation of a p53-Dependent Checkpoint during Gastrulation

ABSTRACT Nascent ribosome biogenesis is required during cell growth. To gain insight into the importance of this process during mouse oogenesis and embryonic development, we deleted one allele of the ribosomal protein S6 gene in growing oocytes and generated S6-heterozygous embryos. Oogenesis and embryonic development until embryonic day 5.5 (E5.5) were normal. However, inhibition of entry into M phase of the cell cycle and apoptosis became evident post-E5.5 and led to perigastrulation lethality. Genetic inactivation of p53 bypassed this checkpoint and prolonged development until E12.5, when the embryos died, showing decreased expression of D-type cyclins, diminished fetal liver erythropoiesis, and placental defects. Thus, a p53-dependent checkpoint is activated during gastrulation in response to ribosome insufficiency to prevent improper execution of the developmental program.

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Downregulation of ribosomal protein S6 inhibits the growth of non-small cell lung cancer by inducing cell cycle arrest, rather than apoptosis

Cancer Letters ◽

10.1016/j.canlet.2014.08.045 ◽

2014 ◽

Vol 354 (2) ◽

pp. 378-389 ◽

Cited By ~ 16

Author(s):

Bojiang Chen ◽

Wen Zhang ◽

Jun Gao ◽

Hong Chen ◽

Li Jiang ◽

...

Keyword(s):

Lung Cancer ◽

Cell Cycle ◽

Small Cell Lung Cancer ◽

Ribosomal Protein ◽

Cell Cycle Arrest ◽

Cell Lung Cancer ◽

Small Cell ◽

Small Cell Lung ◽

Cycle Arrest ◽

Ribosomal Protein S6

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Coordinate regulation of ribosome biogenesis and function by the ribosomal protein S6 kinase, a key mediator of mTOR function

Growth Factors ◽

10.1080/08977190701779101 ◽

2007 ◽

Vol 25 (4) ◽

pp. 209-226 ◽

Cited By ~ 155

Author(s):

Katarzyna Jastrzebski ◽

Katherine M. Hannan ◽

Elissaveta B. Tchoubrieva ◽

Ross D. Hannan ◽

Richard B. Pearson

Keyword(s):

Ribosomal Protein ◽

Ribosome Biogenesis ◽

S6 Kinase ◽

Coordinate Regulation ◽

Ribosomal Protein S6 ◽

And Function ◽

Kinase A ◽

Ribosomal Protein S6 Kinase

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Combinatorial action of transcription factors orchestrates cell cycle-dependent expression of the ribosomal protein genes and ribosome biogenesis

FEBS Journal ◽

10.1111/febs.12786 ◽

2014 ◽

Vol 281 (10) ◽

pp. 2339-2352 ◽

Cited By ~ 17

Author(s):

Nagisa Nosrati ◽

Neetu R. Kapoor ◽

Vijay Kumar

Keyword(s):

Cell Cycle ◽

Transcription Factors ◽

Ribosomal Protein ◽

Ribosome Biogenesis ◽

Ribosomal Protein Genes ◽

Cycle Dependent

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Repressed synthesis of ribosomal proteins generates protein-specific cell cycle and morphological phenotypes

Molecular Biology of the Cell ◽

10.1091/mbc.e13-02-0097 ◽

2013 ◽

Vol 24 (23) ◽

pp. 3620-3633 ◽

Cited By ~ 18

Author(s):

Mamata Thapa ◽

Ananth Bommakanti ◽

Md. Shamsuzzaman ◽

Brian Gregory ◽

Leigh Samsel ◽

...

Keyword(s):

Cell Cycle ◽

Cell Fate ◽

Ribosomal Proteins ◽

Ribosome Biogenesis ◽

Cell Cycle Progression ◽

Physical Structure ◽

Specific Cell ◽

M Cell ◽

Cycle Progression ◽

M Phase

The biogenesis of ribosomes is coordinated with cell growth and proliferation. Distortion of the coordinated synthesis of ribosomal components affects not only ribosome formation, but also cell fate. However, the connection between ribosome biogenesis and cell fate is not well understood. To establish a model system for inquiries into these processes, we systematically analyzed cell cycle progression, cell morphology, and bud site selection after repression of 54 individual ribosomal protein (r-protein) genes in Saccharomyces cerevisiae. We found that repression of nine 60S r-protein genes results in arrest in the G2/M phase, whereas repression of nine other 60S and 22 40S r-protein genes causes arrest in the G1 phase. Furthermore, bud morphology changes after repression of some r-protein genes. For example, very elongated buds form after repression of seven 60S r-protein genes. These genes overlap with, but are not identical to, those causing the G2/M cell cycle phenotype. Finally, repression of most r-protein genes results in changed sites of bud formation. Strikingly, the r-proteins whose repression generates similar effects on cell cycle progression cluster in the ribosome physical structure, suggesting that different topological areas of the precursor and/or mature ribosome are mechanistically connected to separate aspects of the cell cycle.

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Prolonged cyclin-dependent kinase inhibition results in septin perturbations during return to growth and mitosis

The Journal of Cell Biology ◽

10.1083/jcb.201708153 ◽

2018 ◽

Vol 217 (7) ◽

pp. 2429-2443 ◽

Cited By ~ 4

Author(s):

Gabriel M. Gihana ◽

Tiffany R. Musser ◽

Oscar Thompson ◽

Soni Lacefield

Keyword(s):

Saccharomyces Cerevisiae ◽

Cell Cycle ◽

Normal Cell ◽

Cyclin Dependent Kinase ◽

Temporal Regulation ◽

Developmental Program ◽

M Phase ◽

Multiple Buds ◽

Diploid Cells ◽

Normal Cell Cycle

We investigated how Saccharomyces cerevisiae coordinate polarization, budding, and anaphase during a unique developmental program called return to growth (RTG) in which cells in meiosis return to mitosis upon nutrient shift. Cells reentering mitosis from prophase I deviate from the normal cell cycle by budding in G2 instead of G1. We found that cells do not maintain the bipolar budding pattern, a characteristic of diploid cells. Furthermore, strict temporal regulation of M-phase cyclin-dependent kinase (CDK; M-CDK) is important for polarity establishment and morphogenesis. Cells with premature M-CDK activity caused by loss of checkpoint kinase Swe1 failed to polarize and underwent anaphase without budding. Mutants with increased Swe1-dependent M-CDK inhibition showed additional or more penetrant phenotypes in RTG than mitosis, including elongated buds, multiple buds, spindle mispositioning, and septin perturbation. Surprisingly, the enhanced and additional phenotypes were not exclusive to RTG but also occurred with prolonged Swe1-dependent CDK inhibition in mitosis. Our analysis reveals that prolonged activation of the Swe1-dependent checkpoint can be detrimental instead of beneficial.

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