Characterization of hibernating ribosomes in mammalian cells

Protein synthesis across kingdoms involves the assembly of 70S (prokaryotes) or 80S (eukaryotes) ribosomes on the mRNAs to be translated. 70S ribosomes are protected from degradation in bacteria during stationary growth or stress conditions by forming dimers that migrate in polysome profiles as 100S...

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Published in:Cell cycle (Georgetown, Tex.) Tex.), 2011-08, Vol.10 (16), p.2691-2702
Main Authors: Krokowski, Dawid, Gaccioli, Francesca, Majumder, Mithu, Mullins, Michael R., Yuan, Celvie L., Papadopoulou, Barbara, Merrick, William C., Komar, Anton A., Taylor, Derek J., Hatzoglou, Maria
Format: Article
Language:English
Subjects:
Animals
Binding
Binding Sites
Biology
Bioscience
Calcium
Cancer
Cell
Cell Line
Cricetinae
Cryoelectron Microscopy
Cycle
Escherichia coli - genetics
Escherichia coli - metabolism
Escherichia coli Proteins - metabolism
Humans
Landes
Mice
Organogenesis
Protein Biosynthesis
Protein Multimerization
Proteins
Rats
Ribosomal Proteins - genetics
Ribosomal Proteins - metabolism
Ribosomal Proteins - ultrastructure
Ribosomes - genetics
Ribosomes - metabolism
Ribosomes - ultrastructure
Stress, Physiological
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Summary:Protein synthesis across kingdoms involves the assembly of 70S (prokaryotes) or 80S (eukaryotes) ribosomes on the mRNAs to be translated. 70S ribosomes are protected from degradation in bacteria during stationary growth or stress conditions by forming dimers that migrate in polysome profiles as 100S complexes. Formation of ribosome dimers in Escherichia coli is mediated by proteins, namely the ribosome modulation factor (RMF), which is induced in the stationary phase of cell growth. It is reported here a similar ribosomal complex of 110S in eukaryotic cells, which forms during nutrient starvation. The dynamic nature of the 110S ribosomal complex (mammalian equivalent of the bacterial 100S) was supported by the rapid conversion into polysomes upon nutrient-refeeding via a mechanism sensitive to inhibitors of translation initiation. Several experiments were used to show that the 110S complex is a dimer of nontranslating ribosomes. Cryo-electron microscopy visualization of the 110S complex revealed that two 80S ribosomes are connected by a flexible, albeit localized, interaction. We conclude that, similarly to bacteria, rat cells contain stress-induced ribosomal dimers. The identification of ribosomal dimers in rat cells will bring new insights in our thinking of the ribosome structure and its function during the cellular response to stress conditions.
ISSN:1538-4101
1551-4005
DOI:10.4161/cc.10.16.16844